Reactome: A Curated Pathway Database
Found 5121 matches:
as
11cRAL (RPE) translocates to photoreceptor outer segment
11cRAL (RPE) translocates to photoreceptor outer segment
11cRAL (RPE) translocates to photoreceptor outer segment
11cRAL (RPE) translocates to photoreceptor outer segment
11cRAL (RPE) translocates to photoreceptor outer segment
11cRAL (RPE) translocates to photoreceptor outer segment
11cRAL (RPE) translocates to photoreceptor outer segment
11cRAL (RPE) translocates to photoreceptor outer segment
11cRAL (RPE) translocates to photoreceptor outer segment
11cRAL (RPE) translocates to photoreceptor outer segment
11cRDH oxidises 11cROL to 11cRAL
11cROL translocates from Muller cells to cone photoreceptor cells
11cROL translocates from Muller cells to cone photoreceptor cells
11cROL translocates from Muller cells to cone photoreceptor cells
11cROL translocates from Muller cells to cone photoreceptor cells
11cROL translocates from Muller cells to cone photoreceptor cells
11cROL translocates from Muller cells to cone photoreceptor cells
11cROL translocates from Muller cells to cone photoreceptor cells
11cROL translocates from Muller cells to cone photoreceptor cells
11cROL translocates from Muller cells to cone photoreceptor cells
11cROL translocates from Muller cells to cone photoreceptor cells
20cooh-LTB4 is converted to 18cooh-LTB4
20kDa HA fragments are translocated to lysosomes
26S proteasome processes K48PolyUb-K21,22-p-S32,36-IkBA:NF-kB complex to form NF-kB complex
26S proteasome processes K48PolyUb-K21,22-p-S32,36-IkBA:NF-kB complex to form NF-kB complex
26S proteasome processes K48PolyUb-K21,22-p-S32,36-IkBA:NF-kB complex to form NF-kB complex
26S proteasome processes K48PolyUb-K21,22-p-S32,36-IkBA:NF-kB complex to form NF-kB complex
26S proteasome processes K48PolyUb-K21,22-p-S32,36-IkBA:NF-kB complex to form NF-kB complex
26S proteasome processes K48PolyUb-K21,22-p-S32,36-IkBA:NF-kB complex to form NF-kB complex
26S proteasome processes K48PolyUb-K21,22-p-S32,36-IkBA:NF-kB complex to form NF-kB complex
26S proteasome processes p-7S-p100:RELB to form p52:RELB
26S proteasome processes p-7S-p100:RELB to form p52:RELB
26S proteasome processes p-7S-p100:RELB to form p52:RELB
26S proteasome processes p-7S-p100:RELB to form p52:RELB
26S proteasome processes p-7S-p100:RELB to form p52:RELB
26S proteasome processes p-7S-p100:RELB to form p52:RELB
26S proteasome processes p-7S-p100:RELB to form p52:RELB
26S proteasome processes p-7S-p100:RELB to form p52:RELB
26S proteasome processes p-7S-p100:RELB to form p52:RELB
26S proteasome processes p-7S-p100:RELB to form p52:RELB
26S proteosome degrades ODC holoenzyme complex
26S proteosome degrades ODC holoenzyme complex
26S proteosome degrades ODC holoenzyme complex
26S proteosome degrades ODC holoenzyme complex
26S proteosome degrades ODC holoenzyme complex
26S proteosome degrades ODC holoenzyme complex
26S proteosome degrades ODC holoenzyme complex
26S proteosome degrades ODC holoenzyme complex
26S proteosome degrades ODC holoenzyme complex
26S proteosome degrades ODC holoenzyme complex
4,8,12-trimethyltridecanoyl-CoA + 2 O2 + 2 H2O + 2 NAD+ + 2 CoASH => 4,8-dimethylnonanoyl-CoA + 2 H2O2 + 2 NADH + 2 H+ + acetyl-CoA + propionyl-CoA
4Fe-4S cluster assembles on CFD1:NBP35 scaffold
4Fe-4S cluster assembles on NUBP2:NUBP1 scaffold
4Fe-4S cluster assembles on NUBP2:NUBP1 scaffold
4Fe-4S cluster assembles on NUBP2:NUBP1 scaffold
4Fe-4S cluster assembles on NUBP2:NUBP1 scaffold
4Fe-4S cluster assembles on NUBP2:NUBP1 scaffold
4Fe-4S cluster assembles on NUBP2:NUBP1 scaffold
4Fe-4S cluster assembles on NUBP2:NUBP1 scaffold
4Fe-4S cluster assembles on NUBP2:NUBP1 scaffold
4Fe-4S cluster assembles on NUBP2:NUBP1 scaffold
4Fe-4S cluster assembles on NUBP2:NUBP1 scaffold
4Fe-4S cluster assembles on NUBP2:NUBP1 scaffold
4Fe-4S cluster assembles on NUBP2:NUBP1 scaffold
4Fe-4S cluster assembles on NUBP2:NUBP1 scaffold
4Fe-4S cluster assembles on NUBP2:NUBP1 scaffold
4Fe-4S cluster assembles on NUBP2:NUBP1 scaffold
4Fe-4S cluster assembles on NUBP2:NUBP1 scaffold
55S ribosome hydrolyzes peptidyl-tRNA bond and MTRF1L hydrolyzes GTP
55S ribosome hydrolyzes peptidyl-tRNA bond and MTRF1L hydrolyzes GTP
55S ribosome hydrolyzes peptidyl-tRNA bond and MTRF1L hydrolyzes GTP
55S ribosome hydrolyzes peptidyl-tRNA bond and MTRF1L hydrolyzes GTP
55S ribosome hydrolyzes peptidyl-tRNA bond and MTRF1L hydrolyzes GTP
55S ribosome hydrolyzes peptidyl-tRNA bond and MTRF1L hydrolyzes GTP
55S ribosome hydrolyzes peptidyl-tRNA bond and MTRF1L hydrolyzes GTP
55S ribosome hydrolyzes peptidyl-tRNA bond and MTRF1L hydrolyzes GTP
55S ribosome hydrolyzes peptidyl-tRNA bond and MTRF1L hydrolyzes GTP
55S ribosome hydrolyzes peptidyl-tRNA bond and MTRF1L hydrolyzes GTP
55S ribosome hydrolyzes peptidyl-tRNA bond and MTRF1L hydrolyzes GTP
A REH hydrolses atREs to atROL and FAs
A REH hydrolyses 11cRE to 11cROL
Activated CEBPB stimulates transcription of CDKN2B
Activated chicken TRAF6 synthesizes free K63bound poly_Ub chains within the complex dsRNA :TLR3 :TICAM1
Activated chicken TRAF6 synthesizes free K63bound poly_Ub chains within the complex p-IRAK2:pUb_oligo TRAF6
Activated PKC-alpha can activate MMP3
Activated PKC-alpha can activate MMP3
Activated PKC-alpha can activate MMP3
Activated PKC-alpha can activate MMP3
Activated PKC-alpha can activate MMP3
Activated PKC-alpha can activate MMP3
Activated PKC-alpha can activate MMP3
Activated PKC-alpha can activate MMP3
Activated PKC-alpha can activate MMP3
Activated Src activates ERK
Activated Src activates ERK
Activated Src activates ERK
Activated Src activates ERK
Activated Src activates ERK
Activated Src activates ERK
Activated Src activates ERK
Activated Src activates ERK
Activated Src activates ERK
Activated Src activates ERK
Activated Src activates ERK
Activated Src activates ERK
Activated STAT3 positively regulates CEBPB transcription
Activated TGFBR1 cannot phosphorylate SMAD2 and SMAD3 Phosphorylation Motif Mutants
Activated TRAF6 synthesizes free K63 linked pUb chains.
Activated TrkA receptor internalizes to endosomes
Activated TrkA receptor internalizes to endosomes
Activated TrkA receptor internalizes to endosomes
Activated TrkA receptor internalizes to endosomes
Activated TrkA receptor internalizes to endosomes
Activated TrkA receptor internalizes to endosomes
Activated TrkA receptor internalizes to endosomes
Activated TrkA receptor internalizes to endosomes
Activated TrkA receptor internalizes to endosomes
Activation of beta-arrestin-1-bound Src kinase
Activation of beta-arrestin-1-bound Src kinase
Activation of beta-arrestin-1-bound Src kinase
Activation of beta-arrestin-1-bound Src kinase
Activation of beta-arrestin-1-bound Src kinase
Activation of beta-arrestin-1-bound Src kinase
Activation of beta-arrestin-1-bound Src kinase
Activation of beta-arrestin-1-bound Src kinase
Activation of beta-arrestin-1-bound Src kinase
Activation of beta-arrestin-1-bound Src kinase
Activation of beta-arrestin-1-bound Src kinase
Activation of beta-arrestin-1-bound Src kinase
Activation of C1r within the C1complement complex
Activation of Cdc25A by c-myc
Activation of Cdc25A by c-myc
Activation of Cdc25A by c-myc
Activation of Cdc25A by c-myc
Activation of Cdc25A by c-myc
Activation of Cdc25A by c-myc
Activation of Cdc25A by c-myc
Activation of Cdc25A by c-myc
Activation of Cdc25A by c-myc
Activation of Cdc25A by c-myc
Activation of Cdc25A by c-myc
Activation of Cdc25A by c-myc
Activation of Cdc25A by c-myc
Activation of Cdc25A by c-myc
Activation of Cdc25A by c-myc
Activation of CDC42 by unknown mechanism
Activation of CDC42 by unknown mechanism
Activation of CDC42 by unknown mechanism
Activation of CDC42 by unknown mechanism
Activation of CDC42 by unknown mechanism
Activation of CDC42 by unknown mechanism
Activation of CDC42 by unknown mechanism
Activation of CDC42 by unknown mechanism
Activation of CDC42 by unknown mechanism
Activation of CDC42 by unknown mechanism
Activation of CDC42 by unknown mechanism
Activation of CDC42 by unknown mechanism
Activation of CDC42 by unknown mechanism
Activation of CDC42 by unknown mechanism
Activation of Cyclin B/Cdk1 by Cdc25a (string) protein
Activation of Cyclin B/Cdk1 by Cdc25a (string) protein
Activation of Cyclin B/Cdk1 by Cdc25a (string) protein
Activation of Cyclin B/Cdk1 by Cdc25a (string) protein
Activation of Cyclin B/Cdk1 by Cdc25a (string) protein
Activation of Cyclin B/Cdk1 by Cdc25a (string) protein
Activation of Cyclin B/Cdk1 by Cdc25a (string) protein
Activation of Cyclin B/Cdk1 by Cdc25a (string) protein
Activation of Cyclin B/Cdk1 by Cdc25a (string) protein
Activation of Cyclin B/Cdk1 by Cdc25a (string) protein
Activation of Cyclin B/Cdk1 by Cdc25a (string) protein
Activation of Cyclin B/Cdk1 by Cdc25a (string) protein
Activation of Cyclin B/Cdk1 by Cdc25a (string) protein
Activation of E2F target genes at G1/S
Activation of E2F target genes at G1/S
Activation of E2F target genes at G1/S
Activation of E2F target genes at G1/S
Activation of E2F target genes at G1/S
Activation of E2F target genes at G1/S
Activation of E2F target genes at G1/S
Activation of E2F target genes at G1/S
Activation of E2F target genes at G1/S
Activation of E2F target genes at G1/S
Activation of E2F target genes at G1/S
Activation of E2F target genes at G1/S
Activation of E2F target genes at G1/S
Activation of E2F target genes at G1/S
Activation of E2F target genes at G1/S
Activation of E2F target genes at G1/S
Activation of E2F target genes at G1/S
Activation of E2F target genes at G1/S
activation of MAP3K7 in response to WNT
Activation of p38 alpha/beta MAPK
Activation of p38 alpha/beta MAPK
Activation of p38 alpha/beta MAPK
Activation of p38 alpha/beta MAPK
Activation of p38 alpha/beta MAPK
Activation of p38 alpha/beta MAPK
Activation of p38 alpha/beta MAPK
Activation of p38 alpha/beta MAPK
Activation of p38 alpha/beta MAPK
Activation of p38 alpha/beta MAPK
Activation of p38MAPK by DSCAM
Activation of p38MAPK by DSCAM
Activation of proMMP10
Activation of proMMP10
Activation of proMMP10
Activation of proMMP10
Activation of proMMP10
Activation of proMMP10
Activation of proMMP10
Activation of proMMP10
Activation of proMMP8
Activation of proMMP8
Activation of proMMP8
Activation of proMMP8
Activation of proMMP8
Activation of proMMP8
Activation of proMMP8
Activation of proMMP8
Activation of proMMP8
Activation of proMMP8
Activation of TAK1 complex bound to pUb-TRAF6
Activation of TAK1 complex bound to pUb-TRAF6
Activation of TAK1 complex bound to pUb-TRAF6
Activation of TAK1 complex bound to pUb-TRAF6
Activation of TAK1 complex bound to pUb-TRAF6
Activation of TAK1 complex bound to pUb-TRAF6
Activation of TAK1 complex bound to pUb-TRAF6
Activation of TAK1 complex bound to pUb-TRAF6
Activation of TAK1 complex bound to pUb-TRAF6
Activation of TAK1 complex bound to pUb-TRAF6
Activation of TRPC channels by Netrin-1
Activation of TRPC channels by Netrin-1
Activation of TRPC channels by Netrin-1
Activation of TRPC channels by Netrin-1
Activation of TRPC channels by Netrin-1
Activation of TRPC channels by Netrin-1
Activation of TRPC channels by Netrin-1
Activation of TRPC channels by Netrin-1
Activation of TRPC channels by Netrin-1
Activation of TRPC channels by Netrin-1
Activation of TRPC channels by Netrin-1
Active ARSA translocates to the lysosome
Active ARSA translocates to the lysosome
Active ARSA translocates to the lysosome
Active ARSA translocates to the lysosome
Active ARSA translocates to the lysosome
Active ARSA translocates to the lysosome
Active ARSA translocates to the lysosome
Active ARSA translocates to the lysosome
Active ARSA translocates to the lysosome
Active ARSA translocates to the lysosome
Acyl Ghrelin and C-Ghrelin are secreted
Acyl Ghrelin and C-Ghrelin are secreted
Acyl Ghrelin and C-Ghrelin are secreted
Acyl Ghrelin and C-Ghrelin are secreted
Acyl Ghrelin and C-Ghrelin are secreted
Acyl Ghrelin and C-Ghrelin are secreted
Acyl Ghrelin and C-Ghrelin are secreted
ADAM10 cleaves EFNAs
ADAM10 cleaves EFNAs
ADAM10 cleaves EFNAs
ADAM10 cleaves EFNAs
ADAM10 cleaves EFNAs
ADAM10 cleaves EFNAs
ADAM10 cleaves EFNAs
ADAM10 cleaves EFNAs
ADAM10 cleaves EFNAs
ADAM10 cleaves EFNAs
Addition of galactose to the Tn antigen via an alpha-1,3 linkage forms a Core 8 glycoprotein
Addition of galactose to the Tn antigen via an alpha-1,3 linkage forms a Core 8 glycoprotein
Addition of galactose to the Tn antigen via an alpha-1,3 linkage forms a Core 8 glycoprotein
Addition of galactose to the Tn antigen via an alpha-1,3 linkage forms a Core 8 glycoprotein
Addition of galactose to the Tn antigen via an alpha-1,3 linkage forms a Core 8 glycoprotein
Addition of galactose to the Tn antigen via an alpha-1,3 linkage forms a Core 8 glycoprotein
Addition of galactose to the Tn antigen via an alpha-1,3 linkage forms a Core 8 glycoprotein
Addition of galactose to the Tn antigen via an alpha-1,3 linkage forms a Core 8 glycoprotein
Addition of galactose to the Tn antigen via an alpha-1,3 linkage forms a Core 8 glycoprotein
Addition of galactose to the Tn antigen via an alpha-1,3 linkage forms a Core 8 glycoprotein
Addition of galactose to the Tn antigen via an alpha-1,3 linkage forms a Core 8 glycoprotein
Addition of galactose to the Tn antigen via an alpha-1,3 linkage forms a Core 8 glycoprotein
Addition of GalNAc to the Tn antigen via an alpha-1,6 linkage forms a Core 7 glycoprotein
Addition of GalNAc to the Tn antigen via an alpha-1,6 linkage forms a Core 7 glycoprotein
Addition of GalNAc to the Tn antigen via an alpha-1,6 linkage forms a Core 7 glycoprotein
Addition of GalNAc to the Tn antigen via an alpha-1,6 linkage forms a Core 7 glycoprotein
Addition of GalNAc to the Tn antigen via an alpha-1,6 linkage forms a Core 7 glycoprotein
Addition of GalNAc to the Tn antigen via an alpha-1,6 linkage forms a Core 7 glycoprotein
Addition of GalNAc to the Tn antigen via an alpha-1,6 linkage forms a Core 7 glycoprotein
Addition of GalNAc to the Tn antigen via an alpha-1,6 linkage forms a Core 7 glycoprotein
Addition of GalNAc to the Tn antigen via an alpha-1,6 linkage forms a Core 7 glycoprotein
Addition of GalNAc to the Tn antigen via an alpha-1,6 linkage forms a Core 7 glycoprotein
Addition of GalNAc to the Tn antigen via an alpha-1,6 linkage forms a Core 7 glycoprotein
Addition of GalNAc to the Tn antigen via an alpha-1,6 linkage forms a Core 7 glycoprotein
Addition of GlcNAc to the Tn antigen via a beta-1,6 linkage forms a Core 6 glycoprotein
Addition of GlcNAc to the Tn antigen via a beta-1,6 linkage forms a Core 6 glycoprotein
Addition of GlcNAc to the Tn antigen via a beta-1,6 linkage forms a Core 6 glycoprotein
Addition of GlcNAc to the Tn antigen via a beta-1,6 linkage forms a Core 6 glycoprotein
Addition of GlcNAc to the Tn antigen via a beta-1,6 linkage forms a Core 6 glycoprotein
Addition of GlcNAc to the Tn antigen via a beta-1,6 linkage forms a Core 6 glycoprotein
Addition of GlcNAc to the Tn antigen via a beta-1,6 linkage forms a Core 6 glycoprotein
Addition of GlcNAc to the Tn antigen via a beta-1,6 linkage forms a Core 6 glycoprotein
Addition of GlcNAc to the Tn antigen via a beta-1,6 linkage forms a Core 6 glycoprotein
Addition of GlcNAc to the Tn antigen via a beta-1,6 linkage forms a Core 6 glycoprotein
Addition of GlcNAc to the Tn antigen via a beta-1,6 linkage forms a Core 6 glycoprotein
Addition of GlcNAc to the Tn antigen via a beta-1,6 linkage forms a Core 6 glycoprotein
Addition of GlcNAc to the Tn antigen via an alpha-1,3 linkage forms a Core 5 glycoprotein
Addition of GlcNAc to the Tn antigen via an alpha-1,3 linkage forms a Core 5 glycoprotein
Addition of GlcNAc to the Tn antigen via an alpha-1,3 linkage forms a Core 5 glycoprotein
Addition of GlcNAc to the Tn antigen via an alpha-1,3 linkage forms a Core 5 glycoprotein
Addition of GlcNAc to the Tn antigen via an alpha-1,3 linkage forms a Core 5 glycoprotein
Addition of GlcNAc to the Tn antigen via an alpha-1,3 linkage forms a Core 5 glycoprotein
Addition of GlcNAc to the Tn antigen via an alpha-1,3 linkage forms a Core 5 glycoprotein
Addition of GlcNAc to the Tn antigen via an alpha-1,3 linkage forms a Core 5 glycoprotein
Addition of GlcNAc to the Tn antigen via an alpha-1,3 linkage forms a Core 5 glycoprotein
Addition of GlcNAc to the Tn antigen via an alpha-1,3 linkage forms a Core 5 glycoprotein
Addition of GlcNAc to the Tn antigen via an alpha-1,3 linkage forms a Core 5 glycoprotein
Addition of GlcNAc to the Tn antigen via an alpha-1,3 linkage forms a Core 5 glycoprotein
Addition of the fourth nucleotide on the nascent HIV-1 transcript: Second Transition
Addition of the fourth nucleotide on the Nascent Transcript: Second Transition
Addition of the fourth nucleotide on the Nascent Transcript: Second Transition
Addition of the fourth nucleotide on the Nascent Transcript: Second Transition
Addition of the fourth nucleotide on the Nascent Transcript: Second Transition
Addition of the fourth nucleotide on the Nascent Transcript: Second Transition
Addition of the fourth nucleotide on the Nascent Transcript: Second Transition
Addition of the fourth nucleotide on the Nascent Transcript: Second Transition
Addition of the fourth nucleotide on the Nascent Transcript: Second Transition
Addition of the fourth nucleotide on the Nascent Transcript: Second Transition
Addition of the fourth nucleotide on the Nascent Transcript: Second Transition
Addition of the fourth nucleotide on the Nascent Transcript: Second Transition
Addition of the fourth nucleotide on the Nascent Transcript: Second Transition
Addition of the fourth nucleotide on the Nascent Transcript: Second Transition
Addition of the fourth nucleotide on the Nascent Transcript: Second Transition
Addition of the fourth nucleotide on the Nascent Transcript: Second Transition
Addition of the fourth nucleotide on the Nascent Transcript: Second Transition
Addition of the fourth nucleotide on the Nascent Transcript: Second Transition
Addition of the third nucleotide on the nascent HIV-1 transcript
Addition of the third nucleotide on the nascent transcript
Addition of the third nucleotide on the nascent transcript
Addition of the third nucleotide on the nascent transcript
Addition of the third nucleotide on the nascent transcript
Addition of the third nucleotide on the nascent transcript
Addition of the third nucleotide on the nascent transcript
Addition of the third nucleotide on the nascent transcript
Addition of the third nucleotide on the nascent transcript
Addition of the third nucleotide on the nascent transcript
Addition of the third nucleotide on the nascent transcript
Addition of the third nucleotide on the nascent transcript
Addition of the third nucleotide on the nascent transcript
Addition of the third nucleotide on the nascent transcript
Addition of the third nucleotide on the nascent transcript
Addition of the third nucleotide on the nascent transcript
Addition of the third nucleotide on the nascent transcript
Addition of the third nucleotide on the nascent transcript
AFXBO translocates from cytosol to nucleoplasm
AFXBO-C, AFNBO-C translocate from extracellular region to cytosol
Agmatine + H2O <=> putrescine + urea
Agmatine + H2O <=> putrescine + urea
Agmatine + H2O <=> putrescine + urea
Agmatine + H2O <=> putrescine + urea
Agmatine + H2O <=> putrescine + urea
Agmatine + H2O <=> putrescine + urea
Agmatine + H2O <=> putrescine + urea
Agmatine + H2O <=> putrescine + urea
Agmatine + H2O <=> putrescine + urea
Agmatine + H2O <=> putrescine + urea
Agmatine + H2O <=> putrescine + urea
Agmatine + H2O <=> putrescine + urea
Agmatine + H2O <=> putrescine + urea
Akt Phosphorylates As160 (Tbc1d4)
AKT1,AKT2 phosphorylates AS160 (TBC1D4)
AKT1,AKT2 phosphorylates AS160 (TBC1D4)
AKT1,AKT2 phosphorylates AS160 (TBC1D4)
AKT1,AKT2 phosphorylates AS160 (TBC1D4)
AKT1,AKT2 phosphorylates AS160 (TBC1D4)
Allergen dependent IgE bound FCERI aggregation
Allergen dependent IgE bound FCERI aggregation
Allergen dependent IgE bound FCERI aggregation
Allergen dependent IgE bound FCERI aggregation
Allergen dependent IgE bound FCERI aggregation
Allergen dependent IgE bound FCERI aggregation
Alpha-1-Microglobulin is cleaved
Alpha-1-Microglobulin is cleaved
Alpha-1-Microglobulin is cleaved
Alpha-1-Microglobulin is cleaved
Alpha-1-Microglobulin is cleaved
Alpha-1-Microglobulin is cleaved
Alpha-1-Microglobulin is cleaved
Alpha-1-Microglobulin is cleaved
Alpha-1-Microglobulin is cleaved
Alpha-defensin dimers multimerize to form a pore complex
Alpha-defensin dimers multimerize to form a pore complex
Alpha-defensin dimers multimerize to form a pore complex
An ARAT esterifies 11cROL to 11c-RE
An atROL isomerase isomerises atROL to 11cROL
An unknown protease degrades ACACA
An unknown protease degrades ACACB
An unknown protease degrades hCBXs
Anterograde IFT
Anterograde IFT
Anterograde IFT
Anterograde IFT
Anterograde IFT
Anterograde IFT
Anterograde IFT
Anterograde IFT
Anterograde IFT
Anterograde IFT
Anterograde IFT
AP-1 complex stimulates KDM6B transcription
AP-1 stimulates IL1A transcription
AP-1 stimulates transcription of IGFBP7
APC promotes disassembly of beta-catenin transactivation complex
APC promotes disassembly of beta-catenin transactivation complex
APC promotes disassembly of beta-catenin transactivation complex
APC promotes disassembly of beta-catenin transactivation complex
APC promotes disassembly of beta-catenin transactivation complex
APC promotes disassembly of beta-catenin transactivation complex
APC/C:Cdh1-mediated degradation of Skp2
APC/C:Cdh1-mediated degradation of Skp2
APC/C:Cdh1-mediated degradation of Skp2
APC/C:Cdh1-mediated degradation of Skp2
APC/C:Cdh1-mediated degradation of Skp2
APC/C:Cdh1-mediated degradation of Skp2
APC/C:Cdh1-mediated degradation of Skp2
APC/C:Cdh1-mediated degradation of Skp2
APC/C:Cdh1-mediated degradation of Skp2
APC/C:Cdh1-mediated degradation of Skp2
APC/C:Cdh1-mediated degradation of Skp2
APC/C:Cdh1-mediated degradation of Skp2
APC/C:Cdh1-mediated degradation of Skp2
ARL6:GTP and the BBSome target cargo to the primary cilium
ARL6:GTP and the BBSome target cargo to the primary cilium
ARL6:GTP and the BBSome target cargo to the primary cilium
ARL6:GTP and the BBSome target cargo to the primary cilium
ARL6:GTP and the BBSome target cargo to the primary cilium
ARL6:GTP and the BBSome target cargo to the primary cilium
ARL6:GTP and the BBSome target cargo to the primary cilium
ARL6:GTP and the BBSome target cargo to the primary cilium
ARL6:GTP and the BBSome target cargo to the primary cilium
ARL6:GTP and the BBSome target cargo to the primary cilium
ARL6:GTP and the BBSome target cargo to the primary cilium
ARRB mediates NOTCH1 ubiquitination
ATF6-alpha translocates from the endoplasmic reticulum to the Golgi
ATF6-alpha translocates from the endoplasmic reticulum to the Golgi
ATF6-alpha translocates from the endoplasmic reticulum to the Golgi
ATF6-alpha translocates from the endoplasmic reticulum to the Golgi
ATF6-alpha translocates from the endoplasmic reticulum to the Golgi
ATF6-alpha translocates from the endoplasmic reticulum to the Golgi
ATF6-alpha translocates from the endoplasmic reticulum to the Golgi
ATF6-alpha translocates from the endoplasmic reticulum to the Golgi
ATF6-alpha translocates from the endoplasmic reticulum to the Golgi
ATF6-alpha translocates from the endoplasmic reticulum to the Golgi
ATF6-alpha translocates from the endoplasmic reticulum to the Golgi
ATF6-alpha translocates from the Golgi to the Nucleus
ATF6-alpha translocates from the Golgi to the Nucleus
ATF6-alpha translocates from the Golgi to the Nucleus
ATF6-alpha translocates from the Golgi to the Nucleus
ATF6-alpha translocates from the Golgi to the Nucleus
ATF6-alpha translocates from the Golgi to the Nucleus
ATF6-alpha translocates from the Golgi to the Nucleus
ATF6-alpha translocates from the Golgi to the Nucleus
ATF6-alpha translocates from the Golgi to the Nucleus
ATF6-alpha translocates from the Golgi to the Nucleus
ATF6-alpha translocates from the Golgi to the Nucleus
ATP7A transfers Cu from ATOX1 to SOD3
Atp7a transfers Cu from Atox1 to Sod3
ATP7A transfers Cu from ATOX1 to SOD3
ATP7A transfers Cu from ATOX1 to SOD3
ATP7A transfers Cu from ATOX1 to SOD3
ATP7A transfers Cu from ATOX1 to SOD3
ATP7A transfers Cu from ATOX1 to SOD3
ATP7A transfers Cu from ATOX1 to SOD3
ATP7A transfers Cu from ATOX1 to SOD3
ATP7A transfers Cu from ATOX1 to SOD3
ATP7A transfers Cu from ATOX1 to SOD3
AUF1 (hnRNP D0) is ubiquitinylated
AUF1 (hnRNP D0) is ubiquitinylated
AUF1 (hnRNP D0) is ubiquitinylated
AUF1 (hnRNP D0) is ubiquitinylated
AUF1 (hnRNP D0) is ubiquitinylated
AUF1 (hnRNP D0) is ubiquitinylated
AUF1 (hnRNP D0) is ubiquitinylated
AUF1 (hnRNP D0) is ubiquitinylated
AUF1 (hnRNP D0) is ubiquitinylated
AUF1 (hnRNP D0) is ubiquitinylated
AUF1 (hnRNP D0) is ubiquitinylated
AUF1 (hnRNP D0) is ubiquitinylated
AUF1 (hnRNP D0) is ubiquitinylated
AUF1 (hnRNP D0) is ubiquitinylated
AUF1 (hnRNP D0) is ubiquitinylated
AUF1 (hnRNP D0) is ubiquitinylated
AUF1:mRNA complex is destroyed
AUF1:mRNA complex is destroyed
AUF1:mRNA complex is destroyed
AUF1:mRNA complex is destroyed
AUF1:mRNA complex is destroyed
AUF1:mRNA complex is destroyed
AUF1:mRNA complex is destroyed
AUF1:mRNA complex is destroyed
AUF1:mRNA complex is destroyed
AUF1:mRNA complex is destroyed
AUF1:mRNA complex is destroyed
AUF1:mRNA complex is destroyed
AUF1:mRNA complex is destroyed
AUF1:mRNA complex is destroyed
AUF1:mRNA complex is destroyed
AUF1:mRNA complex is destroyed
Auto ubiquitination of oligo TRAF6 bound to p-IRAK2
Auto ubiquitination of oligo-TRAF6 bound to p-IRAK2
Auto ubiquitination of oligo-TRAF6 bound to p-IRAK2
Auto ubiquitination of oligo-TRAF6 bound to p-IRAK2
Auto ubiquitination of oligo-TRAF6 bound to p-IRAK2
Auto ubiquitination of oligo-TRAF6 bound to p-IRAK2
Auto ubiquitination of oligo-TRAF6 bound to p-IRAK2
Auto ubiquitination of oligo-TRAF6 bound to p-IRAK2
Auto ubiquitination of oligo-TRAF6 bound to p-IRAK2
Auto ubiquitination of oligo-TRAF6 bound to p-IRAK2
Auto ubiquitination of oligo-TRAF6 bound to p-IRAK2 at endosome membrane
Auto ubiquitination of oligo-TRAF6 bound to p-IRAK2 at endosome membrane
Auto ubiquitination of oligo-TRAF6 bound to p-IRAK2 at endosome membrane
Auto ubiquitination of oligo-TRAF6 bound to p-IRAK2 at endosome membrane
Auto ubiquitination of oligo-TRAF6 bound to p-IRAK2 at endosome membrane
Auto ubiquitination of oligo-TRAF6 bound to p-IRAK2 at endosome membrane
Auto ubiquitination of oligo-TRAF6 bound to p-IRAK2 at endosome membrane
Auto ubiquitination of oligo-TRAF6 bound to p-IRAK2 at endosome membrane
Auto ubiquitination of oligo-TRAF6 bound to p-IRAK2 at endosome membrane
Auto ubiquitination of the TRAF6 within the complex viral dsRNA:TLR3:TICAM1:TRAF6
Auto ubiquitination of TRAF6 bound to the activated TLR complex
Auto ubiquitination of TRAF6 bound to the activated TLR complex
Auto ubiquitination of TRAF6 bound to the activated TLR complex
Auto ubiquitination of TRAF6 bound to the activated TLR complex
Auto ubiquitination of TRAF6 bound to the activated TLR complex
Auto ubiquitination of TRAF6 bound to the activated TLR complex
Auto ubiquitination of TRAF6 bound to the activated TLR complex
Auto-ubiquitination of TRAF3
Auto-ubiquitination of TRAF3
Auto-ubiquitination of TRAF3
Auto-ubiquitination of TRAF3
Auto-ubiquitination of TRAF3
Auto-ubiquitination of TRAF3
Auto-ubiquitination of TRAF3
Auto-ubiquitination of TRAF6
Auto-ubiquitination of TRAF6
Auto-ubiquitination of TRAF6
Auto-ubiquitination of TRAF6
Auto-ubiquitination of TRAF6
Auto-ubiquitination of TRAF6
Auto-ubiquitination of TRAF6
Auto-ubiquitination of TRAF6
Auto-ubiquitination of TRAF6
Autoubiquitination of oligoTRAF6 bound to p-IRAK2
BCTN translocates to extracellular region
beta-catenin is replaced by repression complexes at the promoter
beta-catenin is replaced by repression complexes at the promoter
beta-catenin is replaced by repression complexes at the promoter
beta-catenin is replaced by repression complexes at the promoter
beta-catenin is replaced by repression complexes at the promoter
beta-catenin is replaced by repression complexes at the promoter
beta-catenin is replaced by repression complexes at the promoter
beta-catenin is replaced by repression complexes at the promoter
beta-catenin is replaced by repression complexes at the promoter
beta-catenin is replaced by repression complexes at the promoter
beta-catenin is replaced by repression complexes at the promoter
Beta-catenin migrates to the nucleus
Beta-catenin migrates to the nucleus
Beta-catenin migrates to the nucleus
Beta-catenin migrates to the nucleus
Beta-catenin migrates to the nucleus
Beta-catenin migrates to the nucleus
Beta-catenin migrates to the nucleus
Beta-catenin migrates to the nucleus
Beta-catenin migrates to the nucleus
Beta-catenin migrates to the nucleus
Beta-catenin migrates to the nucleus
Beta-catenin migrates to the nucleus
beta-catenin translocates to the nucleus
beta-catenin translocates to the nucleus
beta-catenin translocates to the nucleus
beta-catenin translocates to the nucleus
beta-catenin translocates to the nucleus
beta-catenin translocates to the nucleus
beta-catenin translocates to the nucleus
beta-catenin translocates to the nucleus
beta-catenin translocates to the nucleus
beta-catenin translocates to the nucleus
beta-catenin translocates to the nucleus
beta-catenin translocates to the nucleus
Beta-defensins bind microbial membranes causing disruption
Beta-defensins bind microbial membranes causing disruption
Beta-defensins bind microbial membranes causing disruption
Beta-defensins bind microbial membranes causing disruption
Beta-defensins bind microbial membranes causing disruption
Beta-defensins bind microbial membranes causing disruption
beta-TRCP ubiquitinates IkB-alpha in p-S32,33-IkB-alpha:NF-kB complex
beta-TRCP ubiquitinates IkB-alpha in p-S32,33-IkB-alpha:NF-kB complex
beta-TRCP ubiquitinates IkB-alpha in p-S32,33-IkB-alpha:NF-kB complex
beta-TRCP ubiquitinates IkB-alpha in p-S32,33-IkB-alpha:NF-kB complex
beta-TRCP ubiquitinates IkB-alpha in p-S32,33-IkB-alpha:NF-kB complex
beta-TRCP ubiquitinates IkB-alpha in p-S32,33-IkB-alpha:NF-kB complex
Binding and activation of MAP Kinase
Binding and activation of MAP Kinase
Binding and activation of MAP Kinase
Binding and activation of MAP Kinase
Binding and activation of MAP Kinase
Binding and activation of MAP Kinase
Binding and activation of MAP Kinase
Binding and activation of MAP Kinase
Binding and activation of MAP Kinase
Binding and activation of MAP Kinase
Binding and activation of MAP Kinase
BIRC2/3 (cIAP1/2) is autoubiquitinated
BIRC2/3 (cIAP1/2) is autoubiquitinated
BIRC2/3 (cIAP1/2) is autoubiquitinated
BIRC2/3 (cIAP1/2) is autoubiquitinated
BIRC2/3 (cIAP1/2) is autoubiquitinated
BIRC2/3 (cIAP1/2) is autoubiquitinated
BIRC2/3 (cIAP1/2) is autoubiquitinated
BIRC2/3 (cIAP1/2) is autoubiquitinated
BIRC2/3 (cIAP1/2) is autoubiquitinated
BIRC2/3 (cIAP1/2) is autoubiquitinated
BIRC2/3 (cIAP1/2) is autoubiquitinated
BMAL1:CLOCK,NPAS2 heterodimer is phosphorylated and translocates to the nucleus
Bmal1:Clock,Npas2 heterodimer is phosphorylated and translocates to the nucleus
BMAL1:CLOCK,NPAS2 heterodimer is phosphorylated and translocates to the nucleus
BMAL1:CLOCK,NPAS2 heterodimer is phosphorylated and translocates to the nucleus
BMAL1:CLOCK,NPAS2 heterodimer is phosphorylated and translocates to the nucleus
BMAL1:CLOCK,NPAS2 heterodimer is phosphorylated and translocates to the nucleus
BMAL1:CLOCK,NPAS2 heterodimer is phosphorylated and translocates to the nucleus
BMAL1:CLOCK,NPAS2 heterodimer is phosphorylated and translocates to the nucleus
BMAL1:CLOCK,NPAS2 heterodimer is phosphorylated and translocates to the nucleus
BMAL1:CLOCK,NPAS2 heterodimer is phosphorylated and translocates to the nucleus
BMAL1:CLOCK,NPAS2 heterodimer is phosphorylated and translocates to the nucleus
BoNT/A HC transports BoNT/A LC from target cell synaptic vesicle membrane into cytosol
BoNT/A:SV2:GT1b internalized from target cell plasma membrane to synaptic vesicle membrane
BoNT/B HC transports BoNT/B LC from target cell synaptic vesicle membrane into cytosol
BoNT/B:SYT:GT1b internalized from target cell plasma membrane to synaptic vesicle membrane
BoNT/C HC transports BoNT/C LC from target cell synaptic vesicle membrane to cytosol
BoNT/C:GT1b internalized from target cell plasma membrane to synaptic vesicle membrane
BoNT/D HC transports BoNT/D LC from target cell synaptic vesicle membrane into cytosol
BoNT/D:SV2:GD2 internalized from target cell plasma membrane to synaptic vesicle membrane
BoNT/E HC transports BoNT/E LC from target cell synaptic vesicle membrane into cytosol
BoNT/E:SV2:GT1b internalized from target cell plasma membrane to synaptic vesicle membrane
BoNT/F HC transports BoNT/F LC from target cell synaptic vesicle membrane into cytosol
BoNT/F:SV2:GT1b internalized from target cell plasma membrane to synaptic vesicle membrane
BoNT/G HC transports BoNT/G LC from target cell synaptic vesicle membrane into cytosol
BoNT/G:SYT1:GT1b internalized from target cell plasma membrane to synaptic vesicle membrane
BTRC:CUL1:SKP1 (SCF-beta-TrCP1) ubiquitinylates PER proteins
BTRC:CUL1:SKP1 (SCF-beta-TrCP1) ubiquitinylates PER proteins
BTRC:CUL1:SKP1 (SCF-beta-TrCP1) ubiquitinylates PER proteins
BTRC:CUL1:SKP1 (SCF-beta-TrCP1) ubiquitinylates PER proteins
BTRC:CUL1:SKP1 (SCF-beta-TrCP1) ubiquitinylates PER proteins
BTRC:CUL1:SKP1 (SCF-beta-TrCP1) ubiquitinylates PER proteins
BTRC:CUL1:SKP1 (SCF-beta-TrCP1) ubiquitinylates PER proteins
Butyrylcholinesterase and Platelet-activating factor acetylhydrolase hydrolyze acyl Ghrelin
Butyrylcholinesterase and Platelet-activating factor acetylhydrolase hydrolyze acyl Ghrelin
Butyrylcholinesterase and Platelet-activating factor acetylhydrolase hydrolyze acyl Ghrelin
Butyrylcholinesterase and Platelet-activating factor acetylhydrolase hydrolyze acyl Ghrelin
Butyrylcholinesterase and Platelet-activating factor acetylhydrolase hydrolyze acyl Ghrelin
Butyrylcholinesterase and Platelet-activating factor acetylhydrolase hydrolyze acyl Ghrelin
Butyrylcholinesterase and Platelet-activating factor acetylhydrolase hydrolyze acyl Ghrelin
C4b binding protein binds C4bC2a
C4b binding protein binds C4bC2a
C4b binding protein binds C4bC2a
C4b binding protein binds C4bC2a
C4b binding protein displaces C2a
C4b binding protein displaces C2a
C4b binding protein displaces C2a
C4b binding protein displaces C2a
Calcineurin binds and dephosphorylates NFAT
Calcineurin binds and dephosphorylates NFAT
Calcineurin binds and dephosphorylates NFAT
Calcineurin binds and dephosphorylates NFAT
Calcineurin binds and dephosphorylates NFAT
Calcineurin binds and dephosphorylates NFAT
Calcineurin binds and dephosphorylates NFAT
Calcineurin binds and dephosphorylates NFAT
Calcineurin binds and dephosphorylates NFAT
Calcineurin binds and dephosphorylates NFAT
Calcineurin binds and dephosphorylates NFAT
Calcineurin dephosphorylates NFATC1,2,3
Calcineurin dephosphorylates NFATC1,2,3
Calcineurin dephosphorylates NFATC1,2,3
Calcineurin dephosphorylates NFATC1,2,3
Calcineurin dephosphorylates NFATC1,2,3
Calcineurin dephosphorylates NFATC1,2,3
Calcineurin dephosphorylates NFATC1,2,3
Calcineurin dephosphorylates NFATC1,2,3
Calcineurin dephosphorylates NFATC1,2,3
Calcineurin dephosphorylates NFATC1,2,3
Calcineurin Dephosphorylates Nfatc2
Cap-bound mRNA is activated by helicases
Cap-bound mRNA is activated by helicases
Cap-bound mRNA is activated by helicases
Cap-bound mRNA is activated by helicases
Cap-bound mRNA is activated by helicases
Cap-bound mRNA is activated by helicases
Cap-bound mRNA is activated by helicases
Cap-bound mRNA is activated by helicases
Cap-bound mRNA is activated by helicases
Carboxymycobactin gets secreted
Cargo-carrying vesicles bud from the TGN
Cargo-carrying vesicles bud from the TGN
Cargo-carrying vesicles bud from the TGN
Cargo-carrying vesicles bud from the TGN
Cargo-carrying vesicles bud from the TGN
Cargo-carrying vesicles bud from the TGN
Cargo-carrying vesicles bud from the TGN
Cargo-carrying vesicles bud from the TGN
Cargo-carrying vesicles bud from the TGN
Cargo-carrying vesicles bud from the TGN
Cargo-carrying vesicles bud from the TGN
Cargo-carrying vesicles bud from the TGN
Cargo-carrying vesicles bud from the TGN
Cargo-carrying vesicles bud from the TGN
CARMA1:BCL10:MALT1 complex recruits TAK1 and IKK
CARMA1:BCL10:MALT1 complex recruits TAK1 and IKK
CARMA1:BCL10:MALT1 complex recruits TAK1 and IKK
CARMA1:BCL10:MALT1 complex recruits TAK1 and IKK
CARMA1:BCL10:MALT1 complex recruits TAK1 and IKK
CARMA1:BCL10:MALT1 complex recruits TAK1 and IKK
CARMA1:BCL10:MALT1 complex recruits TAK1 and IKK
Caspase-8 and FLIP(L) processing at DISC
Caspase-8 and FLIP(L) processing at DISC
Caspase-8 and FLIP(L) processing at DISC
Caspase-8 and FLIP(L) processing at DISC
Caspase-8 and FLIP(L) processing at DISC
Caspase-8 and FLIP(L) processing at DISC
Caspase-8 and FLIP(L) processing at DISC
Caspase-8 and FLIP(L) processing at DISC
Caspase-8 and FLIP(L) processing at DISC
Caspase-8 and FLIP(L) processing at DISC
Caspase-8 processing in the DISC
Caspase-8 processing in the DISC
Caspase-8 processing in the DISC
Caspase-8 processing in the DISC
Caspase-8 processing in the DISC
Caspase-8 processing in the DISC
Caspase-8 processing in the DISC
Caspase-8 processing in the DISC
Caspase-8 processing in the DISC
Caspase-8 processing in the DISC
Cathelicidin LL-37 localizes to bacterial cell wall
CBL ubiquitinates PI3K
CBL ubiquitinates PI3K
CBL ubiquitinates PI3K
CBL ubiquitinates PI3K
CBL ubiquitinates PI3K
CBL ubiquitinates PI3K
CBL ubiquitinates PI3K
CBL ubiquitinates PI3K
CBL ubiquitinates PI3K
CBL ubiquitinates PI3K
CBL ubiquitinates PI3K
CBL ubiquitinates PI3K
CCL17 and CCL22 genes are transcribed
CD209 activate GTPase RAS
CD209 activate GTPase RAS
CD209 activate GTPase RAS
CD209 activate GTPase RAS
CD209 activate GTPase RAS
CD209 activate GTPase RAS
CD209 activate GTPase RAS
CD209 activate GTPase RAS
CD209 activate GTPase RAS
CD209 activate GTPase RAS
CD209 activate GTPase RAS
CD209 activate GTPase RAS
CD209 activate GTPase RAS
CDC6 protein is synthesized under the control of E2F transcription factors
CDC6 protein is synthesized under the control of E2F transcription factors
CDC6 protein is synthesized under the control of E2F transcription factors
CDC6 protein is synthesized under the control of E2F transcription factors
CDC6 protein is synthesized under the control of E2F transcription factors
CDC6 protein is synthesized under the control of E2F transcription factors
CDC6 protein is synthesized under the control of E2F transcription factors
CDC6 protein is synthesized under the control of E2F transcription factors
CDC6 protein is synthesized under the control of E2F transcription factors
CDC6 protein is synthesized under the control of E2F transcription factors
CDC6 protein is synthesized under the control of E2F transcription factors
CDC6 protein is synthesized under the control of E2F transcription factors
CDC6 protein is synthesized under the control of E2F transcription factors
CIA Targeting Complex transfers 4Fe-4S cluster to apoproteins
CIA Targeting Complex transfers 4Fe-4S cluster to apoproteins
CIA Targeting Complex transfers 4Fe-4S cluster to apoproteins
CIA Targeting Complex transfers 4Fe-4S cluster to apoproteins
CIA Targeting Complex transfers 4Fe-4S cluster to apoproteins
CIA Targeting Complex transfers 4Fe-4S cluster to apoproteins
CIA Targeting Complex transfers 4Fe-4S cluster to apoproteins
CIA Targeting Complex transfers 4Fe-4S cluster to apoproteins
CIA Targeting Complex transfers 4Fe-4S cluster to apoproteins
CIA Targeting Complex transfers 4Fe-4S cluster to apoproteins
CIA Targeting Complex transfers 4Fe-4S cluster to apoproteins
CIA Targeting Complex transfers 4Fe-4S cluster to apoproteins
CIA Targeting Complex transfers 4Fe-4S cluster to apoproteins
CIA Targeting Complex transfers 4Fe-4S cluster to apoproteins
CIA Targeting Complex transfers 4Fe-4S cluster to apoproteins
CIA Targeting Complex transfers 4Fe-4S cluster to apoproteins
CIA Targeting Complex transfers 4Fe-4S clusters to apoproteins
Clathrin internalises EPH:EFN complexes
Clathrin internalises EPH:EFN complexes
Clathrin internalises EPH:EFN complexes
Clathrin internalises EPH:EFN complexes
Clathrin internalises EPH:EFN complexes
Clathrin internalises EPH:EFN complexes
Clathrin internalises EPH:EFN complexes
Clathrin-mediated endocytosis of DT:HBEGF:CD9
Clathrin-mediated endocytosis of TeNT HC:LC:gangliosides
Cleavage of CNTN1:NOTCH1 complex releases NICD1
Cleavage of CNTN1:NOTCH1 complex releases NICD1
Cleavage of CNTN1:NOTCH1 complex releases NICD1
Cleavage of CNTN1:NOTCH1 complex releases NICD1
Cleavage of CNTN1:NOTCH1 complex releases NICD1
Cleavage of CNTN1:NOTCH1 complex releases NICD1
Cleavage of CNTN1:NOTCH1 complex releases NICD1
Cleavage of DNER:NOTCH1 complex releases NICD1
Cleavage of DNER:NOTCH1 complex releases NICD1
Cleavage of DNER:NOTCH1 complex releases NICD1
Cleavage of DNER:NOTCH1 complex releases NICD1
Cleavage of DNER:NOTCH1 complex releases NICD1
Cleavage of DNER:NOTCH1 complex releases NICD1
Cleavage of intergenic spacer RNA to yield fragments of 150-300 nucleotides
Cleavage of intergenic spacer RNA to yield fragments of 150-300 nucleotides
Cleavage-based removal of the siRNA passenger strand by AGO2
Cleavage-based removal of the siRNA passenger strand by AGO2
Cleavage-based removal of the siRNA passenger strand by AGO2
Cleavage-based removal of the siRNA passenger strand by AGO2
Cleavage-based removal of the siRNA passenger strand by AGO2
Cleavage-based removal of the siRNA passenger strand by AGO2
Cleavage-based removal of the siRNA passenger strand by AGO2
Cleavage-based removal of the siRNA passenger strand by AGO2
Cleavage-based removal of the siRNA passenger strand by AGO2
Cleavage-based removal of the siRNA passenger strand by AGO2
Cleavage-based removal of the siRNA passenger strand by AGO2
Cleavage-based removal of the siRNA passenger strand by AGO2
Cleavage-based removal of the siRNA passenger strand by AGO2
Closing of L-type Calcium Channels (rat)
cob(II)alamin dissociates from MMACHC:MMADHC
cob(II)alamin dissociates from MMACHC:MMADHC
cob(II)alamin dissociates from MMACHC:MMADHC
cob(II)alamin dissociates from MMACHC:MMADHC
cob(II)alamin dissociates from MMACHC:MMADHC
cob(II)alamin dissociates from MMACHC:MMADHC
cob(II)alamin dissociates from MMACHC:MMADHC
cob(II)alamin dissociates from MMACHC:MMADHC
cob(II)alamin dissociates from MMACHC:MMADHC
cob(II)alamin dissociates from MMACHC:MMADHC
cob(II)alamin dissociates from MMACHC:MMADHC
COLEC12:ligand is endocytosed
COLEC12:ligand is endocytosed
COLEC12:ligand is endocytosed
COLEC12:ligand is endocytosed
COLEC12:ligand is endocytosed
COLEC12:ligand is endocytosed
COLEC12:ligand is endocytosed
COLEC12:ligand is endocytosed
COLEC12:ligand is endocytosed
Collagen type II degradation by MMP15
Collagen type II degradation by MMP15
Collagen type II degradation by MMP15
Collagen type II degradation by MMP15
Collagen type II degradation by MMP15
Collagen type II degradation by MMP15
Collagen type II degradation by MMP15
Collagen type II degradation by MMP15
Collagen type II degradation by MMP15
Collagen type II degradation by MMP15
Collagen type III degradation by MMP15
Collagen type III degradation by MMP15
Collagen type III degradation by MMP15
Collagen type III degradation by MMP15
Collagen type III degradation by MMP15
Collagen type III degradation by MMP15
Collagen type III degradation by MMP15
Collagen type III degradation by MMP15
Collagen type XIII ectodomain shedding
Collagen type XIII ectodomain shedding
Collagen type XIII ectodomain shedding
Collagen type XIII ectodomain shedding
Collagen type XIII ectodomain shedding
Collagen type XIII ectodomain shedding
Collagen type XIII ectodomain shedding
Collagen type XIII ectodomain shedding
Collagen type XIII ectodomain shedding
Collagen type XIII ectodomain shedding
Collagen type XIII ectodomain shedding
Collagen type XIII ectodomain shedding
Collagen type XIX degradation
Collagen type XIX degradation
Collagen type XIX degradation
Collagen type XIX degradation
Collagen type XIX degradation
Collagen type XIX degradation
Collagen type XIX degradation
Collagen type XIX degradation
Collagen type XIX degradation
Collagen type XV restin release
Collagen type XV restin release
Collagen type XV restin release
Collagen type XV restin release
Collagen type XV restin release
Collagen type XV restin release
Collagen type XV restin release
Collagen type XV restin release
Complexed PIWIL2 binds cleaved transposon RNA
Complexed Piwil2 binds cleaved transposon RNA
Complexed PIWIL2 binds cleaved transposon RNA
Complexed PIWIL2 binds cleaved transposon RNA
Complexed PIWIL2 binds cleaved transposon RNA
Complexed PIWIL2 binds cleaved transposon RNA
Complexed PIWIL2 binds cleaved transposon RNA
Complexed PIWIL2 binds cleaved transposon RNA
Complexed PIWIL2 binds cleaved transposon RNA
Complexed PIWIL4 binds cleaved transposon RNA
Complexed Piwil4 binds cleaved transposon RNA
Complexed PIWIL4 binds cleaved transposon RNA
Complexed PIWIL4 binds cleaved transposon RNA
Complexed PIWIL4 binds cleaved transposon RNA
Complexed PIWIL4 binds cleaved transposon RNA
Complexed PIWIL4 binds cleaved transposon RNA
Condensin II-mediated condensation of prophase chromosomes
Connexin synthesis (generic)
Connexin synthesis (generic)
Connexin synthesis (generic)
Connexin synthesis (generic)
Connexin synthesis (generic)
Connexin synthesis (generic)
Connexin synthesis (generic)
Connexin synthesis (generic)
Connexin synthesis (generic)
Connexin synthesis (generic)
Correctly folded glycoproteins translocate to the Golgi
CRY proteins are ubiquitinylated
Cry proteins are ubiquitinylated
CRY proteins are ubiquitinylated
CRY proteins are ubiquitinylated
CRY proteins are ubiquitinylated
CRY proteins are ubiquitinylated
CRY proteins are ubiquitinylated
CRY proteins are ubiquitinylated
CRY proteins are ubiquitinylated
CRY:PER:Kinase complex translocates to the nucleus
CRY:PER:Kinase complex translocates to the nucleus
CRY:PER:Kinase complex translocates to the nucleus
CRY:PER:Kinase complex translocates to the nucleus
CRY:PER:Kinase complex translocates to the nucleus
CRY:PER:Kinase complex translocates to the nucleus
CRY:PER:Kinase complex translocates to the nucleus
CRY:PER:Kinase complex translocates to the nucleus
CRY:PER:Kinase complex translocates to the nucleus
CRY:PER:Kinase complex translocates to the nucleus
CS is cleaved from its proteoglycan
CSPG is secreted
CSPG is secreted
CSPG is secreted
CSPG is secreted
CSPG is secreted
CSPG is secreted
CSPG is secreted
CSPG is secreted
CSPG is secreted
CSPG is secreted
CSPG is secreted
CSPG is secreted
CYLD mediated deubiquitination of RIG-I
CYLD mediated deubiquitination of RIG-I
CYLD mediated deubiquitination of RIG-I
CYLD mediated deubiquitination of RIG-I
CYLD mediated deubiquitination of RIG-I
CYLD mediated deubiquitination of RIG-I
CYLD mediated deubiquitination of RIG-I
CYLD mediated deubiquitination of RIG-I
CYLD mediated deubiquitination of RIG-I
CysGly, gGlu-AA translocate from extracellular region to cytosol
Cystine-bonded Proinsulin translocates from the endoplasmic reticulum to the Golgi
Cystine-bonded Proinsulin translocates from the endoplasmic reticulum to the Golgi
Cystine-bonded Proinsulin translocates from the endoplasmic reticulum to the Golgi
Cystine-bonded Proinsulin translocates from the endoplasmic reticulum to the Golgi
Cystine-bonded Proinsulin translocates from the endoplasmic reticulum to the Golgi
Cystine-bonded Proinsulin translocates from the endoplasmic reticulum to the Golgi
Cystine-bonded Proinsulin translocates from the endoplasmic reticulum to the Golgi
Cystine-bonded Proinsulin translocates from the endoplasmic reticulum to the Golgi
Cytoslic carboxylases translocate to mitochondrial matrix
Cytoslic carboxylases translocate to mitochondrial matrix
Cytoslic carboxylases translocate to mitochondrial matrix
Cytoslic carboxylases translocate to mitochondrial matrix
Cytoslic carboxylases translocate to mitochondrial matrix
Cytoslic carboxylases translocate to mitochondrial matrix
Cytoslic carboxylases translocate to mitochondrial matrix
Cytoslic carboxylases translocate to mitochondrial matrix
Cytoslic carboxylases translocate to mitochondrial matrix
Cytoslic carboxylases translocate to mitochondrial matrix
Cytoslic carboxylases translocate to mitochondrial matrix
Cytoslic carboxylases translocate to mitochondrial matrix
Cytoslic carboxylases translocate to mitochondrial matrix
Cytoslic carboxylases translocate to mitochondrial matrix
Cytoslic carboxylases translocate to mitochondrial matrix
Cytoslic carboxylases translocate to mitochondrial matrix
Cytoslic carboxylases translocate to mitochondrial matrix
Cytosolic glycoconjugates translocate to the lysosome
Cytosolic Neu5Ac translocates to nucleus
Damaged dsDNA becomes damaged DNA template
Decay of mRNA in SMG6:SMG5:SMG7:mRNA complex
Decay of mRNA in SMG6:SMG5:SMG7:mRNA complex
Decay of mRNA in SMG6:SMG5:SMG7:mRNA complex
Decay of mRNA in SMG6:SMG5:SMG7:mRNA complex
Decay of mRNA in SMG6:SMG5:SMG7:mRNA complex
Degradation multiubiquitinated Cyclin A
Degradation multiubiquitinated Cyclin A
Degradation multiubiquitinated Cyclin A
Degradation multiubiquitinated Cyclin A
Degradation multiubiquitinated Cyclin A
Degradation multiubiquitinated Cyclin A
Degradation multiubiquitinated Cyclin A
Degradation multiubiquitinated Cyclin A
Degradation multiubiquitinated Cyclin A
Degradation multiubiquitinated Cyclin A
Degradation multiubiquitinated Cyclin A
Degradation multiubiquitinated Cyclin A
Degradation multiubiquitinated Cyclin A
Degradation of CD4
Degradation of CD8
Degradation of MHC I Complex
Degradation of multiubiquitinated Cdh1
Degradation of multiubiquitinated Cdh1
Degradation of multiubiquitinated Cdh1
Degradation of multiubiquitinated Cdh1
Degradation of multiubiquitinated Cdh1
Degradation of multiubiquitinated Cdh1
Degradation of multiubiquitinated Cdh1
Degradation of multiubiquitinated Cdh1
Degradation of multiubiquitinated Cdh1
Degradation of multiubiquitinated Cdh1
Degradation of multiubiquitinated Cdh1
Degradation of multiubiquitinated Cdh1
Degradation of multiubiquitinated Cdh1
Degradation of multiubiquitinated Cdh1
Degradation of multiubiquitinated cell cycle proteins
Degradation of multiubiquitinated cell cycle proteins
Degradation of multiubiquitinated cell cycle proteins
Degradation of multiubiquitinated cell cycle proteins
Degradation of multiubiquitinated cell cycle proteins
Degradation of multiubiquitinated cell cycle proteins
Degradation of multiubiquitinated cell cycle proteins
Degradation of multiubiquitinated cell cycle proteins
Degradation of multiubiquitinated cell cycle proteins
Degradation of multiubiquitinated cell cycle proteins
Degradation of multiubiquitinated cell cycle proteins
Degradation of multiubiquitinated cell cycle proteins
Degradation of multiubiquitinated cell cycle proteins
Degradation of multiubiquitinated Cyclin B
Degradation of multiubiquitinated Cyclin B
Degradation of multiubiquitinated Cyclin B
Degradation of multiubiquitinated Cyclin B
Degradation of multiubiquitinated Cyclin B
Degradation of multiubiquitinated Cyclin B
Degradation of multiubiquitinated Cyclin B
Degradation of multiubiquitinated Cyclin B
Degradation of multiubiquitinated Cyclin B
Degradation of multiubiquitinated Cyclin B
Degradation of multiubiquitinated Cyclin B
Degradation of multiubiquitinated Cyclin B
Degradation of multiubiquitinated Cyclin B
Degradation of multiubiquitinated Cyclin B
Degradation of multiubiquitinated Nek2A
Degradation of multiubiquitinated Nek2A
Degradation of multiubiquitinated Nek2A
Degradation of multiubiquitinated Nek2A
Degradation of multiubiquitinated Nek2A
Degradation of multiubiquitinated Nek2A
Degradation of multiubiquitinated Nek2A
Degradation of multiubiquitinated Nek2A
Degradation of multiubiquitinated Nek2A
Degradation of multiubiquitinated Nek2A
Degradation of multiubiquitinated Nek2A
Degradation of multiubiquitinated Nek2A
Degradation of multiubiquitinated Nek2A
Degradation of multiubiquitinated Nek2A
Degradation of multiubiquitinated Securin
Degradation of multiubiquitinated Securin
Degradation of multiubiquitinated Securin
Degradation of multiubiquitinated Securin
Degradation of multiubiquitinated Securin
Degradation of multiubiquitinated Securin
Degradation of multiubiquitinated Securin
Degradation of multiubiquitinated Securin
Degradation of multiubiquitinated Securin
Degradation of multiubiquitinated Securin
Degradation of multiubiquitinated Securin
Degradation of multiubiquitinated Securin
Degradation of multiubiquitinated Securin
Degradation of newly synthesized ApoB-48
Degradation of newly synthesized ApoB-48
Degradation of newly synthesized ApoB-48
Degradation of newly synthesized ApoB-48
Degradation of newly synthesized ApoB-48
Degradation of newly synthesized ApoB-48
Degradation of newly synthesized ApoB-48
Degradation of newly synthesized ApoB-48
Degradation of newly synthesized ApoB-48
Degradation of newly synthesized ApoB-48
Degradation of newly synthesized ApoB-48
Degradation of SMAD2/3:SMAD4 complex
Degradation of SMAD2/3:SMAD4 complex
Degradation of SMAD2/3:SMAD4 complex
Degradation of SMAD2/3:SMAD4 complex
Degradation of SMAD2/3:SMAD4 complex
Degradation of SMAD2/3:SMAD4 complex
Degradation of SMAD2/3:SMAD4 complex
Degradation of SMAD2/3:SMAD4 complex
Degradation of SMAD2/3:SMAD4 complex
Degradation of TGF-beta receptor complex
Degradation of TGF-beta receptor complex
Degradation of TGF-beta receptor complex
Degradation of TGF-beta receptor complex
Degradation of TGF-beta receptor complex
Degradation of TGF-beta receptor complex
Degradation of TGF-beta receptor complex
Degradation of TGF-beta receptor complex
Degradation of TGF-beta receptor complex
Degradation of TGF-beta receptor complex
Degradation of TGF-beta receptor complex
Degradation of Ub-SMAD7
Degradation of Ub-SMAD7
Degradation of Ub-SMAD7
Degradation of Ub-SMAD7
Degradation of Ub-SMAD7
Degradation of Ub-SMAD7
Degradation of Ub-SMAD7
Degradation of Ub-SMAD7
Degradation of Ub-SMAD7
Degradation of Ub-SMAD7
Degradation of Ub-SMAD7
Degradation of Ub-SMAD7
Degradation of ubiquitinated beta catenin by the proteasome
Degradation of ubiquitinated beta catenin by the proteasome
Degradation of ubiquitinated beta catenin by the proteasome
Degradation of ubiquitinated beta catenin by the proteasome
Degradation of ubiquitinated beta catenin by the proteasome
Degradation of ubiquitinated beta catenin by the proteasome
Degradation of ubiquitinated beta catenin by the proteasome
Degradation of ubiquitinated beta catenin by the proteasome
Degradation of ubiquitinated beta catenin by the proteasome
Degradation of ubiquitinated beta catenin by the proteasome
Degradation of ubiquitinated CD4
Degradation of ubiquitinated p27/p21 by the 26S proteasome
Degradation of ubiquitinated p27/p21 by the 26S proteasome
Degradation of ubiquitinated p27/p21 by the 26S proteasome
Degradation of ubiquitinated p27/p21 by the 26S proteasome
Degradation of ubiquitinated p27/p21 by the 26S proteasome
Degradation of ubiquitinated p27/p21 by the 26S proteasome
Degradation of ubiquitinated p27/p21 by the 26S proteasome
Degradation of ubiquitinated p27/p21 by the 26S proteasome
Degradation of ubiquitinated p27/p21 by the 26S proteasome
Degradation of ubiquitinated SKI/SKIL
Degradation of ubiquitinated SKI/SKIL
Degradation of ubiquitinated SKI/SKIL
Degradation of ubiquitinated SKI/SKIL
Degradation of ubiquitinated SKI/SKIL
Degradation of ubiquitinated SKI/SKIL
Degradation of ubiquitinated SKI/SKIL
Degradation of ubiquitinated SKI/SKIL
Degradation of ubiquitinated SKI/SKIL
Degradation of ubiquitinated SKI/SKIL
Degradation of ubiquitinated SKI/SKIL
Degradation of ubiquitinated SMAD2
Degradation of ubiquitinated SMAD2
Degradation of ubiquitinated SMAD2
Degradation of ubiquitinated SMAD2
Degradation of ubiquitinated SMAD2
Degradation of ubiquitinated SMAD2
Degradation of ubiquitinated SMAD2
Degradation of ubiquitinated SMAD2
Degradation of ubiquitinated SMAD2
Degradation of ubiquitinated SMAD2
Degradation of ubiquitinated SMAD2
Degradation of ubiquitinated SMAD3
Degradation of ubiquitinated SMAD3
Degradation of ubiquitinated SMAD3
Degradation of ubiquitinated SMAD3
Degradation of ubiquitinated SMAD3
Degradation of ubiquitinated SMAD3
Degradation of ubiquitinated SMAD3
Degradation of ubiquitinated SMAD3
Degradation of ubiquitinated SMAD3
Degradation of ubiquitinated SMAD3
Demethylation of H3K27Me3 by KDM6B stimulates p16-INK4A transcription, while binding of PRC1.4 complex to H3K27Me3 represses p16-INK4A transcription
DHI and DHICA polymerise forming eumelanin
DHI and DHICA polymerise forming eumelanin
DHI and DHICA polymerise forming eumelanin
DHI and DHICA polymerise forming eumelanin
DHI and DHICA polymerise forming eumelanin
DHI and DHICA polymerise forming eumelanin
DHI and DHICA polymerise forming eumelanin
DHI and DHICA polymerise forming eumelanin
DHI and DHICA polymerise forming eumelanin
DHI and DHICA polymerise forming eumelanin
Diffusion of inactive Arf1-GDP from membrane
Diffusion of inactive Arf1-GDP from membrane
Diffusion of inactive Arf1-GDP from membrane
Diffusion of inactive Arf1-GDP from membrane
Diffusion of inactive Arf1-GDP from membrane
Diffusion of inactive Arf1-GDP from membrane
Diffusion of inactive Arf1-GDP from membrane
Diffusion of inactive Arf1-GDP from membrane
Diffusion of inactive Arf1-GDP from membrane
Diffusion of inactive Arf1-GDP from membrane
Diffusion of inactive Arf1-GDP from membrane
Diffusion of inactive Arf1-GDP from membrane
Diffusion of inactive Arf1-GDP from membrane
Diffusion of inactive Arf1-GDP from membrane
Diffusion of inactive Arf1-GDP from membrane
Diffusion of inactive Arf1-GDP from membrane
Diffusion of inactive Arf1-GDP from membrane
Diffusion of inactive Arf1-GDP from membrane
Dimeric TGFB1 does not bind TGFBR2 MSI frameshift mutants
Disassembly of tight junctions
Disassembly of tight junctions
Disassembly of tight junctions
Disassembly of tight junctions
Disassembly of tight junctions
Disassembly of tight junctions
Disassembly of tight junctions
Disassembly of tight junctions
Disassembly of tight junctions
Disassembly of tight junctions
Disassembly of tight junctions
DKK promotes clathrin-dependent internalization of LRP6
DKK promotes clathrin-dependent internalization of LRP6
DKK promotes clathrin-dependent internalization of LRP6
DKK promotes clathrin-dependent internalization of LRP6
DKK promotes clathrin-dependent internalization of LRP6
DKK promotes clathrin-dependent internalization of LRP6
DMPhOH is hydroxylated to MDMQ10H2 by DMPhOH monooxygenase
DNMT1,3A,3B:PRC2 methylates cytosine and histone H3
DNMT1,3A,3B:PRC2 methylates cytosine and histone H3
DNMT1,3A,3B:PRC2 methylates cytosine and histone H3
DNMT1,3A,3B:PRC2 methylates cytosine and histone H3
DNMT1,3A,3B:PRC2 methylates cytosine and histone H3
DNMT1,3A,3B:PRC2 methylates cytosine and histone H3
DNMT1,3A,3B:PRC2 methylates cytosine and histone H3
DNMT1,3A,3B:PRC2 methylates cytosine and histone H3
DNMT1,3A,3B:PRC2 methylates cytosine and histone H3
DNMT1,3A,3B:PRC2 methylates cytosine and histone H3
Dopamine translocates to a secretory vesicle
DS is cleaved from its proteoglycan
DSPG and CSPG translocate to the lysosome for degradation
DSPG and CSPG translocate to the lysosome for degradation
DSPG and CSPG translocate to the lysosome for degradation
DSPG and CSPG translocate to the lysosome for degradation
DSPG and CSPG translocate to the lysosome for degradation
DSPG and CSPG translocate to the lysosome for degradation
DSPG and CSPG translocate to the lysosome for degradation
DSPG and CSPG translocate to the lysosome for degradation
DSPG and CSPG translocate to the lysosome for degradation
DSPG and CSPG translocate to the lysosome for degradation
DSPG and CSPG translocate to the lysosome for degradation
DSPG and CSPG translocate to the lysosome for degradation
DSPGs are secreted
DSPGs are secreted
DSPGs are secreted
DSPGs are secreted
DSPGs are secreted
DSPGs are secreted
DSPGs are secreted
DSPGs are secreted
DSPGs are secreted
DSPGs are secreted
DSPGs are secreted
DSPGs are secreted
DT fragment B transports DT fragment A from target cell endosome membrane
DT:HBEGF:CD9 is transported from clathrin-coated vesicle to endosome
Duplex miRNA is loaded into Argonaute
Duplex miRNA is loaded into Argonaute
Duplex miRNA is loaded into Argonaute
Duplex miRNA is loaded into Argonaute
Duplex miRNA is loaded into Argonaute
Duplex miRNA is loaded into Argonaute
Duplex miRNA is loaded into Argonaute
Duplex miRNA is loaded into Argonaute
Duplex siRNA is loaded into Argonaute
Duplex siRNA is loaded into Argonaute
Duplex siRNA is loaded into Argonaute
Duplex siRNA is loaded into Argonaute
Duplex siRNA is loaded into Argonaute
Duplex siRNA is loaded into Argonaute
Duplex siRNA is loaded into Argonaute
Duplex siRNA is loaded into Argonaute
E2F1/2/3 stimulates EED transcription
E2F1/2/3 stimulates EZH2 transcription
E2F1/2/3 stimulates SUZ12 transcription
E2F1/E2F2/E2F3 and SP1 stimulate transcription of p14-ARF mRNA
Efflux of glucose and orthophosphate from the endoplasmic reticulum
Efflux of glucose from the endoplasmic reticulum
EGFRvIII cancer variant does not bind EGF ligand
Egress of internalized antigen into cytosol from early endosome
Elastin degradation by MMP14
Elastin degradation by MMP14
Elastin degradation by MMP14
Elastin degradation by MMP14
Elastin degradation by MMP14
Endocytosis and degradation of apoA-I
Endocytosis and degradation of apoA-I
Endocytosis and degradation of apoA-I
Endocytosis and degradation of apoA-I
Endocytosis and degradation of apoA-I
Endocytosis and degradation of apoA-I
Endocytosis and degradation of apoA-I
Endocytosis and degradation of apoA-I
Endocytosis and degradation of apoA-I
Endocytosis of EF:LF:PA63:ANTXR1 (plasma membrane to endosome membrane)
Endocytosis of EF:LF:PA63:ANTXR2 (plasma membrane to endosome membrane)
Endocytosis of Scara5:Ferritin
Endoplasmic reticulum calcium ATPases positively regulate Notch precursor trafficking
Endosomal GIF:Cbl translocates to lysosome
Endosomal GIF:Cbl translocates to lysosome
Endosomal GIF:Cbl translocates to lysosome
Endosomal GIF:Cbl translocates to lysosome
Endosomal GIF:Cbl translocates to lysosome
Endosomal GIF:Cbl translocates to lysosome
Endosomal GIF:Cbl translocates to lysosome
Endosomal GIF:Cbl translocates to lysosome
Endosomal GIF:Cbl translocates to lysosome
Endosomal TCII:Cbl translocates to lysosome
Endosomal TCII:Cbl translocates to lysosome
Endosomal TCII:Cbl translocates to lysosome
Endosomal TCII:Cbl translocates to lysosome
Endosomal TCII:Cbl translocates to lysosome
Endosomal TCII:Cbl translocates to lysosome
Endosomal TCII:Cbl translocates to lysosome
Endosomal TCII:Cbl translocates to lysosome
Endosomal TCII:Cbl translocates to lysosome
Endosomal TLRs pass through the Golgi
Endosomal TLRs pass through the Golgi
Endosomal TLRs pass through the Golgi
Endosomal TLRs pass through the Golgi
Endosomal TLRs pass through the Golgi
Endosomal TLRs pass through the Golgi
Endosomal TLRs pass through the Golgi
Endosomal TLRs pass through the Golgi
Endosomal TLRs pass through the Golgi
Endosomal TLRs pass through the Golgi
Endostatin degradation by cathepsins
Endostatin degradation by cathepsins
Endostatin degradation by cathepsins
Endostatin degradation by cathepsins
Endostatin degradation by cathepsins
Endostatin degradation by cathepsins
Endostatin degradation by cathepsins
Endostatin degradation by cathepsins
Endostatin degradation by cathepsins
Endostatin degradation by cathepsins
Endostatin degradation by cathepsins
Endostatin degradation by cathepsins
eNOS translocation from Golgi to Caveolae
eNOS translocation from Golgi to Caveolae
eNOS translocation from Golgi to Caveolae
eNOS translocation from Golgi to Caveolae
eNOS translocation from Golgi to Caveolae
eNOS translocation from Golgi to Caveolae
eNOS translocation from Golgi to Caveolae
eNOS translocation from Golgi to Caveolae
eNOS translocation from Golgi to Caveolae
eNOS:NOSIP translocation from caveolae to intracellular compartments
eNOS:NOSIP translocation from caveolae to intracellular compartments
eNOS:NOSIP translocation from caveolae to intracellular compartments
eNOS:NOSIP translocation from caveolae to intracellular compartments
eNOS:NOSIP translocation from caveolae to intracellular compartments
eNOS:NOSIP translocation from caveolae to intracellular compartments
eNOS:NOSIP translocation from caveolae to intracellular compartments
eNOS:NOSIP translocation from caveolae to intracellular compartments
ER calcium channels open in response to activated PKA
ER calcium channels open in response to activated PKA
ER calcium channels open in response to activated PKA
ER calcium channels open in response to activated PKA
ER calcium channels open in response to activated PKA
ER calcium channels open in response to activated PKA
ER calcium channels open in response to activated PKA
ER calcium channels open in response to activated PKA
ER calcium channels open in response to activated PKA
ER calcium channels open in response to activated PKA
ER calcium channels open in response to activated PKA
ER calcium channels open in response to activated PKA
ER calcium channels open in response to activated PKA
ERF inhibits ETS2 expression
Escape of antigens from phagosome to cytosol
EXO1 interacting with MSH2:MSH3 excises DNA strand containing an insertion/deletion loop (IDL)
EXO1 interacting with MSH2:MSH3 excises DNA strand containing an insertion/deletion loop (IDL)
EXO1 interacting with MSH2:MSH3 excises DNA strand containing an insertion/deletion loop (IDL)
EXO1 interacting with MSH2:MSH3 excises DNA strand containing an insertion/deletion loop (IDL)
EXO1 interacting with MSH2:MSH3 excises DNA strand containing an insertion/deletion loop (IDL)
EXO1 interacting with MSH2:MSH3 excises DNA strand containing an insertion/deletion loop (IDL)
EXO1 interacting with MSH2:MSH3 excises DNA strand containing an insertion/deletion loop (IDL)
EXO1 interacting with MSH2:MSH3 excises DNA strand containing an insertion/deletion loop (IDL)
EXO1 interacting with MSH2:MSH3 excises DNA strand containing an insertion/deletion loop (IDL)
EXO1 interacting with MSH2:MSH3 excises DNA strand containing an insertion/deletion loop (IDL)
EXO1 interacting with MSH2:MSH6 excises single strand DNA containing a mismatch
EXO1 interacting with MSH2:MSH6 excises single strand DNA containing a mismatch
EXO1 interacting with MSH2:MSH6 excises single strand DNA containing a mismatch
EXO1 interacting with MSH2:MSH6 excises single strand DNA containing a mismatch
EXO1 interacting with MSH2:MSH6 excises single strand DNA containing a mismatch
EXO1 interacting with MSH2:MSH6 excises single strand DNA containing a mismatch
EXO1 interacting with MSH2:MSH6 excises single strand DNA containing a mismatch
EXO1 interacting with MSH2:MSH6 excises single strand DNA containing a mismatch
EXO1 interacting with MSH2:MSH6 excises single strand DNA containing a mismatch
EXO1 interacting with MSH2:MSH6 excises single strand DNA containing a mismatch
Exocyst complex formation
Exocyst complex formation
Exocyst complex formation
Exocyst complex formation
Exocyst complex formation
Exocyst complex formation
Exocyst complex formation
Exocyst complex formation
Exocyst complex formation
Exocyst complex formation
Exocytosis of Insulin
Exocytosis of Insulin
Exocytosis of Insulin
Exocytosis of Insulin
Exocytosis of Insulin
Export of peptide loaded MHC class I complex to PM
Export of peptide loaded MHC class I complex to PM
Export of peptide loaded MHC class I complex to PM
Export of peptide loaded MHC class I complex to PM
Export of peptide loaded MHC class I complex to PM
Export of peptide loaded MHC class I complex to PM
Export of peptide loaded MHC class I complex to PM
Export of peptide loaded MHC class I complex to PM
Export of peptide loaded MHC class I complex to PM
Expression of 3-Hydroxy-3-methylglutaryl-coenzyme A Reductase (HMGCR)
Expression of 7-Dehydrocholesterol Reductase (DHCR7)
Expression of 7-Dehydrocholesterol Reductase (DHCR7)
Expression of 7-Dehydrocholesterol Reductase (DHCR7)
Expression of 7-Dehydrocholesterol Reductase (DHCR7)
Expression of 7-Dehydrocholesterol Reductase (DHCR7)
Expression of 7-Dehydrocholesterol Reductase (DHCR7)
Expression of 7-Dehydrocholesterol Reductase (DHCR7)
Expression of 7-Dehydrocholesterol Reductase (DHCR7)
Expression of 7-Dehydrocholesterol Reductase (DHCR7)
Expression of 7-Dehydrocholesterol Reductase (DHCR7)
Expression of 7-Dehydrocholesterol Reductase (DHCR7)
Expression of ABCA1
Expression of ABCB4
Expression of ACADM
Expression of ACADVL
Expression of Acetyl CoA Carboxylase 1 (ACACA, ACC1)
Expression of Acetyl CoA Carboxylase 1 (ACACA, ACC1)
Expression of Acetyl CoA Carboxylase 1 (ACACA, ACC1)
Expression of Acetyl CoA Carboxylase 1 (ACACA, ACC1)
Expression of Acetyl CoA Carboxylase 1 (ACACA, ACC1)
Expression of Acetyl CoA Carboxylase 1 (ACACA, ACC1)
Expression of Acetyl CoA Carboxylase 1 (ACACA, ACC1)
Expression of Acetyl CoA Carboxylase 1 (ACACA, ACC1)
Expression of Acetyl CoA Carboxylase 1 (ACACA, ACC1)
Expression of Acetyl CoA Carboxylase 1 (ACACA, ACC1)
Expression of Acetyl CoA Carboxylase 1 (ACACA, ACC1)
Expression of Acetyl CoA Carboxylase 1 (ACACA, ACC1)
Expression of Acetyl CoA Carboxylase 2 (ACACB, ACC2)
Expression of Acetyl CoA Carboxylase 2 (ACACB, ACC2)
Expression of Acetyl CoA Carboxylase 2 (ACACB, ACC2)
Expression of Acetyl CoA Carboxylase 2 (ACACB, ACC2)
Expression of Acetyl CoA Carboxylase 2 (ACACB, ACC2)
Expression of Acetyl CoA Carboxylase 2 (ACACB, ACC2)
Expression of Acetyl CoA Carboxylase 2 (ACACB, ACC2)
Expression of Acetyl CoA Carboxylase 2 (ACACB, ACC2)
Expression of Acetyl CoA Carboxylase 2 (ACACB, ACC2)
Expression of Acetyl CoA Carboxylase 2 (ACACB, ACC2)
Expression of Acetyl CoA Carboxylase 2 (ACACB, ACC2)
Expression of ACOX1
Expression of ACSL1
Expression of ADD1 (Adducin alpha)
Expression of Adiponectin
Expression of AGT
Expression of ALAS1
expression of AMER1 gene
Expression of ANGPTL4
Expression of ANKRD1
Expression of APOA1
Expression of APOA2
Expression of APOA5
Expression of ARFGAP1 (GAP)
Expression of Asparagine Synthetase
Expression of ATF3
Expression of ATP5B
Expression of ATP5B
Expression of ATP5B
Expression of ATP5B
Expression of ATP5B
Expression of ATP5B
Expression of ATP5B
Expression of ATP5B
Expression of ATP5B
Expression of ATP5B
Expression of ATP5B
Expression of ATP6VOD1
Expression of AVP
Expression of Avp (Arginine Vasopressin, Vasopressin-neurophysin 2-copeptin)
expression of AXIN1 gene
Expression of BIP (78 kDa Glucose-regulated protein, GRP78, HSPA5)
Expression of Bmal1 (Arntl)
Expression of BMAL1 (ARNTL).
Expression of C19orf10
Expression of Calreticulin
Expression of Carbonic Anhydrase IX (CA9)
Expression of CCL2
Expression of CCRN4L (NOCTURNIN)
Expression of CD36 (platelet glycoprotein IV, FAT)
Expression of Cebpa
Expression of CEBPA
Expression of CEBPB
Expression of Cebpb
Expression of Cebpd
Expression of CEBPD
Expression of CHOP (DDIT3, GADD153)
Expression of CLOCK
Expression of Clock
Expression of Coagulation Factor VII (F7)
Expression of Cpt1a
Expression of CPT1A
Expression of CPT2
Expression of CRYPTOCHROME-1
Expression of Cryptochrome-1 (Cry1)
Expression of CRYPTOCHROME-2
Expression of Cryptochrome-2 (Cry2)
Expression of CTDSP2
Expression of CTGF
Expression of Cullin-7
Expression of CXXC1
Expression of CYCS
Expression of CYCS
Expression of CYCS
Expression of CYCS
Expression of CYCS
Expression of CYCS
Expression of CYCS
Expression of CYCS
Expression of CYCS
Expression of CYCS
Expression of CYCS
Expression of CYP1A1
Expression of CYP4A11
Expression of CYP7A1
Expression of Dbp
Expression of DBP
Expression of DCTN1
Expression of DDX11
Expression of Dec1 (Bhlhe40, Bhlhb2)
Expression of DEC1 (BHLHE40, BHLHB2)
Expression of Dec2 (Bhlhe41, Bhlhb3)
Expression of DEC2 (BHLHE41, BHLHB3)
Expression of Diphosphomevalonate Decarboxylase (MVD)
Expression of Diphosphomevalonate Decarboxylase (MVD)
Expression of Diphosphomevalonate Decarboxylase (MVD)
Expression of Diphosphomevalonate Decarboxylase (MVD)
Expression of Diphosphomevalonate Decarboxylase (MVD)
Expression of Diphosphomevalonate Decarboxylase (MVD)
Expression of Diphosphomevalonate Decarboxylase (MVD)
Expression of Diphosphomevalonate Decarboxylase (MVD)
Expression of Diphosphomevalonate Decarboxylase (MVD)
Expression of Diphosphomevalonate Decarboxylase (MVD)
Expression of Diphosphomevalonate Decarboxylase (MVD)
Expression of DNAJB11
Expression of DNAJB9
Expression of DNAJC3 (p58IPK)
Expression of EBF1
Expression of Ebf1
Expression of EDEM
Expression of ELOVL6
Expression of ELOVL6
Expression of ELOVL6
Expression of ELOVL6
Expression of ELOVL6
Expression of ELOVL6
Expression of ELOVL6
Expression of ELOVL6
Expression of ELOVL6
Expression of ELOVL6
Expression of ELOVL6
Expression of ELOVL6
Expression of EPAS1 (HIF2A)
Expression of EPHA1
Expression of Erythropoietin (EPO)
Expression of ESRRA (ERR1, ERRalpha)
Expression of EXTL3
Expression of FABP1
Expression of FABP4 (aP2)
Expression of FACTOR VII (F7)
Expression of FADS1
Expression of Farnesyl Diphosphate Synthase (FDPS)
Expression of Farnesyl Diphosphate Synthase (FDPS)
Expression of Farnesyl Diphosphate Synthase (FDPS)
Expression of Farnesyl Diphosphate Synthase (FDPS)
Expression of Farnesyl Diphosphate Synthase (FDPS)
Expression of Farnesyl Diphosphate Synthase (FDPS)
Expression of Farnesyl Diphosphate Synthase (FDPS)
Expression of Farnesyl Diphosphate Synthase (FDPS)
Expression of Farnesyl Diphosphate Synthase (FDPS)
Expression of Farnesyl Diphosphate Synthase (FDPS)
Expression of Farnesyl Diphosphate Synthase (FDPS)
Expression of Farnesyl Diphosphate Synthase (FDPS)
Expression of Farnesyl Diphosphate Synthase (FDPS)
Expression of Farnesyl Diphosphate Synthase (FDPS)
Expression of Farnesyl Diphosphate Synthase (FDPS)
Expression of Farnesyl Diphosphate Synthase (FDPS)
Expression of Farnesyldiphosphate Farnesyltransferase (FDFT1, Squalene Synthase)
Expression of FATP1 (SLC27A1)
Expression of Fatty Acid Synthase (FASN)
Expression of Fatty Acid Synthase (FASN)
Expression of Fatty Acid Synthase (FASN)
Expression of Fatty Acid Synthase (FASN)
Expression of Fatty Acid Synthase (FASN)
Expression of Fatty Acid Synthase (FASN)
Expression of Fatty Acid Synthase (FASN)
Expression of Fatty Acid Synthase (FASN)
Expression of Fatty Acid Synthase (FASN)
Expression of Fatty Acid Synthase (FASN)
Expression of Fatty Acid Synthase (FASN)
Expression of Fatty Acid Synthase (FASN)
Expression of FGF2
Expression of FHL2
Expression of FKBP14
Expression of FOXD3
Expression of G0S2
Expression of GABPA (NRF2 alpha subunit)
Expression of Geranylgeranyl Pyrophosphate Synthase (GGPS1)
Expression of Geranylgeranyl Pyrophosphate Synthase (GGPS1)
Expression of Geranylgeranyl Pyrophosphate Synthase (GGPS1)
Expression of Geranylgeranyl Pyrophosphate Synthase (GGPS1)
Expression of Geranylgeranyl Pyrophosphate Synthase (GGPS1)
Expression of Geranylgeranyl Pyrophosphate Synthase (GGPS1)
Expression of Geranylgeranyl Pyrophosphate Synthase (GGPS1)
Expression of Geranylgeranyl Pyrophosphate Synthase (GGPS1)
Expression of Geranylgeranyl Pyrophosphate Synthase (GGPS1)
Expression of Geranylgeranyl Pyrophosphate Synthase (GGPS1)
Expression of Geranylgeranyl Pyrophosphate Synthase (GGPS1)
Expression of GFPT1
Expression of GLI1 is repressed by GLI3R in the absence of Hh signaling
Expression of GLI2 is repressed by GLI3R in the absence of Hh signaling
Expression of GLIPR1
Expression of globin genes under control of the beta globin control region
Expression of globin genes under control of the beta globin control region
Expression of globin genes under control of the beta globin control region
Expression of globin genes under control of the beta globin control region
Expression of globin genes under control of the beta globin control region
Expression of globin genes under control of the beta globin control region
Expression of GLUT4
Expression of Glycerol-3-phosphate Acyltransferase (GPAM, GPAT)
Expression of Glycerol-3-phosphate Acyltransferase (GPAM, GPAT)
Expression of Glycerol-3-phosphate Acyltransferase (GPAM, GPAT)
Expression of Glycerol-3-phosphate Acyltransferase (GPAM, GPAT)
Expression of Glycerol-3-phosphate Acyltransferase (GPAM, GPAT)
Expression of Glycerol-3-phosphate Acyltransferase (GPAM, GPAT)
Expression of Glycerol-3-phosphate Acyltransferase (GPAM, GPAT)
Expression of Glycerol-3-phosphate Acyltransferase (GPAM, GPAT)
Expression of Glycerol-3-phosphate Acyltransferase (GPAM, GPAT)
Expression of Glycerol-3-phosphate Acyltransferase (GPAM, GPAT)
Expression of Glycerol-3-phosphate Acyltransferase (GPAM, GPAT)
Expression of GOSR2
Expression of GRHL1
Expression of GSK3A
Expression of HDGF
Expression of HERPUD
Expression of HMGCS2
Expression of HSP90B1 (Endoplasmin)
Expression of Hydroxymethylglutaryl coenzyme A synthase (HMGCS1)
Expression of HYOU1
Expression of IFN-beta
Expression of IFN-beta
Expression of IFN-beta
Expression of IFN-beta
Expression of IFN-beta
Expression of IFN-beta
Expression of IFN-beta
Expression of IFN-beta
Expression of IFN-induced genes
Expression of IFNG-stimulated genes
Expression of IFNG-stimulated genes
Expression of IGFBP1
Expression of IL-8
Expression of Interferon-alpha and beta
Expression of Interferon-alpha and beta
Expression of Interferon-alpha and beta
Expression of Interferon-alpha and beta
Expression of Interferon-alpha and beta
Expression of Interferon-alpha and beta
Expression of Interferon-alpha and beta
Expression of Interferon-alpha and beta
Expression of Interferon-alpha and beta
Expression of Isopentenyl-diphosphate Delta-isomerase 1 (IDI1)
Expression of Isopentenyl-diphosphate Delta-isomerase 1 (IDI1)
Expression of Isopentenyl-diphosphate Delta-isomerase 1 (IDI1)
Expression of Isopentenyl-diphosphate Delta-isomerase 1 (IDI1)
Expression of Isopentenyl-diphosphate Delta-isomerase 1 (IDI1)
Expression of Isopentenyl-diphosphate Delta-isomerase 1 (IDI1)
Expression of Isopentenyl-diphosphate Delta-isomerase 1 (IDI1)
Expression of Isopentenyl-diphosphate Delta-isomerase 1 (IDI1)
Expression of Isopentenyl-diphosphate Delta-isomerase 1 (IDI1)
Expression of Isopentenyl-diphosphate Delta-isomerase 1 (IDI1)
Expression of Isopentenyl-diphosphate Delta-isomerase 1 (IDI1)
Expression of Isopentenyl-diphosphate Delta-isomerase 1 (IDI1)
Expression of KDELR3
Expression of KLF5
Expression of Klf5
Expression of KLHDC3
Expression of Lanosterol Demethylase (CYP51A1)
Expression of Lanosterol Demethylase (CYP51A1)
Expression of Lanosterol Demethylase (CYP51A1)
Expression of Lanosterol Demethylase (CYP51A1)
Expression of Lanosterol Demethylase (CYP51A1)
Expression of Lanosterol Demethylase (CYP51A1)
Expression of Lanosterol Demethylase (CYP51A1)
Expression of Lanosterol Demethylase (CYP51A1)
Expression of Lanosterol Demethylase (CYP51A1)
Expression of Lanosterol Demethylase (CYP51A1)
Expression of Lanosterol Synthase (LSS)
Expression of Lanosterol Synthase (LSS)
Expression of Lanosterol Synthase (LSS)
Expression of Lanosterol Synthase (LSS)
Expression of Lanosterol Synthase (LSS)
Expression of Lanosterol Synthase (LSS)
Expression of Lanosterol Synthase (LSS)
Expression of Lanosterol Synthase (LSS)
Expression of Lanosterol Synthase (LSS)
Expression of Lanosterol Synthase (LSS)
Expression of Lathosterol Oxidase (SC5D, SC5DL)
Expression of Lathosterol Oxidase (SC5D, SC5DL)
Expression of Lathosterol Oxidase (SC5D, SC5DL)
Expression of Lathosterol Oxidase (SC5D, SC5DL)
Expression of Lathosterol Oxidase (SC5D, SC5DL)
Expression of Lathosterol Oxidase (SC5D, SC5DL)
Expression of Lathosterol Oxidase (SC5D, SC5DL)
Expression of Lathosterol Oxidase (SC5D, SC5DL)
Expression of Lathosterol Oxidase (SC5D, SC5DL)
Expression of Lathosterol Oxidase (SC5D, SC5DL)
Expression of Lathosterol Oxidase (SC5D, SC5DL)
Expression of Lathosterol Oxidase (SC5D, SC5DL)
Expression of Lathosterol Oxidase (SC5D, SC5DL)
Expression of Leptin
Expression of Lipoprotein lipase (LPL)
Expression of LMNA
Expression of ME1
Expression of Mevalonate Kinase (MVK)
Expression of Mevalonate Kinase (MVK)
Expression of Mevalonate Kinase (MVK)
Expression of Mevalonate Kinase (MVK)
Expression of Mevalonate Kinase (MVK)
Expression of Mevalonate Kinase (MVK)
Expression of Mevalonate Kinase (MVK)
Expression of Mevalonate Kinase (MVK)
Expression of Mevalonate Kinase (MVK)
Expression of Mevalonate Kinase (MVK)
Expression of Mevalonate Kinase (MVK)
Expression of Mevalonate Kinase (MVK)
Expression of MINK1/TNIK is positively regulated by ROS
Expression of MINK1/TNIK is positively regulated by ROS
Expression of MINK1/TNIK is positively regulated by ROS
Expression of MINK1/TNIK is positively regulated by ROS
Expression of MINK1/TNIK is positively regulated by ROS
Expression of MINK1/TNIK is positively regulated by ROS
Expression of MINK1/TNIK is positively regulated by ROS
Expression of MINK1/TNIK is positively regulated by ROS
Expression of MINK1/TNIK is positively regulated by ROS
Expression of MINK1/TNIK is positively regulated by ROS
Expression of MINK1/TNIK is positively regulated by ROS
Expression of MINK1/TNIK is positively regulated by ROS
Expression of MINK1/TNIK is positively regulated by ROS
Expression of mTERF
Expression of Nampt
Expression of NAMPT (NamPRT, PBEF, Visfatin)
Expression of NANOG
Expression of NPAS2
Expression of Npas2
Expression of NPPA (ANF)
Expression of NPPA (ANF)
Expression of NPPA (ANF)
Expression of NPPA (ANF)
Expression of NPPA (ANF)
Expression of NPPA (ANF)
Expression of NR1D1 (REV-ERBA)
Expression of Nr1d1 (Rev-erba)
Expression of NRF1
Expression of PDIA5
Expression of PDIA6 (Protein disulfide-isomerase A6)
Expression of PEO1
Expression of peptide bound class I MHC on cell surface
Expression of peptide bound class I MHC on cell surface
Expression of peptide bound class I MHC on cell surface
Expression of peptide bound class I MHC on cell surface
Expression of peptide bound class I MHC on cell surface
Expression of peptide bound class I MHC on cell surface
Expression of peptide bound class I MHC on cell surface
Expression of peptide bound class I MHC on cell surface
Expression of peptide bound class I MHC on cell surface
Expression of Perilipin (PLIN)
Expression of PERIOD-1
Expression of Period-1 (Per1)
Expression of PERIOD-2
Expression of Period-2 (Per2)
Expression of PEX11A
Expression of Phosphoenolpyruvate carboxykinase 1 (PEPCK-C)
Expression of Phosphomevalonate Kinase (PMVK)
Expression of Phosphomevalonate Kinase (PMVK)
Expression of Phosphomevalonate Kinase (PMVK)
Expression of Phosphomevalonate Kinase (PMVK)
Expression of Phosphomevalonate Kinase (PMVK)
Expression of Phosphomevalonate Kinase (PMVK)
Expression of Phosphomevalonate Kinase (PMVK)
Expression of Phosphomevalonate Kinase (PMVK)
Expression of Phosphomevalonate Kinase (PMVK)
Expression of Phosphomevalonate Kinase (PMVK)
Expression of PLA2G4B
Expression of PLIN2
Expression of POLG2
Expression of POLRMT
Expression of PPARA
Expression of Ppara
Expression of PPARG
Expression of Pparg
Expression of PPARGC1A (PGC-1alpha)
Expression of PPP2R5B
Expression of PTCH1 is repressed by GLI3R in the absence of Hh signaling
Expression of RGL1
Expression of Rora
Expression of RORA (ROR-alpha)
Expression of SALL4
Expression of Sec12
Expression of Sec31A
Expression of SERP1 (RAMP4)
Expression of SERPINE1 (PAI-1)
Expression of SHC1
Expression of SIRT3
Expression of SOX2
Expression of Squalene Monooxygenase (SQLE)
Expression of Squalene Monooxygenase (SQLE)
Expression of Squalene Monooxygenase (SQLE)
Expression of Squalene Monooxygenase (SQLE)
Expression of Squalene Monooxygenase (SQLE)
Expression of Squalene Monooxygenase (SQLE)
Expression of Squalene Monooxygenase (SQLE)
Expression of Squalene Monooxygenase (SQLE)
Expression of Squalene Monooxygenase (SQLE)
Expression of Squalene Monooxygenase (SQLE)
Expression of Squalene Monooxygenase (SQLE)
Expression of Squalene Monooxygenase (SQLE)
Expression of Squalene Monooxygenase (SQLE)
Expression of Squalene Monooxygenase (SQLE)
Expression of Squalene Monooxygenase (SQLE)
Expression of Srebf1
Expression of SREBF1 (SREBP1)
Expression of SRPR (SRP Receptor subunit alpha)
Expression of SRPRB (SRP Receptor subunit beta)
Expression of SSBP1
Expression of SSR1 (Trap alpha)
Expression of STAT3
Expression of SULT1A3
Expression of SULT2A1
Expression of SYVN1 (HRD1)
Expression of Talin-1
Expression of TATDN2
Expression of TDGF1 (CRIPTO)
Expression of TFAM
Expression of TFAM
Expression of TFAM
Expression of TFAM
Expression of TFAM
Expression of TFAM
Expression of TFAM
Expression of TFAM
Expression of TFAM
Expression of TFAM
Expression of TFAM
Expression of TFB1M
Expression of TFB1M
Expression of TFB1M
Expression of TFB1M
Expression of TFB1M
Expression of TFB1M
Expression of TFB1M
Expression of TFB1M
Expression of TFB1M
Expression of TFB1M
Expression of TFB1M
Expression of TFB2M
Expression of TFB2M
Expression of TFB2M
Expression of TFB2M
Expression of TFB2M
Expression of TFB2M
Expression of TFB2M
Expression of TFB2M
Expression of TFB2M
Expression of TFB2M
Expression of TIAM2
Expression of TM7SF2
Expression of TM7SF2
Expression of TM7SF2
Expression of TM7SF2
Expression of TM7SF2
Expression of TM7SF2
Expression of TM7SF2
Expression of TM7SF2
Expression of TM7SF2
Expression of TM7SF2
Expression of TM7SF2
Expression of TM7SF2
Expression of TM7SF2
Expression of TM7SF2
Expression of TM7SF2
Expression of TNFRSF21
Expression of TPP1
Expression of TRIB3
Expression of TSPYL2
Expression of TXNRD1
Expression of UGT1A9
Expression of VEGFA
Expression of WFS1
Expression of WIPI1
Expression of Xbp1(S)
Expression of YIF1A
Expression of ZBTB17
Expression of ZIC3
Extracellular KSPG translocates to the lysosome for degradation
Extracellular KSPG translocates to the lysosome for degradation
Extracellular KSPG translocates to the lysosome for degradation
Extracellular KSPG translocates to the lysosome for degradation
Extracellular KSPG translocates to the lysosome for degradation
Extracellular KSPG translocates to the lysosome for degradation
Extracellular KSPG translocates to the lysosome for degradation
Extracellular KSPG translocates to the lysosome for degradation
Extracellular KSPG translocates to the lysosome for degradation
Extracellular KSPG translocates to the lysosome for degradation
FBXW7 WD mutants do not bind NICD1
FGF10 activates Pdx1 expression in the developing early pancreatic bud
FGF10 activates Ptf1 expression in early pancreatic buds
FGFR1 fusion proteins bind PIK3R1
FGFR2b binds to FGF
FGFR2b binds to FGF
FGFR2b binds to FGF
FGFR2b binds to FGF
FGFR2b binds to FGF
FGFR2b binds to FGF
FGFR2b binds to FGF
FGFR2b binds to FGF
FGFR2b binds to FGF
FGFR2b binds to FGF
FGFR2b binds to FGF
FGFR2c binds to FGF
FGFR2c binds to FGF
FGFR2c binds to FGF
FGFR2c binds to FGF
FGFR2c binds to FGF
FGFR2c binds to FGF
FGFR2c binds to FGF
FGFR2c binds to FGF
FGFR2c binds to FGF
FGFR2c binds to FGF
FGFR2c binds to FGF
FGFR2c binds to FGF
Fgr may phosphorylate p38 MAPK
fibrin multimer -> fibrin multimer, crosslinked + NH4+
fibrin multimer -> fibrin multimer, crosslinked + NH4+
fibrin multimer -> fibrin multimer, crosslinked + NH4+
fibrin multimer -> fibrin multimer, crosslinked + NH4+
fibrin multimer -> fibrin multimer, crosslinked + NH4+
fibrin multimer -> fibrin multimer, crosslinked + NH4+
fibrin multimer -> fibrin multimer, crosslinked + NH4+
fibrin multimer -> fibrin multimer, crosslinked + NH4+
fibrin multimer -> fibrin multimer, crosslinked + NH4+
FN1 aggregation
FN1 aggregation
FN1 aggregation
FN1 aggregation
FN1 aggregation
FN1 aggregation
FN1 aggregation
FN1 aggregation
Formation of Axial/Lateral Elements of Synaptonemal Complex
Formation of axial/lateral elements of Synaptonemal Complex
Formation of axial/lateral elements of Synaptonemal Complex
Formation of axial/lateral elements of Synaptonemal Complex
Formation of axial/lateral elements of Synaptonemal Complex
Formation of axial/lateral elements of Synaptonemal Complex
Formation of axial/lateral elements of Synaptonemal Complex
Formation of axial/lateral elements of Synaptonemal Complex
Formation of CRY:PER:Kinase complex
Formation of Cry:Per:Kinase complex
Formation of CRY:PER:Kinase complex
Formation of CRY:PER:Kinase complex
Formation of CRY:PER:Kinase complex
Formation of CRY:PER:Kinase complex
Formation of CRY:PER:Kinase complex
Formation of CRY:PER:Kinase complex
Formation of CRY:PER:Kinase complex
Formation of CRY:PER:Kinase complex
Formation of CRY:PER:Kinase complex
Formation of HIF:CBP:p300 complex at promoters
Formation of HIF:CBP:p300 complex at promoters
Formation of HIF:CBP:p300 complex at promoters
Formation of HIF:CBP:p300 complex at promoters
Formation of HIF:CBP:p300 complex at promoters
Formation of HIF:CBP:p300 complex at promoters
Formation of HIF:CBP:p300 complex at promoters
Formation of HIF:CBP:p300 complex at promoters
Formation of HIF:CBP:p300 complex at promoters
Formation of HIF:CBP:p300 complex at promoters
Formation of HIF:CBP:p300 complex at promoters
Formation of Meiotic Heteroduplex
Formation of meiotic heteroduplex
Formation of meiotic heteroduplex
Formation of meiotic heteroduplex
Formation of meiotic heteroduplex
Formation of meiotic heteroduplex
Formation of meiotic heteroduplex
Formation of meiotic heteroduplex
Formation of meiotic heteroduplex
Formation of meiotic heteroduplex
Formation of meiotic heteroduplex
Formation of Meiotic Holliday Junction
Formation of meiotic holliday junction
Formation of meiotic holliday junction
Formation of meiotic holliday junction
Formation of meiotic holliday junction
Formation of meiotic holliday junction
Formation of meiotic holliday junction
Formation of meiotic single-stranded DNA invasion complex
Formation of meiotic single-stranded DNA invasion complex
Formation of meiotic single-stranded DNA invasion complex
Formation of meiotic single-stranded DNA invasion complex
Formation of meiotic single-stranded DNA invasion complex
Formation of Meiotic Single-stranded Invasion Complex
FOXa2/HNF3b transactivates Pdx1
FOXM1 stimulates CCNB1 transcription
FOXM1 stimulates CCNB2 transcription
FOXM1 stimulates CDC25A transcription
FOXM1 stimulates CENPF transcription
FOXM1 stimulates PLK1 transcription
FOXOA2-, MAFA-, and PAX6-dependent synthesis of PDX1 protein
Fusion of Glut4 Vesicle with the Plasma Membrane
FXN:NFS1:ISD11:ISCU assembles iron-sulfur cluster
FXN:NFS1:ISD11:ISCU assembles iron-sulfur cluster
FXN:NFS1:ISD11:ISCU assembles iron-sulfur cluster
FXN:NFS1:ISD11:ISCU assembles iron-sulfur cluster
FXN:NFS1:ISD11:ISCU assembles iron-sulfur cluster
FXN:NFS1:ISD11:ISCU assembles iron-sulfur cluster
FXN:NFS1:ISD11:ISCU assembles iron-sulfur cluster
FXN:NFS1:ISD11:ISCU assembles iron-sulfur cluster
FXN:NFS1:ISD11:ISCU assembles iron-sulfur cluster
FXN:NFS1:ISD11:ISCU assembles iron-sulfur cluster
FXN:NFS1:ISD11:ISCU assembles iron-sulfur cluster
FXN:NFS1:ISD11:ISCU assembles iron-sulfur cluster
FXN:NFS1:ISD11:ISCU assembles iron-sulfur cluster
FXN:NFS1:ISD11:ISCU assembles iron-sulfur cluster
FXN:NFS1:ISD11:ISCU assembles iron-sulfur cluster
FYN, LYN, BLK-like proteins phosphorylate ITAMs of Ig-alpha (CD79A) and Ig-beta (CD79B)
FYN, LYN, BLK-like proteins phosphorylate ITAMs of Ig-alpha (CD79A) and Ig-beta (CD79B)
FYN, LYN, BLK-like proteins phosphorylate ITAMs of Ig-alpha (CD79A) and Ig-beta (CD79B)
FZD2, FZD5 and ROR2 are internalized in a WNT5A and clathrin-dependent manner
FZD2, FZD5 and ROR2 are internalized in a WNT5A and clathrin-dependent manner
FZD2, FZD5 and ROR2 are internalized in a WNT5A and clathrin-dependent manner
FZD2, FZD5 and ROR2 are internalized in a WNT5A and clathrin-dependent manner
FZD2, FZD5 and ROR2 are internalized in a WNT5A and clathrin-dependent manner
FZD2, FZD5 and ROR2 are internalized in a WNT5A and clathrin-dependent manner
FZD2, FZD5 and ROR2 are internalized in a WNT5A and clathrin-dependent manner
FZD2, FZD5 and ROR2 are internalized in a WNT5A and clathrin-dependent manner
FZD2, FZD5 and ROR2 are internalized in a WNT5A and clathrin-dependent manner
FZD2, FZD5 and ROR2 are internalized in a WNT5A and clathrin-dependent manner
FZD2, FZD5 and ROR2 are internalized in a WNT5A and clathrin-dependent manner
Gamma secretase cleaves Dner:Notch1 complex
Gamma secretase complex cleaves Cntn1-actived Notch1
Gamma-secretase cleaves Cntn1:Notch2 to release NICD2
Gamma-secretase cleaves CNTN1:NOTCH2 to release NICD2
Gamma-secretase cleaves CNTN1:NOTCH2 to release NICD2
Gamma-secretase cleaves CNTN1:NOTCH2 to release NICD2
Gamma-secretase cleaves CNTN1:NOTCH2 to release NICD2
Gamma-secretase cleaves CNTN1:NOTCH2 to release NICD2
Gamma-secretase cleaves CNTN1:NOTCH2 to release NICD2
Gamma-secretase cleaves CNTN1:NOTCH2 to release NICD2
Gamma-secretase cleaves CNTN1:NOTCH2 to release NICD2
Gamma-secretase cleaves CNTN1:NOTCH2 to release NICD2
Gamma-secretase cleaves CNTN1:NOTCH2 to release NICD2
gamma-secretase cleaves EPHB2
gamma-secretase cleaves EPHB2
gamma-secretase cleaves EPHB2
gamma-secretase cleaves EPHB2
gamma-secretase cleaves EPHB2
gamma-secretase cleaves EPHB2
gamma-secretase cleaves EPHB2
gamma-secretase cleaves EPHB2
gamma-secretase cleaves EPHB2
gamma-secretase cleaves EPHB2
gamma-secretase cleaves EPHB2
gamma-secretase cleaves EPHB2
Gelatin degradation by MMP1, 2, 3, 7, 8, 9, 12, 13
Gelatin degradation by MMP1, 2, 3, 7, 8, 9, 12, 13
Gelatin degradation by MMP1, 2, 3, 7, 8, 9, 12, 13
Gelatin degradation by MMP1, 2, 3, 7, 8, 9, 12, 13
Gelatin degradation by MMP1, 2, 3, 7, 8, 9, 12, 13
Gelatin degradation by MMP1, 2, 3, 7, 8, 9, 12, 13
Gelatin degradation by MMP1, 2, 3, 7, 8, 9, 12, 13
Gelatin degradation by MMP1, 2, 3, 7, 8, 9, 12, 13
Gelatin degradation by MMP1, 2, 3, 7, 8, 9, 12, 13
Gelatin degradation by MMP1, 2, 3, 7, 8, 9, 12, 13
Gelatin degradation by MMP19
Gelatin degradation by MMP19
GH:GHR:JAK2 complex undergoes a conformational change
GH:GHR:JAK2 complex undergoes a conformational change
GH:GHR:JAK2 complex undergoes a conformational change
GH:GHR:JAK2 complex undergoes a conformational change
GH:GHR:JAK2 complex undergoes a conformational change
GH:GHR:JAK2 complex undergoes a conformational change
GH:GHR:JAK2 complex undergoes a conformational change
GH:GHR:JAK2 complex undergoes a conformational change
GH:GHR:JAK2 complex undergoes a conformational change
GH:GHR:JAK2 complex undergoes a conformational change
GHR internalization
Ghr internalization
GHR internalization
GHR internalization
GHR internalization
GHR internalization
GHR internalization
GHR internalization
GHR internalization
GHR internalization
GHR internalization
GIF:Cbl is degraded to release Cbl
GIF:Cbl is degraded to release Cbl
GIF:Cbl is degraded to release Cbl
GIF:Cbl is degraded to release Cbl
GIF:Cbl is degraded to release Cbl
GIF:Cbl is degraded to release Cbl
GIF:Cbl is degraded to release Cbl
GIF:Cbl is degraded to release Cbl
GIF:Cbl is degraded to release Cbl
GLI proteins are phosphorylated
GLI translocates to the nucleus
GLI translocates to the nucleus
GLI translocates to the nucleus
GLI translocates to the nucleus
GLI translocates to the nucleus
GLI translocates to the nucleus
GLI translocates to the nucleus
GLI translocates to the nucleus
GLI translocates to the nucleus
GLI translocates to the nucleus
GLI translocates to the nucleus
GLI translocates to the nucleus
GLI translocates to the nucleus
GLI translocates to the nucleus
GLI translocates to the nucleus
GLI1 is degraded by the proteasome after ubiquitination by beta-TrCP
GLI1 is degraded by the proteasome after ubiquitination by beta-TrCP
GLI1 is degraded by the proteasome after ubiquitination by beta-TrCP
GLI1 is degraded by the proteasome after ubiquitination by beta-TrCP
GLI1 is degraded by the proteasome after ubiquitination by beta-TrCP
GLI1 is degraded by the proteasome after ubiquitination by beta-TrCP
GLI1 is degraded by the proteasome after ubiquitination by beta-TrCP
GLI1 is degraded by the proteasome after ubiquitination by beta-TrCP
GLI1 is degraded by the proteasome after ubiquitination by beta-TrCP
GLI1 is degraded by the proteasome after ubiquitination by ITCH
GLI1 is degraded by the proteasome after ubiquitination by ITCH
GLI1 is degraded by the proteasome after ubiquitination by ITCH
GLI1 is degraded by the proteasome after ubiquitination by ITCH
GLI1 is degraded by the proteasome after ubiquitination by ITCH
GLI1 is degraded by the proteasome after ubiquitination by ITCH
GLI1 is degraded by the proteasome after ubiquitination by ITCH
GLI1 is degraded by the proteasome after ubiquitination by ITCH
GLI2 is degraded by the proteasome
GLI2 is degraded by the proteasome
GLI2 is degraded by the proteasome
GLI2 is degraded by the proteasome
GLI2 is degraded by the proteasome
GLI2 is degraded by the proteasome
GLI2 is degraded by the proteasome
GLI2 is degraded by the proteasome
GLI2 is degraded by the proteasome
GLI2,3 are degraded by the proteasome
GLI2,3 are degraded by the proteasome
GLI2,3 are degraded by the proteasome
GLI2,3 are degraded by the proteasome
GLI2,3 are degraded by the proteasome
GLI2,3 are degraded by the proteasome
GLI2,3 are degraded by the proteasome
GLI2,3 are degraded by the proteasome
GLI2,3 are degraded by the proteasome
GLI2,3 are degraded by the proteasome
GLI2,3 are degraded by the proteasome
GLI2,3 are degraded by the proteasome
Gli2is degraded by the proteasome
GLI3 is partially degraded by the proteasome to yield the GLI3 repressor
GLI3 is partially degraded by the proteasome to yield the GLI3 repressor
GLI3 is partially degraded by the proteasome to yield the GLI3 repressor
GLI3 is partially degraded by the proteasome to yield the GLI3 repressor
GLI3 is partially degraded by the proteasome to yield the GLI3 repressor
GLI3 is partially degraded by the proteasome to yield the GLI3 repressor
GLI3 is partially degraded by the proteasome to yield the GLI3 repressor
GLI3 is partially degraded by the proteasome to yield the GLI3 repressor
GLI3 is partially degraded by the proteasome to yield the GLI3 repressor
GLI3R translocates to the nucleus
GLI3R translocates to the nucleus
GLI3R translocates to the nucleus
GLI3R translocates to the nucleus
GLI3R translocates to the nucleus
GLI3R translocates to the nucleus
GLI3R translocates to the nucleus
GLI3R translocates to the nucleus
GLI3R translocates to the nucleus
GLI3R translocates to the nucleus
GLI3R translocates to the nucleus
GLI3R translocates to the nucleus
GLI3R translocates to the nucleus
GLI3R translocates to the nucleus
GLI3R translocates to the nucleus
GLI:SUFU translocates to the ciliary tip in response to Hh signaling
Glucagon-like Peptide 1 is secreted from intestinal L cells
Glucagon-like Peptide 1 is secreted from intestinal L cells
Glucagon-like Peptide 1 is secreted from intestinal L cells
Glucagon-like Peptide 1 is secreted from intestinal L cells
Glucagon-like Peptide 1 is secreted from intestinal L cells
Glucagon-like Peptide 1 is secreted from intestinal L cells
Glucagon-like Peptide 1 is secreted from intestinal L cells
Glucagon-like Peptide 1 is secreted from intestinal L cells
Glucagon-like Peptide 1 is secreted from intestinal L cells
Glucagon-like Peptide 1 is secreted from intestinal L cells
Glucose-dependent Insulinotropic Polypeptide is secreted from intestinal K cells
Glucose-dependent Insulinotropic Polypeptide is secreted from intestinal K cells
Glucose-dependent Insulinotropic Polypeptide is secreted from intestinal K cells
Glucose-dependent Insulinotropic Polypeptide is secreted from intestinal K cells
Glucose-dependent Insulinotropic Polypeptide is secreted from intestinal K cells
Glucose-dependent Insulinotropic Polypeptide is secreted from intestinal K cells
GLUT4 vesicle fuses with the plasma membrane
GLUT4 vesicle fuses with the plasma membrane
GLUT4 vesicle fuses with the plasma membrane
Glycosylation of Hh
Glycosylation of Hh
Glycosylation of Hh
Glycosylation of Hh
Glycosylation of Hh
Glycosylation of Hh
Glycosylation of Hh
Glycosylation of Hh
Glycosylation of Hh
Glycosylation of Hh
Glycosylation of mouse WNTs
GOLGA2 phosphorylated by CDK1 is unable to promote fusion of ER to Golgi transport vesicles with cis-Golgi
Golgi lumen glycoconjugates translocate to the plasma membrane
Golgi vesicle lattice disassociation
Golgi vesicle lattice disassociation
Golgi vesicle lattice disassociation
Golgi vesicle lattice disassociation
Golgi vesicle lattice disassociation
Golgi vesicle lattice disassociation
Golgi vesicle lattice disassociation
Golgi vesicle lattice disassociation
Golgi vesicle lattice disassociation
Golgi vesicle lattice disassociation
Golgi vesicle lattice disassociation
Golgi vesicle lattice disassociation
Golgi vesicle lattice disassociation
Golgi vesicle lattice disassociation
Golgi vesicle lattice disassociation
Golgi vesicle lattice disassociation
GORASP1 phosphorylated by PLK1 and GORASP2 phosphorylated by MAPK3-3/MAPK1 are unable to promote Golgi cisternae stacking
GP1b signaling involves c-Src
GP1b signaling involves c-Src
GP1b signaling involves c-Src
GP1b signaling involves c-Src
GP1b signaling involves c-Src
GP1b signaling involves c-Src
GP1b signaling involves c-Src
GPR161 is internalized
GPR161 is internalized
GPR161 is internalized
GPR161 is internalized
GPR161 is internalized
GPR161 is internalized
GPR161 is internalized
GPR161 is internalized
GPR161 is internalized
GPR161 is internalized
GPVI stimulates PI3K beta, gamma
GPVI stimulates PI3K beta, gamma
GPVI stimulates PI3K beta, gamma
GPVI stimulates PI3K beta, gamma
GPVI stimulates PI3K beta, gamma
GPVI stimulates PI3K beta, gamma
GPVI stimulates PI3K beta, gamma
GSH translocates from cytosol to extracellular region
Hemoglobin:Haptoglobin:CD163 is endocytosed
Hemoglobin:Haptoglobin:CD163 is endocytosed
Hemoglobin:Haptoglobin:CD163 is endocytosed
Hemoglobin:Haptoglobin:CD163 is endocytosed
Hemoglobin:Haptoglobin:CD163 is endocytosed
Hemoglobin:Haptoglobin:CD163 is endocytosed
Hemoglobin:Haptoglobin:CD163 is endocytosed
Hemoglobin:Haptoglobin:CD163 is endocytosed
Hemoglobin:Haptoglobin:CD163 is endocytosed
Hh C-terminal fragments are degraded by the proteasome
Hh C-terminal fragments are degraded by the proteasome
Hh C-terminal fragments are degraded by the proteasome
Hh C-terminal fragments are degraded by the proteasome
Hh C-terminal fragments are degraded by the proteasome
Hh C-terminal fragments are degraded by the proteasome
Hh C-terminal fragments are degraded by the proteasome
Hh C-terminal fragments are degraded by the proteasome
Hh C-terminal fragments are degraded by the proteasome
Hh-dependent expression of GLI1 gene
Hh-Np traffics to the plasma membrane
Hh-Np traffics to the plasma membrane
Hh-Np traffics to the plasma membrane
Hh-Np traffics to the plasma membrane
Hh-Np traffics to the plasma membrane
Hh-Np traffics to the plasma membrane
Hh-Np traffics to the plasma membrane
Hh-Np traffics to the plasma membrane
Hh-Np traffics to the plasma membrane
Hh-Np traffics to the plasma membrane
HIF-alpha translocates from cytosol to nucleus
HIF-alpha translocates from cytosol to nucleus
HIF-alpha translocates from cytosol to nucleus
HIF-alpha translocates from cytosol to nucleus
HIF-alpha translocates from cytosol to nucleus
HIF-alpha translocates from cytosol to nucleus
HIF-alpha translocates from cytosol to nucleus
HIF-alpha translocates from cytosol to nucleus
HIF-alpha translocates from cytosol to nucleus
HIF-alpha translocates from cytosol to nucleus
HIF-alpha translocates from cytosol to nucleus
HIV Virion Budding
HMPhOH is hydroxylated to MDMQ6H2 by HMPhOH monooxygenase
HNF1a regulates Foxa3
HNF1a regulates Hnf4a
HNF1a regulates Hnf4g
HNF1a transactivates Glut2
HNF1a transactivates Pklr
HNF1A-dependent synthesis of FOXA3
HNF1A-dependent synthesis of FOXA3
HNF1A-dependent synthesis of FOXA3
HNF1A-dependent synthesis of FOXA3
HNF1A-dependent synthesis of FOXA3
HNF1A-dependent synthesis of FOXA3
HNF1A-dependent synthesis of FOXA3
HNF1A-dependent synthesis of FOXA3
HNF1A-dependent synthesis of FOXA3
HNF1A-dependent synthesis of GLUT2 protein
HNF1A-dependent synthesis of GLUT2 protein
HNF1A-dependent synthesis of GLUT2 protein
HNF1A-dependent synthesis of GLUT2 protein
HNF1A-dependent synthesis of GLUT2 protein
HNF1A-dependent synthesis of GLUT2 protein
HNF1A-dependent synthesis of GLUT2 protein
HNF1A-dependent synthesis of GLUT2 protein
HNF1A-dependent synthesis of GLUT2 protein
HNF1A-dependent synthesis of GLUT2 protein
HNF1A-dependent synthesis of GLUT2 protein
HNF1A-dependent synthesis of GLUT2 protein
HNF1A-dependent synthesis of GLUT2 protein
HNF1A-dependent synthesis of GLUT2 protein
HNF1A-dependent synthesis of GLUT2 protein
HNF1A-dependent synthesis of HNF4A
HNF1A-dependent synthesis of HNF4A
HNF1A-dependent synthesis of HNF4A
HNF1A-dependent synthesis of HNF4A
HNF1A-dependent synthesis of HNF4A
HNF1A-dependent synthesis of HNF4A
HNF1A-dependent synthesis of HNF4A
HNF1A-dependent synthesis of HNF4A
HNF1A-dependent synthesis of HNF4A
HNF1A-dependent synthesis of HNF4A
HNF1A-dependent synthesis of HNF4G protein
HNF1A-dependent synthesis of HNF4G protein
HNF1A-dependent synthesis of HNF4G protein
HNF1A-dependent synthesis of HNF4G protein
HNF1A-dependent synthesis of HNF4G protein
HNF1A-dependent synthesis of HNF4G protein
HNF1A-dependent synthesis of HNF4G protein
HNF1A-dependent synthesis of HNF4G protein
HNF1A-dependent synthesis of HNF4G protein
HNF1A-dependent synthesis of the L isoform of PKLR protein
HNF1b transactivates Hnf6
HNF1b transactivates Ptf1a
HNF1B- and FGF10-dependent synthesis of PTF1A protein
HNF1B- and FGF10-dependent synthesis of PTF1A protein
HNF1B- and FGF10-dependent synthesis of PTF1A protein
HNF1B- and FGF10-dependent synthesis of PTF1A protein
HNF1B- and FGF10-dependent synthesis of PTF1A protein
HNF1B- and FGF10-dependent synthesis of PTF1A protein
HNF1B- and FGF10-dependent synthesis of PTF1A protein
HNF1B- and FGF10-dependent synthesis of PTF1A protein
HNF1B- and FGF10-dependent synthesis of PTF1A protein
HNF1B-dependent synthesis of HNF6 protein
HNF1B-dependent synthesis of HNF6 protein
HNF1B-dependent synthesis of HNF6 protein
HNF1B-dependent synthesis of HNF6 protein
HNF1B-dependent synthesis of HNF6 protein
HNF1B-dependent synthesis of HNF6 protein
HNF1B-dependent synthesis of HNF6 protein
HNF1B-dependent synthesis of HNF6 protein
HNF1B-dependent synthesis of HNF6 protein
HNF1B-dependent synthesis of HNF6 protein
HNF6 positively regulates Hnf1b expression
HNF6 transactivates Onecut3 during early pancreas specification
HNF6 transactivates Onecut3 during morphogenesis
HNF6 transactivates Pdx1
HNF6- and FGF10-dependent synthesis of PDX1 protein
HNF6- and FGF10-dependent synthesis of PDX1 protein
HNF6- and FGF10-dependent synthesis of PDX1 protein
HNF6- and FGF10-dependent synthesis of PDX1 protein
HNF6- and FGF10-dependent synthesis of PDX1 protein
HNF6- and FGF10-dependent synthesis of PDX1 protein
HNF6- and FGF10-dependent synthesis of PDX1 protein
HNF6- and FGF10-dependent synthesis of PDX1 protein
HNF6- and FGF10-dependent synthesis of PDX1 protein
HNF6-dependent synthesis of HNF1B protein
HNF6-dependent synthesis of HNF1B protein
HNF6-dependent synthesis of HNF1B protein
HNF6-dependent synthesis of HNF1B protein
HNF6-dependent synthesis of HNF1B protein
HNF6-dependent synthesis of HNF1B protein
HNF6-dependent synthesis of HNF1B protein
HNF6-dependent synthesis of HNF1B protein
HNF6-dependent synthesis of HNF1B protein
HNF6-dependent synthesis of NEUROG3 protein during morphogenesis
HNF6-dependent synthesis of NEUROG3 protein during morphogenesis
HNF6-dependent synthesis of NEUROG3 protein during morphogenesis
HNF6-dependent synthesis of NEUROG3 protein during morphogenesis
HNF6-dependent synthesis of NEUROG3 protein during morphogenesis
HNF6-dependent synthesis of NEUROG3 protein during morphogenesis
HNF6-dependent synthesis of NEUROG3 protein during morphogenesis
HNF6-dependent synthesis of NEUROG3 protein during morphogenesis
Hnf6-dependent synthesis of Ngn3 protein during morphogenesis
HNF6-dependent synthesis of ONECUT3 protein during early pancreas specification
HNF6-dependent synthesis of ONECUT3 protein during early pancreas specification
HNF6-dependent synthesis of ONECUT3 protein during early pancreas specification
HNF6-dependent synthesis of ONECUT3 protein during early pancreas specification
HNF6-dependent synthesis of ONECUT3 protein during early pancreas specification
HNF6-dependent synthesis of ONECUT3 protein during early pancreas specification
HNF6-dependent synthesis of ONECUT3 protein during early pancreas specification
HNF6-dependent synthesis of ONECUT3 protein during early pancreas specification
HNF6-dependent synthesis of ONECUT3 protein during early pancreas specification
HNF6-dependent synthesis of ONECUT3 protein during early pancreas specification
HNF6-dependent synthesis of ONECUT3 protein during early pancreas specification
HNF6-dependent synthesis of ONECUT3 protein during morphogenesis
HS-GAGs translocate to the lysosome for degradation
HS-GAGs translocate to the lysosome for degradation
HS-GAGs translocate to the lysosome for degradation
HS-GAGs translocate to the lysosome for degradation
HS-GAGs translocate to the lysosome for degradation
HS-GAGs translocate to the lysosome for degradation
HS-GAGs translocate to the lysosome for degradation
HS-GAGs translocate to the lysosome for degradation
HS-GAGs translocate to the lysosome for degradation
HS-GAGs translocate to the lysosome for degradation
HS-GAGs translocate to the lysosome for degradation
HS-GAGs translocate to the lysosome for degradation
HSF1 trimer translocates to the nucleus
HSF1 trimer translocates to the nucleus
HSF1 trimer translocates to the nucleus
HSF1 trimer translocates to the nucleus
HSF1 trimer translocates to the nucleus
HSF1 trimer translocates to the nucleus
HSF1 trimer translocates to the nucleus
HSF1 trimer translocates to the nucleus
HSF1 trimer translocates to the nucleus
HSF1 trimer translocates to the nucleus
HSF1 trimer translocates to the nucleus
HSF1 trimer translocates to the nucleus
HSF1 trimer translocates to the nucleus
HSF1 trimer translocates to the nucleus
HSF1 trimer translocates to the nucleus
HSF1 trimer translocates to the nucleus
HSF1 trimer translocates to the nucleus
HSF1-mediated gene expression
HSF1-mediated gene expression
HSF1-mediated gene expression
HSF1-mediated gene expression
HSF1-mediated gene expression
HSF1-mediated gene expression
HSF1-mediated gene expression
HSF1-mediated gene expression
HSF1-mediated gene expression
HSF1-mediated gene expression
HSF1-mediated gene expression
HSF1-mediated gene expression
HSF1-mediated gene expression
HSF1-mediated gene expression
HSF1-mediated gene expression
HSF1-mediated gene expression
HSF1-mediated gene expression
HuR:mRNA complex translocates from the nucleus to the cytosol
HuR:mRNA complex translocates from the nucleus to the cytosol
HuR:mRNA complex translocates from the nucleus to the cytosol
HuR:mRNA complex translocates from the nucleus to the cytosol
HuR:mRNA complex translocates from the nucleus to the cytosol
HuR:mRNA complex translocates from the nucleus to the cytosol
HuR:mRNA complex translocates from the nucleus to the cytosol
Hyaluronidase 1 (HYAL1) hydrolyses HA from 20kDa to 800Da fragments
Hyaluronidase 1 (HYAL1) hydrolyses HA from 20kDa to 800Da fragments
Hyaluronidase 1 (HYAL1) hydrolyses HA from 20kDa to 800Da fragments
Hyaluronidase 1 (HYAL1) hydrolyses HA from 20kDa to 800Da fragments
Hyaluronidase 1 (HYAL1) hydrolyses HA from 20kDa to 800Da fragments
Hyaluronidase 1 (HYAL1) hydrolyses HA from 20kDa to 800Da fragments
Hyaluronidase 1 (HYAL1) hydrolyses HA from 20kDa to 800Da fragments
Hyaluronidase 1 (HYAL1) hydrolyses HA from 20kDa to 800Da fragments
Hyaluronidase 1 (HYAL1) hydrolyses HA from 20kDa to 800Da fragments
Hyaluronidase 1 (HYAL1) hydrolyses HA from 20kDa to 800Da fragments
Hyaluronidase 2 (HYAL2) hydrolyses HA into 20kDa fragments
Hyaluronidase 2 (HYAL2) hydrolyses HA into 20kDa fragments
Hyaluronidase 2 (HYAL2) hydrolyses HA into 20kDa fragments
Hyaluronidase 2 (HYAL2) hydrolyses HA into 20kDa fragments
Hyaluronidase 2 (HYAL2) hydrolyses HA into 20kDa fragments
Hyaluronidase 2 (HYAL2) hydrolyses HA into 20kDa fragments
Hyaluronidase 2 (HYAL2) hydrolyses HA into 20kDa fragments
Hyaluronidase 2 (HYAL2) hydrolyses HA into 20kDa fragments
Hyaluronidase 2 (HYAL2) hydrolyses HA into 20kDa fragments
Hyaluronidase 2 (HYAL2) hydrolyses HA into 20kDa fragments
Hydrolysis of Arf1-GTP to Arf1-GDP
Hydrolysis of Arf1-GTP to Arf1-GDP
Hydrolysis of Arf1-GTP to Arf1-GDP
Hydrolysis of Arf1-GTP to Arf1-GDP
Hydrolysis of Arf1-GTP to Arf1-GDP
Hydrolysis of Arf1-GTP to Arf1-GDP
Hydrolysis of Arf1-GTP to Arf1-GDP
Hydrolysis of Arf1-GTP to Arf1-GDP
Hydrolysis of Arf1-GTP to Arf1-GDP
Hydrolysis of Arf1-GTP to Arf1-GDP
Hydrolysis of Arf1-GTP to Arf1-GDP
Hydrolysis of Arf1-GTP to Arf1-GDP
Hydrolysis of Arf1-GTP to Arf1-GDP
Hydrolysis of Arf1-GTP to Arf1-GDP
Hydrolysis of Arf1-GTP to Arf1-GDP
Hydrolysis of Arf1-GTP to Arf1-GDP
Hydroperoxyl enters the bacterium
iC3b proteolysis
IL1B gene is transcribed
IL2RG associates with JAK3
IL2RG associates with JAK3
IL2RG associates with JAK3
IL2RG associates with JAK3
IL2RG associates with JAK3
IL2RG associates with JAK3
IL2RG associates with JAK3
IL2RG associates with JAK3
IL2RG associates with JAK3
IL2RG associates with JAK3
INPP5E translocates to the primary cilium
INPP5E translocates to the primary cilium
INPP5E translocates to the primary cilium
INPP5E translocates to the primary cilium
INPP5E translocates to the primary cilium
INPP5E translocates to the primary cilium
INPP5E translocates to the primary cilium
INPP5E translocates to the primary cilium
INPP5E translocates to the primary cilium
INPP5E translocates to the primary cilium
Insertion of MHC II:Ii complex in to the plasma membrane
Insertion of MHC II:Ii complex in to the plasma membrane
Insertion of MHC II:Ii complex in to the plasma membrane
Insertion of MHC II:Ii complex in to the plasma membrane
Insertion of MHC II:Ii complex in to the plasma membrane
Insertion of MHC II:Ii complex in to the plasma membrane
Insulin degradation
Insulin secretory granule translocates to cell cortex
Insulin secretory granule translocates to cell cortex
Insulin secretory granule translocates to cell cortex
Insulin secretory granule translocates to cell cortex
Insulin secretory granule translocates to cell cortex
Insulin secretory granule translocates to cell cortex
Insulin secretory granule translocates to cell cortex
Insulin secretory granule translocates to cell cortex
Insulin secretory granules translocate across the cortical actin network to dock at plasma membrane
Insulin secretory granules translocate across the cortical actin network to dock at plasma membrane
Insulin secretory granules translocate across the cortical actin network to dock at plasma membrane
Insulin secretory granules translocate across the cortical actin network to dock at plasma membrane
Insulin secretory granules translocate across the cortical actin network to dock at plasma membrane
Insulin secretory granules translocate across the cortical actin network to dock at plasma membrane
Insulin secretory granules translocate across the cortical actin network to dock at the plasma membrane
Interleukin-1 family are secreted
Interleukin-1 family are secreted
Interleukin-1 family are secreted
Interleukin-1 family are secreted
Interleukin-1 family are secreted
Interleukin-1 family are secreted
Interleukin-1 family are secreted
Interleukin-1 family are secreted
Interleukin-1 family are secreted
Interleukin-1 family are secreted
Internalisation of the insulin receptor
Internalisation of the insulin receptor
Internalisation of the insulin receptor
Internalisation of the insulin receptor
Internalisation of the insulin receptor
Internalisation of the insulin receptor
Internalisation of the insulin receptor
Internalisation of the insulin receptor
Internalization of MHC II:Ii clathrin coated vesicle
Internalization of MHC II:Ii clathrin coated vesicle
Internalization of MHC II:Ii clathrin coated vesicle
Internalization of MHC II:Ii clathrin coated vesicle
Internalization of MHC II:Ii clathrin coated vesicle
Internalization of MHC II:Ii clathrin coated vesicle
Internalization of MHC II:Ii clathrin coated vesicle
Internalization of MHC II:Ii clathrin coated vesicle
Internalization of MHC II:Ii clathrin coated vesicle
Internalization of MHC II:Ii clathrin coated vesicle
Ipaf is activated
IPAF is activated
IRAK2 is phosphorylated downstream of IRAK4 following IL1 receptor activation
IRAK2 is phosphorylated downstream of IRAK4 following IL1 receptor activation
IRAK2 is phosphorylated downstream of IRAK4 following IL1 receptor activation
IRAK2 is phosphorylated downstream of IRAK4 following IL1 receptor activation
IRAK2 is phosphorylated downstream of IRAK4 following IL1 receptor activation
IRAK2 is phosphorylated downstream of IRAK4 following IL1 receptor activation
IRAK2 is phosphorylated downstream of IRAK4 following IL1 receptor activation
IRAK2 is phosphorylated downstream of IRAK4 following IL1 receptor activation
IRAK2 is phosphorylated downstream of IRAK4 following IL1 receptor activation
IRE1alpha hydrolyzes Xbp1 mRNA and Xbp1 mRNA is spliced
JAK activation
JAK activation
JAK activation
JAK activation
JAK activation
JAK activation
JAK activation
JAK activation
JAK activation
JAK activation
JAK2 phosphorylation
JAK2 phosphorylation
JAK2 phosphorylation
JAK2 phosphorylation
JAK2 phosphorylation
JAK2 phosphorylation
JAK2 phosphorylation
JAK2 phosphorylation
JAK2 phosphorylation
JAK2 phosphorylation
Journey of cargo through Golgi complex
Journey of cargo through Golgi complex
Journey of cargo through Golgi complex
Journey of cargo through Golgi complex
Journey of cargo through Golgi complex
Journey of cargo through Golgi complex
Journey of cargo through Golgi complex
Journey of cargo through Golgi complex
Journey of cargo through Golgi complex
K63polyUb-TRAF6 ubiquitinates TAK1
K63polyUb-TRAF6 ubiquitinates TAK1
K63polyUb-TRAF6 ubiquitinates TAK1
K63polyUb-TRAF6 ubiquitinates TAK1
K63polyUb-TRAF6 ubiquitinates TAK1
K63polyUb-TRAF6 ubiquitinates TAK1
K63polyUb-TRAF6 ubiquitinates TAK1
K63polyUb-TRAF6 ubiquitinates TAK1
K63polyUb-TRAF6 ubiquitinates TAK1
Keratan sulfate is cleaved from its proteoglycan by an unknown galactosidase
KIAA0101 double monoubiquitination
KIAA0101 double monoubiquitination
KIAA0101 double monoubiquitination
KIAA0101 double monoubiquitination
KIAA0101 double monoubiquitination
KIAA0101 double monoubiquitination
KIAA0101 double monoubiquitination
KIF17 enters the cilium
KIF17 enters the cilium
KIF17 enters the cilium
KIF17 enters the cilium
KIF17 enters the cilium
KIF17 enters the cilium
KIF17 enters the cilium
KIF17 enters the cilium
KIF17 enters the cilium
KIF17 enters the cilium
Kinesins move along microtubules consuming ATP
Kinesins move along microtubules consuming ATP
Kinesins move along microtubules consuming ATP
Kinesins move along microtubules consuming ATP
Kinesins move along microtubules consuming ATP
Kinesins move along microtubules consuming ATP
Kinesins move along microtubules consuming ATP
Kinesins move along microtubules consuming ATP
Kinesins move along microtubules consuming ATP
Kinesins move along microtubules consuming ATP
Kinesins move along microtubules consuming ATP
Kinesins move along microtubules consuming ATP
Kinesins move along microtubules consuming ATP
Kinetochore assembly
Kinetochore assembly
Kinetochore assembly
Kinetochore assembly
Kinetochore assembly
Kinetochore assembly
Kinetochore assembly
Kinetochore assembly
Kinetochore assembly
Kinetochore assembly
KSPG is secreted from the cell
KSPG is secreted from the cell
KSPG is secreted from the cell
KSPG is secreted from the cell
KSPG is secreted from the cell
KSPG is secreted from the cell
KSPG is secreted from the cell
KSPG is secreted from the cell
KSPG is secreted from the cell
KSPG is secreted from the cell
Kurtz promotes ubiquitination of Notch
L-type Calcium Channels close in pancreatic beta cells
LDL leads to activation of PECAM1
Legumain degrades DBP
Legumain degrades DBP
Legumain degrades DBP
Legumain degrades DBP
Legumain degrades DBP
Legumain degrades DBP
Legumain degrades DBP
Legumain degrades DBP
Legumain degrades DBP
Ligand binds to TLR10
Ligand binds to TLR10
Ligand binds to TLR10
Ligand binds to TLR10
Ligand binds to TLR10
Ligand binds to TLR10
Ligand binds to TLR10
Ligand binds to TLR10
Ligand binds to TLR10
Ligand binds to TLR10
Ligand binds to TLR10
Linoleoyl-CoA is converted to cis,cis-3,6- dodecadienoyl-CoA by three cycles of beta-oxidation
Low conductance potassium channels in pancreatic beta cells open in response to epinephrine
LRP1:Hemopexin:heme is endocytosed
LRP1:Hemopexin:heme is endocytosed
LRP1:Hemopexin:heme is endocytosed
LRP1:Hemopexin:heme is endocytosed
LRP1:Hemopexin:heme is endocytosed
LRP1:Hemopexin:heme is endocytosed
LRP1:Hemopexin:heme is endocytosed
LRP1:Hemopexin:heme is endocytosed
LRP1:Hemopexin:heme is endocytosed
Lyn activates ERK
Lyn activates ERK
Lyn activates ERK
Lyn activates ERK
Lyn activates ERK
Lyn activates ERK
Lyn activates ERK
Lyn activates ERK
Lyn activates ERK
Lyn activates ERK
Lysosomal degradation of gap junction plaques
Lysosomal degradation of gap junction plaques
Lysosomal degradation of gap junction plaques
Lysosomal degradation of gap junction plaques
Lysosomal degradation of gap junction plaques
Lysosomal degradation of gap junction plaques
Lysosomal degradation of gap junction plaques
Lysosomal degradation of gap junction plaques
Lysosomal degradation of gap junction plaques
Lysosomal degradation of gap junction plaques
Lysosomal degradation of gap junction plaques
MafA transactivates Pdx1
MafA transactivates the Insulin gene
MAFA-, NKX2-2-, PAX6-, and PDX1-dependent synthesis of insulin precursor protein
MAFA-, NKX2-2-, PAX6-, and PDX1-dependent synthesis of insulin precursor protein
MAFA-, NKX2-2-, PAX6-, and PDX1-dependent synthesis of insulin precursor protein
MAFA-, NKX2-2-, PAX6-, and PDX1-dependent synthesis of insulin precursor protein
MAFA-, NKX2-2-, PAX6-, and PDX1-dependent synthesis of insulin precursor protein
MAFA-, NKX2-2-, PAX6-, and PDX1-dependent synthesis of insulin precursor protein
MAFA-, NKX2-2-, PAX6-, and PDX1-dependent synthesis of insulin precursor protein
Maintenance of PPARG expression in differentiated adipocytes
Maintenance of Pparg expression in differentiated adipocytes
MAPKAPK2/3-mediated removal of PRC1.4 complex stimulates p14-ARF transcription
MARCO:ligand is endocytosed
MARCO:ligand is endocytosed
MARCO:ligand is endocytosed
MARCO:ligand is endocytosed
MARCO:ligand is endocytosed
Maturation of phagosome into phagolysosome
Mature HBEGF binds to EGFR, triggering dimerisation and autophosphorylation of the receptor
Mature HBEGF binds to EGFR, triggering dimerisation and autophosphorylation of the receptor
Mature HBEGF binds to EGFR, triggering dimerisation and autophosphorylation of the receptor
Mature HBEGF binds to EGFR, triggering dimerisation and autophosphorylation of the receptor
Mature HBEGF binds to EGFR, triggering dimerisation and autophosphorylation of the receptor
Mature HBEGF binds to EGFR, triggering dimerisation and autophosphorylation of the receptor
Mature HBEGF binds to EGFR, triggering dimerisation and autophosphorylation of the receptor
Mature HBEGF binds to EGFR, triggering dimerisation and autophosphorylation of the receptor
Mature HBEGF binds to EGFR, triggering dimerisation and autophosphorylation of the receptor
Mature NOTCH heterodimer traffics to the plasma membrane
Mature NOTCH heterodimer traffics to the plasma membrane
Mature NOTCH heterodimer traffics to the plasma membrane
Mature NOTCH heterodimer traffics to the plasma membrane
Mature NOTCH heterodimer traffics to the plasma membrane
Mature NOTCH heterodimer traffics to the plasma membrane
Mature NOTCH heterodimer traffics to the plasma membrane
Mature NOTCH heterodimer traffics to the plasma membrane
Mature NOTCH heterodimer traffics to the plasma membrane
Mature NOTCH heterodimer traffics to the plasma membrane
Mature NOTCH heterodimer traffics to the plasma membrane
MeR-Piwil4:2'-O-methyl-piRNA:Tdrd9:Mael:Tdrkh dissociates and MeR-Piwil4:2'-O-methyl-piRNA, Tdrd9, Mael translocate from cytosol to nucleus in unknown association and unknown order of events
MeR-PIWIL4:2'-O-methyl-piRNA:TDRD9:MAEL:TDRKH dissociates and MeR-PIWIL4:2'-O-methylpiRNA, TDRD9, MAEL translocate from cytosol to nucleus in an unknown association and order of events
MeR-PIWIL4:2'-O-methyl-piRNA:TDRD9:MAEL:TDRKH dissociates and MeR-PIWIL4:2'-O-methylpiRNA, TDRD9, MAEL translocate from cytosol to nucleus in an unknown association and order of events
MeR-PIWIL4:2'-O-methyl-piRNA:TDRD9:MAEL:TDRKH dissociates and MeR-PIWIL4:2'-O-methylpiRNA, TDRD9, MAEL translocate from cytosol to nucleus in an unknown association and order of events
MeR-PIWIL4:2'-O-methyl-piRNA:TDRD9:MAEL:TDRKH dissociates and MeR-PIWIL4:2'-O-methylpiRNA, TDRD9, MAEL translocate from cytosol to nucleus in an unknown association and order of events
MeR-PIWIL4:2'-O-methyl-piRNA:TDRD9:MAEL:TDRKH dissociates and MeR-PIWIL4:2'-O-methylpiRNA, TDRD9, MAEL translocate from cytosol to nucleus in an unknown association and order of events
MeR-PIWIL4:2'-O-methyl-piRNA:TDRD9:MAEL:TDRKH dissociates and MeR-PIWIL4:2'-O-methylpiRNA, TDRD9, MAEL translocate from cytosol to nucleus in an unknown association and order of events
MHC class II antigen internalization
MHDB is decarboxylated to DMPhOH by MHDB decarboxylase
MHHB is decarboxylated to HMPhOH by MHHB decarboxylase
miR-92b binds 3'UTR of NLK mRNA
Mitochondrial uptake and processing of ALAS1
Mitochondrial uptake and processing of ALAS2
Mitochondrial uptake of (R)-3-aminoisobutyric acid
Mitochondrial uptake of (R)-3-aminoisobutyric acid
Mitochondrial uptake of beta-alanine
Mitochondrial uptake of beta-alanine
MMADHC targets transport of cytosolic cob(II)alamin to mitochondria
MMADHC targets transport of cytosolic cob(II)alamin to mitochondria
MMADHC targets transport of cytosolic cob(II)alamin to mitochondria
MMADHC targets transport of cytosolic cob(II)alamin to mitochondria
MMADHC targets transport of cytosolic cob(II)alamin to mitochondria
MMADHC targets transport of cytosolic cob(II)alamin to mitochondria
MMADHC targets transport of cytosolic cob(II)alamin to mitochondria
MMADHC targets transport of cytosolic cob(II)alamin to mitochondria
MMADHC targets transport of cytosolic cob(II)alamin to mitochondria
MMADHC targets transport of cytosolic cob(II)alamin to mitochondria
MMADHC targets transport of cytosolic cob(II)alamin to mitochondria
MMP2,9 cleave EPHB
MMP2,9 cleave EPHB
MMP2,9 cleave EPHB
MMP2,9 cleave EPHB
MMP2,9 cleave EPHB
MMP2,9 cleave EPHB
MMP2,9 cleave EPHB
MMP2,9 cleave EPHB
MMP2,9 cleave EPHB
MMP2,9 cleave EPHB
mNICD1 stimulates Hes1 transcription
mNOTCH1 coactivator complex positively regulates transcription of Hey1, Hey2 and Heyl
Monoubiquitination of N-myristoyl GAG (P12493) protein
Monoubiquitination of N-myristoyl GAG polyprotein
MRN:CtIP hydrolyzes single-strand DNA 3' to SPO11 and SPO11:double-strand break dissociates to SPO11:oligonucleotide and resected 5' end
MRN:CtIP hydrolyzes single-strand DNA 3' to SPO11 and SPO11:double-strand break dissociates to SPO11:oligonucleotide and resected 5' end
MRN:CtIP hydrolyzes single-strand DNA 3' to SPO11 and SPO11:double-strand break dissociates to SPO11:oligonucleotide and resected 5' end
MRN:CtIP hydrolyzes single-strand DNA 3' to SPO11 and SPO11:double-strand break dissociates to SPO11:oligonucleotide and resected 5' end
MRN:CtIP hydrolyzes single-strand DNA 3' to SPO11 and SPO11:double-strand break dissociates to SPO11:oligonucleotide and resected 5' end
MRN:CtIP hydrolyzes single-strand DNA 3' to SPO11 and SPO11:double-strand break dissociates to SPO11:oligonucleotide and resected 5' end
MRN:CtIP hydrolyzes single-strand DNA 3' to SPO11 and SPO11:double-strand break dissociates to SPO11:oligonucleotide and resected 5' end
MRN:CtIP hydrolyzes single-strand DNA 3' to SPO11 and SPO11:double-strand break dissociates to SPO11:oligonucleotide and resected 5' end
MRN:CtIP hydrolyzes single-strand DNA 3' to SPO11 and SPO11:double-strand break dissociates to SPO11:oligonucleotide and resected 5' end
MRN:CtIP hydrolyzes single-strand DNA 3' to SPO11 and SPO11:double-strand break dissociates to SPO11:oligonucleotide and resected 5' end
MRN:CtIP hydrolyzes single-strand DNA 3' to SPO11 and SPO11:double-strand break dissociates to SPO11:oligonucleotide and resected 5' end
MSR1:ligand (SCARA1:ligand, SR-A:ligand) is endocytosed
MSR1:ligand (SCARA1:ligand, SR-A:ligand) is endocytosed
MSR1:ligand (SCARA1:ligand, SR-A:ligand) is endocytosed
MSR1:ligand (SCARA1:ligand, SR-A:ligand) is endocytosed
MSR1:ligand (SCARA1:ligand, SR-A:ligand) is endocytosed
MSR1:ligand (SCARA1:ligand, SR-A:ligand) is endocytosed
MSR1:ligand (SCARA1:ligand, SR-A:ligand) is endocytosed
MSR1:ligand (SCARA1:ligand, SR-A:ligand) is endocytosed
MT-MMPs are sorted to the plasma membrane
MT-MMPs are sorted to the plasma membrane
MT-MMPs are sorted to the plasma membrane
MT-MMPs are sorted to the plasma membrane
MT-MMPs are sorted to the plasma membrane
MT-MMPs are sorted to the plasma membrane
MT-MMPs are sorted to the plasma membrane
MT-MMPs are sorted to the plasma membrane
MT-MMPs are sorted to the plasma membrane
MT-MMPs are sorted to the plasma membrane
MYC trancscription is negatively regulated by SMAD2/3:SMAD4:RBL1:E2F4/5:DP1/2 complex
N-acetylated spermine (cytosol)=>N-acetylated spermine (peroxisomal)
N-linked glycosylation of WNTs
N-linked glycosylation of WNTs
N-linked glycosylation of WNTs
N-linked glycosylation of WNTs
N-linked glycosylation of WNTs
N-linked glycosylation of WNTs
N-linked glycosylation of WNTs
N-linked glycosylation of WNTs
N-linked glycosylation of WNTs
N-linked glycosylation of WNTs
N-linked glycosylation of WNTs
Negative regulation of RIG-I/MDA5 signaling by DUBA
Negative regulation of RIG-I/MDA5 signaling by DUBA
Negative regulation of RIG-I/MDA5 signaling by DUBA
Negative regulation of RIG-I/MDA5 signaling by DUBA
Negative regulation of RIG-I/MDA5 signaling by DUBA
Negative regulation of RIG-I/MDA5 signaling by DUBA
Negative regulation of RIG-I/MDA5 signaling by DUBA
Negative regulation of RIG-I/MDA5 signaling by DUBA
Negative regulation of RIG-I/MDA5 signaling by DUBA
Negative regulation of RIG-I/MDA5 signaling by TRIAD3A
Negative regulation of RIG-I/MDA5 signaling by TRIAD3A
Negative regulation of RIG-I/MDA5 signaling by TRIAD3A
Negative regulation of RIG-I/MDA5 signaling by TRIAD3A
Negative regulation of RIG-I/MDA5 signaling by TRIAD3A
Negative regulation of RIG-I/MDA5 signaling by TRIAD3A
Negative regulation of RIG-I/MDA5 signaling by TRIAD3A
Negative regulation of RIG-I/MDA5 signaling by TRIAD3A
NeuroD1 transactivates the glucokinase gene
NEUROD1- and PDX1-dependent synthesis of glucokinase (GCK) protein
NEUROD1- and PDX1-dependent synthesis of glucokinase (GCK) protein
NEUROD1- and PDX1-dependent synthesis of glucokinase (GCK) protein
NEUROD1- and PDX1-dependent synthesis of glucokinase (GCK) protein
NEUROD1- and PDX1-dependent synthesis of glucokinase (GCK) protein
NEUROD1- and PDX1-dependent synthesis of glucokinase (GCK) protein
NEUROD1- and PDX1-dependent synthesis of glucokinase (GCK) protein
NEUROD1- and PDX1-dependent synthesis of glucokinase (GCK) protein
NEUROD1- and PDX1-dependent synthesis of glucokinase (GCK) protein
NEUROD1- and PDX1-dependent synthesis of glucokinase (GCK) protein
NEUROD1- and PDX1-dependent synthesis of glucokinase (GCK) protein
NEUROD1- and PDX1-dependent synthesis of glucokinase (GCK) protein
NEUROD1- and PDX1-dependent synthesis of glucokinase (GCK) protein
NEUROD1- and PDX1-dependent synthesis of glucokinase (GCK) protein
NEUROD1- and PDX1-dependent synthesis of glucokinase (GCK) protein
NEUROD1- and PDX1-dependent synthesis of glucokinase (GCK) protein
NEUROG3-dependent synthesis of INSM1
NEUROG3-dependent synthesis of INSM1
NEUROG3-dependent synthesis of INSM1
NEUROG3-dependent synthesis of INSM1
NEUROG3-dependent synthesis of INSM1
NEUROG3-dependent synthesis of INSM1
NEUROG3-dependent synthesis of INSM1
NEUROG3-dependent synthesis of INSM1
NEUROG3-dependent synthesis of INSM1
NEUROG3-dependent synthesis of NEUROD1
NEUROG3-dependent synthesis of NEUROD1
NEUROG3-dependent synthesis of NEUROD1
NEUROG3-dependent synthesis of NEUROD1
NEUROG3-dependent synthesis of NEUROD1
NEUROG3-dependent synthesis of NEUROD1
NEUROG3-dependent synthesis of NEUROD1
NEUROG3-dependent synthesis of NEUROD1
NEUROG3-dependent synthesis of NKX2-2
NEUROG3-dependent synthesis of NKX2-2
NEUROG3-dependent synthesis of NKX2-2
NEUROG3-dependent synthesis of NKX2-2
NEUROG3-dependent synthesis of NKX2-2
NEUROG3-dependent synthesis of NKX2-2
NEUROG3-dependent synthesis of NKX2-2
NEUROG3-dependent synthesis of NKX2-2
NEUROG3-dependent synthesis of NKX2-2
NEUROG3-dependent synthesis of NKX2-2
NEUROG3-dependent synthesis of NKX2-2
NEUROG3-dependent synthesis of PAX4 protein
NEUROG3-dependent synthesis of PAX4 protein
NEUROG3-dependent synthesis of PAX4 protein
NEUROG3-dependent synthesis of PAX4 protein
NEUROG3-dependent synthesis of PAX4 protein
NEUROG3-dependent synthesis of PAX4 protein
NEUROG3-dependent synthesis of PAX4 protein
New CENPA-containing nucleosomes are deposited at the centromere
NF-kappaB translocates from the cytosol to the nucleus
NF-kappaB translocates from the cytosol to the nucleus
NF-kappaB translocates from the cytosol to the nucleus
NF-kappaB translocates from the cytosol to the nucleus
NF-kappaB translocates from the cytosol to the nucleus
NF-kappaB translocates from the cytosol to the nucleus
NF-kappaB translocates from the cytosol to the nucleus
NF-kappaB translocates from the cytosol to the nucleus
NF-kappaB translocates from the cytosol to the nucleus
NF-kappaB translocates from the cytosol to the nucleus
NF-kappaB translocates from the cytosol to the nucleus
Ngn3 transactivates Ia1
Ngn3 transactivates NeuroD1
Ngn3 transactivates Nkx2.2
Ngn3 transactivates Pax4
NHLRC1 mediated ubiquitination of EPM2A (laforin) and PPP1RC3 (PTG) associated with glycogen-GYG2
NHLRC1 mediated ubiquitination of EPM2A (laforin) and PPP1RC3 (PTG) associated with glycogen-GYG2
NHLRC1 mediated ubiquitination of EPM2A (laforin) and PPP1RC3 (PTG) associated with glycogen-GYG2
NHLRC1 mediated ubiquitination of EPM2A (laforin) and PPP1RC3 (PTG) associated with glycogen-GYG2
NHLRC1 mediated ubiquitination of EPM2A (laforin) and PPP1RC3 (PTG) associated with glycogen-GYG2
NHLRC1 mediated ubiquitination of EPM2A (laforin) and PPP1RC3 (PTG) associated with glycogen-GYG2
NHLRC1 mediated ubiquitination of EPM2A and PPP1RC3 associated with glycogen-GYG1
NHLRC1 mediated ubiquitination of EPM2A and PPP1RC3 associated with glycogen-GYG1
NHLRC1 mediated ubiquitination of EPM2A and PPP1RC3 associated with glycogen-GYG1
NHLRC1 mediated ubiquitination of EPM2A and PPP1RC3 associated with glycogen-GYG1
NHLRC1 mediated ubiquitination of EPM2A and PPP1RC3 associated with glycogen-GYG1
NHLRC1 mediated ubiquitination of EPM2A and PPP1RC3 associated with glycogen-GYG1
Nitric oxide enters the bacterium
NKX2.2 transactivates the Insulin gene
NLK mRNA translation controlled by miR-92b
NLK translocates to nucleus
NLK translocates to nucleus
NLK translocates to nucleus
NLK translocates to nucleus
NLK translocates to nucleus
NLK translocates to nucleus
NLK translocates to nucleus
NLK translocates to nucleus
NLK translocates to nucleus
NLK translocates to nucleus
NLK translocates to nucleus
NLK translocates to nucleus
NLK translocates to nucleus
NLK translocates to nucleus
NLRP1 senses MDP
NLRP1 senses MDP
NLRP1 senses MDP
NLRP1 senses MDP
NLRP1 senses MDP
NLRP1 senses MDP
NLRP1 senses MDP
NLRP3 activation by elicitor proteins
NLRP3 activation by elicitor proteins
NLRP3 activation by elicitor proteins
NLRP3 activation by elicitor proteins
NLRP3 activation by elicitor proteins
NLRP3 activation by elicitor proteins
NLRP3 activation by small molecules
NLRP3 activation by small molecules
NLRP3 activation by small molecules
NLRP3 activation by small molecules
NLRP3 activation by small molecules
NLRP3 activation by small molecules
Noradrenaline translocates to the cytosol
NoRC:HDAC:DNMT deacetylates histone H4 and methylates histone H3
NoRC:HDAC:DNMT deacetylates histone H4 and methylates histone H3
NoRC:HDAC:DNMT deacetylates histone H4 and methylates histone H3
NoRC:HDAC:DNMT deacetylates histone H4 and methylates histone H3
NoRC:HDAC:DNMT deacetylates histone H4 and methylates histone H3
NoRC:HDAC:DNMT deacetylates histone H4 and methylates histone H3
NoRC:HDAC:DNMT deacetylates histone H4 and methylates histone H3
NoRC:HDAC:DNMT deacetylates histone H4 and methylates histone H3
NoRC:HDAC:DNMT deacetylates histone H4 and methylates histone H3
NoRC:intergenic spacer:Hdac:Dnmt complex deacetylates histone H4 and dimethylates lysine-9 of histone H3 in main promoter of the rRNA gene
NOSTRIN mediated translocation of eNOS from plasma membrane
NOSTRIN mediated translocation of eNOS from plasma membrane
NOSTRIN mediated translocation of eNOS from plasma membrane
NOSTRIN mediated translocation of eNOS from plasma membrane
NOSTRIN mediated translocation of eNOS from plasma membrane
NOSTRIN mediated translocation of eNOS from plasma membrane
NOSTRIN mediated translocation of eNOS from plasma membrane
NOSTRIN mediated translocation of eNOS from plasma membrane
NOSTRIN mediated translocation of eNOS from plasma membrane
NOSTRIN mediated translocation of eNOS from plasma membrane
NOTCH1 gene transcription
Notch1 gene transcription
NOTCH1 mRNA translation controlled by miRNAs
NOTCH1 PEST domain mutants stimulate HES1 transcription
NOTCH1 PEST domain mutants stimulate HES5 transcription
NOTCH1 PEST domain mutants stimulate HEY transcription
NOTCH1 PEST domain mutants stimulate MYC transcription
NOTCH1 stimulates HES1 transcription
NOTCH1 stimulates HES5 transcription
NOTCH1 stimulates HEY transcription
NOTCH1 stimulates MYC transcription
NOTCH1 t(7;9)(NOTCH1:M1580_K2555) does not bind DLL1
NOTCH1 t(7;9)(NOTCH1:M1580_K2555) does not bind DLL4
NOTCH1 t(7;9)(NOTCH1:M1580_K2555) does not bind JAG1
NOTCH1 t(7;9)(NOTCH1:M1580_K2555) does not bind JAG2
NOTCH2 gene transcription
NOTCH2 mRNA translation controlled by miRNAs
NOTCH2 stimulates GZMB transcription
Notch2 stimulates Gzmb transcription
NOTCH2 stimulates HES1 transcription
Notch2 stimulates Hes1 transcription
NOTCH2 stimulates transcription of FCER2 (CD23A)
NOTCH2 stimulates transcription of HES5
Notch2 stimulates transcription of Hes5
NOTCH3 gene transcription
NOTCH3 mRNA translation controlled by miRNAs
NOTCH4 gene transcription
NOTCH4 mRNA translation controlled by miRNAs
NTRK1 phosphorylates IRS
Nuclear CMP-Neu5Ac translocates to cytosol
Nuclear translocation of p38 MAPK
Nuclear translocation of p38 MAPK
Nuclear translocation of p38 MAPK
Nuclear translocation of p38 MAPK
Nuclear translocation of p38 MAPK
Nuclear translocation of p38 MAPK
Nuclear translocation of p38 MAPK
Nuclear translocation of p38 MAPK
Nuclear translocation of p38 MAPK
Nuclear translocation of p38 MAPK
Nuclear translocation of p38 MAPK
Oligomerization of BCL10 and MALT1
Oligomerization of BCL10 and MALT1
Oligomerization of BCL10 and MALT1
Oligomerization of BCL10 and MALT1
Oligomerization of BCL10 and MALT1
Oligomerization of BCL10 and MALT1
Oligomerization of BCL10 and MALT1
Oligomerization of BCL10 and MALT1
Oligomerization of BCL10 and MALT1
Oligomerization of BCL10 and MALT1
Oligomerization of p-CARMA1
Oligomerization of p-CARMA1
Oligomerization of p-CARMA1
Oligomerization of p-CARMA1
Oligomerization of p-CARMA1
Oligomerization of p-CARMA1
Oligomerization of p-CARMA1
Oligomerization of p-CARMA1
Oligomerization of p-CARMA1
Oligomerization of TRAF6
Oligomerization of TRAF6
Oligomerization of TRAF6
Oligomerization of TRAF6
Oligomerization of TRAF6
Oligomerization of TRAF6
Oligomerization of TRAF6
Oligomerization of TRAF6
Oligomerization of TRAF6
Oligomerization of TRAF6
Opening of Low Conductance Potassium Channels
Opsonization with C3b or C4b
Oxidative damage to the AP site
Oxidative damage to the AP site
Oxidative damage to the AP site
Oxidative damage to the AP site
Oxidative damage to the AP site
Oxidative damage to the AP site
Oxidative damage to the AP site
Oxidative damage to the AP site
Oxidative damage to the AP site
Oxidative damage to the AP site
Oxidative damage to the AP site
Oxidative damage to the AP site
Oxidative damage to the AP site
Oxidative damage to the AP site
Oxidative damage to the AP site
p(Y449)-IL7RA mediates STAT5 activation
p(Y449)-Il7ra mediates Stat5 activation
p(Y449)-IL7RA mediates STAT5 activation
p(Y449)-IL7RA mediates STAT5 activation
p(Y449)-IL7RA mediates STAT5 activation
p(Y449)-IL7RA mediates STAT5 activation
p(Y449)-IL7RA mediates STAT5 activation
p(Y449)-IL7RA mediates STAT5 activation
p(Y449)-IL7RA mediates STAT5 activation
p(Y449)-IL7RA mediates STAT5 activation
p(Y449)-IL7RA mediates STAT5 activation
p(Y449)-IL7RA mediates STAT5 activation
p-4S-UPF1 recruits SMG5, SMG7, SMG6, and PP2A
p-4S-UPF1 recruits SMG5, SMG7, SMG6, and PP2A
p-4S-UPF1 recruits SMG5, SMG7, SMG6, and PP2A
p-4S-UPF1 recruits SMG5, SMG7, SMG6, and PP2A
p-4S-UPF1 recruits SMG5, SMG7, SMG6, and PP2A
p-4S-UPF1 recruits SMG5, SMG7, SMG6, and PP2A
p-4S-UPF1 recruits SMG5, SMG7, SMG6, and PP2A
p-MAPK2/3 phosphorylates HSP27
p-MAPK2/3 phosphorylates HSP27
p-MAPK2/3 phosphorylates HSP27
p-MAPK2/3 phosphorylates HSP27
p-MAPK2/3 phosphorylates HSP27
p-MAPK2/3 phosphorylates HSP27
p-MAPK2/3 phosphorylates HSP27
p-MAPK2/3 phosphorylates HSP27
p-MAPK2/3 phosphorylates HSP27
p-MAPK2/3 phosphorylates HSP27
p-MAPK2/3 phosphorylates HSP27
p-NICD1 PEST domain mutants do not bind FBXW7
p-S193-KSRP binds 14-3-3zeta in the nucleus
p-S193-KSRP binds 14-3-3zeta in the nucleus
p-S193-KSRP binds 14-3-3zeta in the nucleus
p-S193-KSRP binds 14-3-3zeta in the nucleus
p-S193-KSRP binds 14-3-3zeta in the nucleus
p-S193-KSRP binds 14-3-3zeta in the nucleus
p-S193-KSRP binds 14-3-3zeta in the nucleus
p-S193-KSRP binds 14-3-3zeta in the nucleus
p-S193-KSRP binds 14-3-3zeta in the nucleus
p-S193-KSRP binds 14-3-3zeta in the nucleus
p-T38-ETS1/p-T72-ETS2 stimulates transcription of p16-INK4A mRNA
P2X7 mediates membrane pores that include pannexin-1
P2X7 mediates membrane pores that include pannexin-1
P2X7 mediates membrane pores that include pannexin-1
P2X7 mediates membrane pores that include pannexin-1
P2X7 mediates membrane pores that include pannexin-1
P2X7 mediates membrane pores that include pannexin-1
P2X7 mediates membrane pores that include pannexin-1
P2X7 mediates membrane pores that include pannexin-1
P2X7 mediates membrane pores that include pannexin-1
P2Y purinoceptor 1 activates MAP kinase p38 alpha
P2Y purinoceptor 1 activates MAP kinase p38 alpha
P2Y purinoceptor 1 activates MAP kinase p38 alpha
P2Y purinoceptor 1 activates MAP kinase p38 alpha
P2Y purinoceptor 1 activates MAP kinase p38 alpha
P2Y purinoceptor 1 activates MAP kinase p38 alpha
P2Y purinoceptor 1 activates MAP kinase p38 alpha
P2Y purinoceptor 1 activates MAP kinase p38 alpha
P2Y purinoceptor 1 activates MAP kinase p38 alpha
P2Y purinoceptor 1 activates MAP kinase p38 alpha
P2Y purinoceptor 1 activates MAP kinase p38 alpha
P2Y purinoceptor 1 activates MAP kinase p38 alpha
p38 MAPK activation by VEGFR
p53 positively regulates transcription of MIR34 microRNAs
PA63:ANTRX1 oligomer transports EF and LF (target cell endosome to cytosol)
PA63:ANTRX2 oligomer transports EF and LF (target cell endosome to cytosol)
Pancreatic proteases degrade TCN1:Cbl
Pancreatic proteases degrade TCN1:Cbl
Pancreatic proteases degrade TCN1:Cbl
Pancreatic proteases degrade TCN1:Cbl
Parenchymal atROL translocates to HSCs
Parenchymal atROL translocates to HSCs
Parenchymal atROL translocates to HSCs
Parenchymal atROL translocates to HSCs
Parenchymal atROL translocates to HSCs
Parenchymal atROL translocates to HSCs
Parenchymal atROL translocates to HSCs
Parenchymal atROL translocates to HSCs
Parenchymal atROL translocates to HSCs
Parenchymal atROL translocates to HSCs
Parenchymal atROL translocates to HSCs
Partial proteolysis of antigen in phagolysosomes
PAX6 transactivates Pdx1
PAX6 transactivates the Insulin gene
PCSK1 hydrolyzes Proglucagon to Glucagon-like Peptide-1
PCSK1 hydrolyzes Proglucagon to Glucagon-like Peptide-1
PCSK1 hydrolyzes Proglucagon to Glucagon-like Peptide-1
PCSK1 hydrolyzes Proglucagon to Glucagon-like Peptide-1
PCSK1 hydrolyzes Proglucagon to Glucagon-like Peptide-1
PCSK1 hydrolyzes Proglucagon to Glucagon-like Peptide-1
PCSK1 hydrolyzes Proglucagon to Glucagon-like Peptide-1
PCSK1 hydrolyzes Proglucagon to Glucagon-like Peptide-1
PCSK1 hydrolyzes Proglucagon to Glucagon-like Peptide-1
PDGF dimer binds two receptors simultaneously
PDGF dimer binds two receptors simultaneously
PDGF dimer binds two receptors simultaneously
PDGF dimer binds two receptors simultaneously
PDGF dimer binds two receptors simultaneously
PDGF dimer binds two receptors simultaneously
PDGF dimer binds two receptors simultaneously
PDGF dimer binds two receptors simultaneously
PDGF dimer binds two receptors simultaneously
PDGF dimer binds two receptors simultaneously
PDX1 transactivates Iapp
PDX1 transactivates Lrh1
PDX1 transactivates Nkx6.1
PDX1 transactivates the glucokinase gene
PDX1 transactivates the Insulin gene
PDX1-dependent synthesis of IAPP protein
PDX1-dependent synthesis of IAPP protein
PDX1-dependent synthesis of IAPP protein
PDX1-dependent synthesis of IAPP protein
PDX1-dependent synthesis of IAPP protein
PDX1-dependent synthesis of IAPP protein
PDX1-dependent synthesis of IAPP protein
PDX1-dependent synthesis of IAPP protein
PDX1-dependent synthesis of NKX6-1 protein
PDX1-dependent synthesis of NKX6-1 protein
PDX1-dependent synthesis of NKX6-1 protein
PDX1-dependent synthesis of NKX6-1 protein
PDX1-dependent synthesis of NKX6-1 protein
PDX1-dependent synthesis of NKX6-1 protein
PDX1-dependent synthesis of NKX6-1 protein
PDX1-dependent synthesis of NKX6-1 protein
PDX1-dependent synthesis of NKX6-1 protein
PDX1-dependent synthesis of NR5A2 protein
PDX1-dependent synthesis of NR5A2 protein
PDX1-dependent synthesis of NR5A2 protein
PDX1-dependent synthesis of NR5A2 protein
PDX1-dependent synthesis of NR5A2 protein
PDX1-dependent synthesis of NR5A2 protein
PDX1-dependent synthesis of NR5A2 protein
PDX1-dependent synthesis of NR5A2 protein
PDX1-dependent synthesis of NR5A2 protein
PDX1-dependent synthesis of NR5A2 protein
PDX1-dependent synthesis of NR5A2 protein
Peptide loading on MHC class I in phagosome
Peptide loading on MHC class I in phagosome
Peptide loading on MHC class I in phagosome
Peptide loading on MHC class I in phagosome
Peptide loading on MHC class I in phagosome
Peptide loading on MHC class I in phagosome
Peptide loading on MHC class I in phagosome
Peptide loading on MHC class I in phagosome
Per proteins are ubiquitinylated
Peroxisomal beta-oxidation of tetracosapentaenoyl-CoA to Docosapentaenoyl-CoA
Peroxynitrite enters the bacterium
PG is converted to BMP
PGH2 diffuses from the endoplasmic reticulum lumen to the cytosol
pheomelanin formation
Phosphorylated condensin I promotes condensation of prometaphase chromosomes
Phosphorylated Cry:Per:Kinase complex translocates to the nucleus
Phosphorylated SHC1 recruits GRB2:GAB2
Phosphorylated SHC1 recruits GRB2:GAB2
Phosphorylated SHC1 recruits GRB2:GAB2
Phosphorylated SHC1 recruits GRB2:GAB2
Phosphorylated SHC1 recruits GRB2:GAB2
Phosphorylated SHC1 recruits GRB2:GAB2
Phosphorylated SHC1 recruits GRB2:GAB2
Phosphorylated SHC1 recruits GRB2:GAB2
Phosphorylated SHC1 recruits GRB2:GAB2
Phosphorylated SMAD2/3 MH2 Domain Mutants do not bind SMAD4
Phosphorylated Stat3 Dimer Translocates to the Nucleus
Phosphorylated STAT3 Dimer Translocates to the Nucleus
Phosphorylated STAT3 Dimer Translocates to the Nucleus
Phosphorylated STAT3 Dimer Translocates to the Nucleus
Phosphorylated STAT3 Dimer Translocates to the Nucleus
Phosphorylated STAT3 Dimer Translocates to the Nucleus
Phosphorylated STAT3 Dimer Translocates to the Nucleus
Phosphorylated STAT3 Dimer Translocates to the Nucleus
Phosphorylated STAT3 Dimer Translocates to the Nucleus
Phosphorylated STAT3 Dimer Translocates to the Nucleus
Phosphorylated Stat5 Dimer Translocates to the Nucleus
Phosphorylation of GAB2 by SFKs
Phosphorylation of GAB2 by SFKs
Phosphorylation of GAB2 by SFKs
Phosphorylation of GAB2 by SFKs
Phosphorylation of GAB2 by SFKs
Phosphorylation of GAB2 by SFKs
Phosphorylation of GAB2 by SFKs
Phosphorylation of GAB2 by SFKs
Phosphorylation of GAB2 by SFKs
Phosphorylation of GAB2 by SFKs
Phosphorylation of GAB2 by SFKs
Phosphorylation of gp130
Phosphorylation of gp130
Phosphorylation of gp130
Phosphorylation of gp130
Phosphorylation of gp130
Phosphorylation of gp130
Phosphorylation of gp130
Phosphorylation of gp130
Phosphorylation of gp130
Phosphorylation of gp130
Phosphorylation of ITAMs of Ig-alpha (Cd79a) and Ig-beta (Cd79b)
Phosphorylation of PLCgamma by Netrin-1
Phosphorylation of PLCgamma by Netrin-1
Phosphorylation of PLCgamma by Netrin-1
Phosphorylation of PLCgamma by Netrin-1
Phosphorylation of PLCgamma by Netrin-1
Phosphorylation of PLCgamma by Netrin-1
Phosphorylation of PLCgamma by Netrin-1
Phosphorylation of PLCgamma by Netrin-1
Phosphorylation of STATs
Phosphorylation of STATs
Phosphorylation of STATs
Phosphorylation of STATs
Phosphorylation of STATs
Phosphorylation of STATs
Phosphorylation of STATs
Phosphorylation of STATs
Phosphorylation of STATs
Phosphorylation of STATs
Phosphorylation of STATs
Phosphorylation of VAV2
Photolytic cleavage and thermal isomerization of 7-dehydrocholesterol
Photolytic cleavage and thermal isomerization of 7-dehydrocholesterol
PIN1 mediated IRF3 degradation
PKN1 in complex with AR positively regulates expression of KLK2 and KLK3
Plasma membrane glycoconjugates translocate to the cytosol
Platelet glycoprotein IV:ligand (CD36:ligand) is endocytosed
Platelet glycoprotein IV:ligand (CD36:ligand) is endocytosed
Platelet glycoprotein IV:ligand (CD36:ligand) is endocytosed
Platelet glycoprotein IV:ligand (CD36:ligand) is endocytosed
Platelet glycoprotein IV:ligand (CD36:ligand) is endocytosed
Platelet glycoprotein IV:ligand (CD36:ligand) is endocytosed
Platelet glycoprotein IV:ligand (CD36:ligand) is endocytosed
Platelet glycoprotein IV:ligand (CD36:ligand) is endocytosed
Platelet glycoprotein IV:ligand (CD36:ligand) is endocytosed
Platelet glycoprotein IV:ligand (CD36:ligand) is endocytosed
Pol II mediated transcription of microRNA genes
Polycomb Repressive Complex 2 (PRC2) Is recruited to chromatin
Polycomb Repressive Complex 2 (PRC2) Is recruited to chromatin
Polycomb Repressive Complex 2 (PRC2) Is recruited to chromatin
Polycomb Repressive Complex 2 (PRC2) Is recruited to chromatin
Polycomb Repressive Complex 2 (PRC2) Is recruited to chromatin
Polycomb Repressive Complex 2 (PRC2) Is recruited to chromatin
Polycomb Repressive Complex 2 (PRC2) Is recruited to chromatin
Polycomb Repressive Complex 2 (PRC2) Is recruited to chromatin
Polycomb Repressive Complex 2 (PRC2) Is recruited to chromatin
Polycomb Repressive Complex 2 (PRC2) Is recruited to chromatin
Polyubiquitination of substrate
Polyubiquitination of substrate
Polyubiquitination of substrate
Polyubiquitination of substrate
Polyubiquitination of substrate
Polyubiquitination of substrate
Polyubiquitination of substrate
Polyubiquitination of substrate
Polyubiquitination of substrate
Polyubiquitination of substrate
Polyubiquitination of substrate
Potassium voltage-gated channels close in reponse to PKA
Potassium voltage-gated channels close in reponse to PKA
Potassium voltage-gated channels close in reponse to PKA
Potassium voltage-gated channels close in reponse to PKA
Potassium voltage-gated channels close in reponse to PKA
Potassium voltage-gated channels close in reponse to PKA
Potassium voltage-gated channels close in reponse to PKA
Potassium voltage-gated channels close in reponse to PKA
Potassium voltage-gated channels close in reponse to PKA
Potassium voltage-gated channels close in reponse to PKA
Potassium voltage-gated channels close in reponse to PKA
Potassium voltage-gated channels close in reponse to PKA
PP2A dephosphorylates AXIN in the destruction complex
PP2A dephosphorylates AXIN in the destruction complex
PP2A dephosphorylates AXIN in the destruction complex
PP2A dephosphorylates AXIN in the destruction complex
PP2A dephosphorylates AXIN in the destruction complex
PP2A dephosphorylates AXIN in the destruction complex
PP2A dephosphorylates AXIN in the destruction complex
PP2A dephosphorylates AXIN in the destruction complex
PP2A dephosphorylates AXIN in the destruction complex
PP2A dephosphorylates AXIN in the destruction complex
PP2A dephosphorylates AXIN in the destruction complex
Pre-pro-defensins are cleaved to remove the signal peptide
Pre-pro-defensins are cleaved to remove the signal peptide
Pre-pro-defensins are cleaved to remove the signal peptide
Pre-pro-defensins are cleaved to remove the signal peptide
Pre-pro-defensins are cleaved to remove the signal peptide
Pre-pro-defensins are cleaved to remove the signal peptide
PRICKLE1 is degraded by the proteasome
PRICKLE1 is degraded by the proteasome
PRICKLE1 is degraded by the proteasome
PRICKLE1 is degraded by the proteasome
PRICKLE1 is degraded by the proteasome
PRICKLE1 is degraded by the proteasome
PRICKLE1 is degraded by the proteasome
PRICKLE1 is degraded by the proteasome
PRICKLE1 is degraded by the proteasome
PRICKLE1 is degraded by the proteasome
Primary piRNA transcript translocates from nucleoplasm to cytosol
PRKCB (PKC-beta) phosphorylates of CARMA1
PRKCB (PKC-beta) phosphorylates of CARMA1
PRKCB (PKC-beta) phosphorylates of CARMA1
PRKCB (PKC-beta) phosphorylates of CARMA1
PRKCB (PKC-beta) phosphorylates of CARMA1
PRKCB (PKC-beta) phosphorylates of CARMA1
PRKCB (PKC-beta) phosphorylates of CARMA1
PRKCB (PKC-beta) phosphorylates of CARMA1
PRKCB (PKC-beta) phosphorylates of CARMA1
PRLR activation
PRLR activation
PRLR activation
PRLR activation
PRLR activation
PRLR activation
PRLR activation
PRLR activation
PRLR activation
PRLR activation
PRLR is phosphorylated at Ser-349
PRLR is phosphorylated at Ser-349
PRLR is phosphorylated at Ser-349
PRLR is phosphorylated at Ser-349
PRLR is phosphorylated at Ser-349
PRLR is phosphorylated at Ser-349
PRLR is phosphorylated at Ser-349
PRLR is phosphorylated at Ser-349
PRLR is phosphorylated at Ser-349
PRLR is phosphorylated at Ser-349
PRMT5:pT5-WDR77 methylates arginine-4 of histone H2A (H2AR3)
processing defective Hh variants are degraded by the proteasome
Processing of classical PDGFs
Processing of classical PDGFs
Processing of classical PDGFs
Processing of classical PDGFs
Processing of classical PDGFs
Processing of classical PDGFs
Processing of classical PDGFs
Processing of classical PDGFs
Processing of classical PDGFs
Processing of classical PDGFs
Processing of Proinsulin to Insulin
Processing of Proinsulin to Insulin
Processing of Proinsulin to Insulin
Processing of Proinsulin to Insulin
Processing of Proinsulin to Insulin
Processing of Proinsulin to Insulin
Processing of Proinsulin to Insulin
Processing of Proinsulin to Insulin
Processive synthesis on the leading strand
Processive synthesis on the leading strand
Processive synthesis on the leading strand
Processive synthesis on the leading strand
Processive synthesis on the leading strand
Processive synthesis on the leading strand
Processive synthesis on the leading strand
Processive synthesis on the leading strand
Processive synthesis on the leading strand
Processive synthesis on the leading strand
Processive synthesis on the leading strand
Production of AA by iPLA2 upon FCGR activation
Production of AA by iPLA2 upon FCGR activation
Production of AA by iPLA2 upon FCGR activation
Production of AA by iPLA2 upon FCGR activation
Production of AA by iPLA2 upon FCGR activation
Production of AA by iPLA2 upon FCGR activation
Production of AA by iPLA2 upon FCGR activation
Production of AA by iPLA2 upon FCGR activation
Production of AA by iPLA2 upon FCGR activation
Production of AA by iPLA2 upon FCGR activation
Production of AA by iPLA2 upon FCGR activation
Production of AA by iPLA2 upon FCGR activation
Production of AA by iPLA2 upon FCGR activation
Production of AA by iPLA2 upon FCGR activation
Production of AA by iPLA2 upon FCGR activation
Production of AA by iPLA2 upon FCGR activation
ProGIP translocates from the ER Lumen to secretory granules
ProGIP translocates from the ER Lumen to secretory granules
ProGIP translocates from the ER Lumen to secretory granules
ProGIP translocates from the ER Lumen to secretory granules
ProGIP translocates from the ER Lumen to secretory granules
ProGIP translocates from the ER Lumen to secretory granules
Proglucagon translocates from the ER Lumen to secretory granules
Proglucagon translocates from the ER Lumen to secretory granules
Proglucagon translocates from the ER Lumen to secretory granules
Proglucagon translocates from the ER Lumen to secretory granules
Proglucagon translocates from the ER Lumen to secretory granules
Proglucagon translocates from the ER Lumen to secretory granules
Proglucagon translocates from the ER Lumen to secretory granules
Proglucagon translocates from the ER Lumen to secretory granules
Proglucagon translocates from the ER Lumen to secretory granules
Proglucagon translocates from the ER Lumen to secretory granules
Proinsulin:Zinc:Calcium complex translocates to immature secretory granule
Proinsulin:Zinc:Calcium complex translocates to immature secretory granule
Proinsulin:Zinc:Calcium complex translocates to immature secretory granule
Proinsulin:Zinc:Calcium complex translocates to immature secretory granule
Proinsulin:Zinc:Calcium complex translocates to immature secretory granule
Proinsulin:Zinc:Calcium complex translocates to immature secretory granule
Proinsulin:Zinc:Calcium complex translocates to immature secretory granule
Proinsulin:Zinc:Calcium complex translocates to immature secretory granule
Prolactin receptor is internalized
Prolactin receptor is internalized
Prolactin receptor is internalized
Prolactin receptor is internalized
Prolactin receptor is internalized
Prolactin receptor is internalized
Prolactin receptor is internalized
Prolactin receptor is internalized
Prolactin receptor is internalized
Proteasomal cleavage of ovalbumin (OVA)
Proteasomal cleavage of substrate
Proteasomal cleavage of substrate
Proteasomal cleavage of substrate
Proteasomal cleavage of substrate
Proteasomal cleavage of substrate
Proteasomal cleavage of substrate
Proteasomal cleavage of substrate
Proteasomal cleavage of substrate
Proteasomal cleavage of substrate
Proteasomal cleavage of substrate
Proteasomal cleavage of substrate
Proteasomal cleavage of substrate
Proteasomal cleavage of substrate
Proteasomal cleavage of substrate
Proteasomal cleavage of substrate
Proteasomal cleavage of substrate
Proteasomal cleavage of substrate
Proteasomal cleavage of substrate
Proteasomal cleavage of substrate
Proteasomal cleavage of substrate
Proteasomal cleavage of substrate
Proteasomal cleavage of substrate
Proteasomal cleavage of substrate
Proteasomal cleavage of substrate
Proteasomal cleavage of substrate
Proteasomal cleavage of substrate
Proteasomal cleavage of substrate
Proteasomal cleavage of substrate
Proteasomal cleavage of substrate
Proteasomal cleavage of substrate
Proteasomal cleavage of substrate
Proteasomal cleavage of substrate
Proteasomal cleavage of substrate
Proteasomal cleavage of substrate
Proteasomal clevage of exogenous antigen
Proteasomal clevage of exogenous antigen
Proteasomal clevage of exogenous antigen
Proteasomal clevage of exogenous antigen
Proteasomal clevage of exogenous antigen
Proteasomal clevage of exogenous antigen
Proteasomal clevage of exogenous antigen
Proteasomal clevage of exogenous antigen
Proteasomal clevage of exogenous antigen
Proteasomal clevage of exogenous antigen
Proteasomal clevage of exogenous antigen
Proteasomal clevage of exogenous antigen
Proteasomal clevage of exogenous antigen
Proteasomal clevage of exogenous antigen
Proteasomal clevage of exogenous antigen
Proteasomal clevage of exogenous antigen
Proteasomal clevage of exogenous antigen
Proteasome mediated degradation of COP1
Proteasome mediated degradation of COP1
Proteasome mediated degradation of COP1
Proteasome mediated degradation of COP1
Proteasome mediated degradation of COP1
Proteasome mediated degradation of COP1
Proteasome mediated degradation of COP1
Proteasome mediated degradation of COP1
Proteasome mediated degradation of COP1
Proteasome mediated degradation of COP1
Proteasome mediated degradation of COP1
Proteasome mediated degradation of COP1
Proteasome mediated degradation of Cyclin D1
Proteasome mediated degradation of Cyclin D1
Proteasome mediated degradation of Cyclin D1
Proteasome mediated degradation of Cyclin D1
Proteasome mediated degradation of Cyclin D1
Proteasome mediated degradation of Cyclin D1
Proteasome mediated degradation of Cyclin D1
Proteasome mediated degradation of Cyclin D1
Proteasome mediated degradation of Cyclin D1
Proteasome mediated degradation of Cyclin D1
Proteasome mediated degradation of Cyclin D1
Proteasome mediated degradation of PAK-2p34
Proteasome mediated degradation of PAK-2p34
Proteasome mediated degradation of PAK-2p34
Proteasome mediated degradation of PAK-2p34
Proteasome mediated degradation of PAK-2p34
Proteasome mediated degradation of PAK-2p34
Proteasome mediated degradation of PAK-2p34
Proteasome mediated degradation of PAK-2p34
Proteasome mediated degradation of PAK-2p34
Proteasome mediated degradation of PAK-2p34
Proteasome mediated degradation of PAK-2p34
Proteasome mediated degradation of PAK-2p34
Proteasome mediated degradation of PAK-2p34
Proteasome proteolyzes ub-HIF-alpha
Proteasome proteolyzes ub-HIF-alpha
Proteasome proteolyzes ub-HIF-alpha
Proteasome proteolyzes ub-HIF-alpha
Proteasome proteolyzes ub-HIF-alpha
Proteasome proteolyzes ub-HIF-alpha
Proteasome proteolyzes ub-HIF-alpha
Proteasome proteolyzes ub-HIF-alpha
Proteasome proteolyzes ub-HIF-alpha
Proteasome proteolyzes ub-HIF-alpha
Proteolytic cleavage of complement factor C4
Proteolytic degradation of ubiquitinated-Cdc25A
Proteolytic degradation of ubiquitinated-Cdc25A
Proteolytic degradation of ubiquitinated-Cdc25A
Proteolytic degradation of ubiquitinated-Cdc25A
Proteolytic degradation of ubiquitinated-Cdc25A
Proteolytic degradation of ubiquitinated-Cdc25A
Proteolytic degradation of ubiquitinated-Cdc25A
Proteolytic degradation of ubiquitinated-Cdc25A
Proteolytic degradation of ubiquitinated-Cdc25A
Proteolytic degradation of ubiquitinated-Cdc25A
Proteolytic degradation of ubiquitinated-Cdc25A
Proteolytic degradation of ubiquitinated-Cdc25A
Proteolytic degradation of ubiquitinated-Cdc25A
Proteolytic degradation of ubiquitinated-Cdc25A
Proteosome-mediated degradation of APOBEC3G
PTCH is internalized
PTCH is internalized
PTCH is internalized
PTCH is internalized
PTCH is internalized
PTCH is internalized
PTCH is internalized
PTCH is internalized
PTCH is internalized
PTCH is internalized
PTCH is internalized
PTCH is internalized
PTCH1 inhibits accumulation of SMO in the primary cilium in the absence of Hh signal
PTCH1 inhibits accumulation of SMO in the primary cilium in the absence of Hh signal
PTCH1 inhibits accumulation of SMO in the primary cilium in the absence of Hh signal
PTCH1 inhibits accumulation of SMO in the primary cilium in the absence of Hh signal
PTCH1 inhibits accumulation of SMO in the primary cilium in the absence of Hh signal
PTCH1 inhibits accumulation of SMO in the primary cilium in the absence of Hh signal
PTCH1 inhibits accumulation of SMO in the primary cilium in the absence of Hh signal
PTCH1 inhibits accumulation of SMO in the primary cilium in the absence of Hh signal
PTCH1 inhibits accumulation of SMO in the primary cilium in the absence of Hh signal
PTCH1 inhibits accumulation of SMO in the primary cilium in the absence of Hh signal
PTCH1 inhibits accumulation of SMO in the primary cilium in the absence of Hh signal
PTEN mRNA translation negatively regulated by microRNAs
Pyk2 is activated following IL2 stimulation
Pyk2 is activated following IL2 stimulation
Pyk2 is activated following IL2 stimulation
Pyk2 is activated following IL2 stimulation
Pyk2 is activated following IL2 stimulation
Pyk2 is activated following IL2 stimulation
Pyk2 is activated following IL2 stimulation
Pyk2 is activated following IL2 stimulation
Pyk2 is activated following IL2 stimulation
RAS signaling and prolonged interferon-beta stimulation promote generation of reactive oxygen species (ROS)
Rasgrp1 and Rasgrp3 are recruited to the membrane and phosphorylated
RasGRP1 and RasGRP3 binds diacylglycerol and is phosphorylated
RasGRP1 and RasGRP3 binds diacylglycerol and is phosphorylated
RasGRP1 and RasGRP3 binds diacylglycerol and is phosphorylated
RasGRP1 and RasGRP3 binds diacylglycerol and is phosphorylated
RasGRP1 and RasGRP3 binds diacylglycerol and is phosphorylated
RasGRP1 and RasGRP3 binds diacylglycerol and is phosphorylated
RasGRP1 and RasGRP3 binds diacylglycerol and is phosphorylated
RasGRP1 and RasGRP3 binds diacylglycerol and is phosphorylated
RasGRP1 and RasGRP3 binds diacylglycerol and is phosphorylated
RasGRP1 and RasGRP3 binds diacylglycerol and is phosphorylated
RasGRP1 and RasGRP3 binds diacylglycerol and is phosphorylated
RasGRP1 and RasGRP3 binds diacylglycerol and is phosphorylated
RasGRP1 and RasGRP3 binds diacylglycerol and is phosphorylated
RBP-Jkappa transactivates Hes1 in the presence of NICD
RBP3 regulates atROL taken up by Muller cells
RBP3 regulates atROL taken up by Muller cells
RBP3 regulates atROL taken up by Muller cells
RBP3 regulates atROL taken up by Muller cells
RBP3 regulates atROL taken up by Muller cells
RBP3 regulates atROL taken up by Muller cells
RBP3 regulates atROL taken up by Muller cells
RBP3 regulates atROL taken up by Muller cells
RBP3 regulates atROL taken up by Muller cells
RBP3 regulates atROL taken up by Muller cells
RBP3 regulates the transport of atROL from ROS to RPE
RBP3 regulates the transport of atROL from ROS to RPE
RBP3 regulates the transport of atROL from ROS to RPE
RBP3 regulates the transport of atROL from ROS to RPE
RBP3 regulates the transport of atROL from ROS to RPE
RBP3 regulates the transport of atROL from ROS to RPE
RBP3 regulates the transport of atROL from ROS to RPE
RBP3 regulates the transport of atROL from ROS to RPE
RBP3 regulates the transport of atROL from ROS to RPE
RBP3 regulates the transport of atROL from ROS to RPE
RBPJ- and NOTCH1-dependent synthesis of HES1 protein during morphogenesis
RBPJ- and NOTCH1-dependent synthesis of HES1 protein during morphogenesis
RBPJ- and NOTCH1-dependent synthesis of HES1 protein during morphogenesis
RBPJ- and NOTCH1-dependent synthesis of HES1 protein during morphogenesis
RBPJ- and NOTCH1-dependent synthesis of HES1 protein during morphogenesis
RBPJ- and NOTCH1-dependent synthesis of HES1 protein during morphogenesis
RBPJ- and NOTCH1-dependent synthesis of HES1 protein during morphogenesis
RBPJ- and NOTCH1-dependent synthesis of HES1 protein during morphogenesis
Re-acidification of clathrin sculpted monoamine tranport vesicle lumen
Re-acidification of the clathrin sculpted acetylcholine transport vesicle
Re-integration of insulin receptor into plasma membrane
Re-integration of insulin receptor into plasma membrane
Re-integration of insulin receptor into plasma membrane
Re-integration of insulin receptor into plasma membrane
Re-integration of insulin receptor into plasma membrane
Re-integration of insulin receptor into plasma membrane
Re-integration of insulin receptor into plasma membrane
Re-integration of insulin receptor into plasma membrane
Re-integration of insulin receptor into plasma membrane
Re-integration of insulin receptor into plasma membrane
Re-integration of insulin receptor into plasma membrane
Regulation of protein ISGylation by ISG15 deconjugating enzyme USP18
Regulation of protein ISGylation by ISG15 deconjugating enzyme USP18
Regulation of protein ISGylation by ISG15 deconjugating enzyme USP18
Regulation of protein ISGylation by ISG15 deconjugating enzyme USP18
Regulation of protein ISGylation by ISG15 deconjugating enzyme USP18
Regulation of protein ISGylation by ISG15 deconjugating enzyme USP18
Regulation of protein ISGylation by ISG15 deconjugating enzyme USP18
Regulation of protein ISGylation by ISG15 deconjugating enzyme USP18
Regulation of protein ISGylation by ISG15 deconjugating enzyme USP18
Release of novel PDGFs as latent factors
Release of novel PDGFs as latent factors
Release of novel PDGFs as latent factors
Release of novel PDGFs as latent factors
Release of novel PDGFs as latent factors
Release of novel PDGFs as latent factors
Release of novel PDGFs as latent factors
Release of novel PDGFs as latent factors
Release of novel PDGFs as latent factors
Release of novel PDGFs as latent factors
Removal of miRNA passenger strand
Removal of miRNA passenger strand
Removal of miRNA passenger strand
Removal of miRNA passenger strand
Removal of miRNA passenger strand
Removal of miRNA passenger strand
Removal of miRNA passenger strand
Removal of miRNA passenger strand
Removal of miRNA passenger strand
Removal of miRNA passenger strand
Removal of miRNA passenger strand
Removal of miRNA passenger strand
Removal of miRNA passenger strand
Removal of miRNA passenger strand
Removal of siRNA passenger strand
Removal of siRNA passenger strand
Removal of siRNA passenger strand
Removal of siRNA passenger strand
Removal of siRNA passenger strand
Removal of siRNA passenger strand
Removal of siRNA passenger strand
Removal of siRNA passenger strand
Removal of siRNA passenger strand
Removal of siRNA passenger strand
Removal of siRNA passenger strand
Removal of siRNA passenger strand
Removal of siRNA passenger strand
Removal of siRNA passenger strand
Removal of Spo11 and Resection of 5' Ends of DNA
Removal of SPO11 and Resection of 5' Ends of DNA (yeast)
Resolution of meiotic holliday junction
Resolution of Meiotic Holliday Junction
Resolution of meiotic holliday junction
Resolution of meiotic holliday junction
Resolution of meiotic holliday junction
Resolution of meiotic holliday junction
Resolution of meiotic holliday junction
Retrograde IFT
Retrograde IFT
Retrograde IFT
Retrograde IFT
Retrograde IFT
Retrograde IFT
Retrograde IFT
Retrograde IFT
Retrograde IFT
Retrograde IFT
Retrograde IFT
Retrograde transport of internalized TeNT HC:LC:gangliosides
Retromer recycles WLS to the Golgi
Retromer recycles WLS to the Golgi
Retromer recycles WLS to the Golgi
Retromer recycles WLS to the Golgi
Retromer recycles WLS to the Golgi
Retromer recycles WLS to the Golgi
Retromer recycles WLS to the Golgi
Retromer recycles WLS to the Golgi
Retromer recycles WLS to the Golgi
Retromer recycles WLS to the Golgi
Retromer recycles WLS to the Golgi
Retromer recycles WLS to the Golgi
Retromer recycles WLS to the Golgi
Retromer recycles WLS to the Golgi
RNA polymerase II polymerizes primary piRNA transcript
RNA polymerase II polymerizes primary piRNA transcript
RNA polymerase III transcribes microbial dsDNA to dsRNA
RNA polymerase III transcribes microbial dsDNA to dsRNA
RNA polymerase III transcribes microbial dsDNA to dsRNA
RNA polymerase III transcribes microbial dsDNA to dsRNA
RNA polymerase III transcribes microbial dsDNA to dsRNA
RNA polymerase III transcribes microbial dsDNA to dsRNA
RNA polymerase III transcribes microbial dsDNA to dsRNA
RNA polymerase III transcribes microbial dsDNA to dsRNA
RNA polymerase III transcribes microbial dsDNA to dsRNA
RNA polymerase III transcribes microbial dsDNA to dsRNA
RNA polymerase III transcribes microbial dsDNA to dsRNA
RNA polymerase III transcribes microbial dsDNA to dsRNA
RNA polymerase III transcribes microbial dsDNA to dsRNA
RNA polymerase III transcribes microbial dsDNA to dsRNA
RNA polymerase III transcribes microbial dsDNA to dsRNA
RNF125 mediated ubiquitination of RIG-I, MDA5 and IPS-1
RNF125 mediated ubiquitination of RIG-I, MDA5 and IPS-1
RNF125 mediated ubiquitination of RIG-I, MDA5 and IPS-1
RNF125 mediated ubiquitination of RIG-I, MDA5 and IPS-1
RNF125 mediated ubiquitination of RIG-I, MDA5 and IPS-1
RNF125 mediated ubiquitination of RIG-I, MDA5 and IPS-1
RNF125 mediated ubiquitination of RIG-I, MDA5 and IPS-1
RNF125 mediated ubiquitination of RIG-I, MDA5 and IPS-1
RNF125 mediated ubiquitination of RIG-I, MDA5 and IPS-1
Role of myosins in phagosome formation
Role of myosins in phagosome formation
Role of myosins in phagosome formation
Role of myosins in phagosome formation
Role of myosins in phagosome formation
Role of myosins in phagosome formation
Role of myosins in phagosome formation
Role of myosins in phagosome formation
ROS induce double strand DNA breaks
ROS oxidize thioredoxin
ROS oxidize thioredoxin
ROS oxidize thioredoxin
ROS oxidize thioredoxin
ROS oxidize thioredoxin
ROS oxidize thioredoxin
ROS oxidize thioredoxin
ROS oxidize thioredoxin
ROS oxidize thioredoxin
ROS oxidize thioredoxin
ROS oxidize thioredoxin
ROS oxidize thioredoxin
ROS oxidize thioredoxin
ROS oxidize thioredoxin
ROS oxidize thioredoxin
ROS oxidize thioredoxin
ROS oxidize thioredoxin
RSF complex binds the centromere
RSF complex binds the centromere
RSF complex binds the centromere
RSF complex binds the centromere
RSF complex binds the centromere
RSF complex binds the centromere
RSF complex binds the centromere
SCARA5:ligand is endocytosed
SCARA5:ligand is endocytosed
SCARA5:ligand is endocytosed
SCARA5:ligand is endocytosed
SCARA5:ligand is endocytosed
SCARA5:ligand is endocytosed
SCARA5:ligand is endocytosed
SCARA5:ligand is endocytosed
SCARB1:ligand is endocytosed
SCARB1:ligand is endocytosed
SCARB1:ligand is endocytosed
SCARB1:ligand is endocytosed
SCARB1:ligand is endocytosed
SCARB1:ligand is endocytosed
SCARB1:ligand is endocytosed
SCARB1:ligand is endocytosed
SCARB1:ligand is endocytosed
SCARB1:ligand is endocytosed
SCARB1:ligand is endocytosed
SCARF1:ligand is endocytosed
SCARF1:ligand is endocytosed
SCARF1:ligand is endocytosed
SCARF1:ligand is endocytosed
SCARF1:ligand is endocytosed
SCARF1:ligand is endocytosed
SCARF1:ligand is endocytosed
SCARF1:ligand is endocytosed
SCARF1:ligand is endocytosed
SCARF1:ligand is endocytosed
SCARF1:ligand is endocytosed
SCF-beta-TRCP ubiquitinates p-7S-p100:RELB in active NIK:p-176,S180-IKKA dimer:p-7S-p100:SCF-beta-TRCP
SCF-beta-TRCP ubiquitinates p-7S-p100:RELB in active NIK:p-176,S180-IKKA dimer:p-7S-p100:SCF-beta-TRCP
SCF-beta-TRCP ubiquitinates p-7S-p100:RELB in active NIK:p-176,S180-IKKA dimer:p-7S-p100:SCF-beta-TRCP
SCF-beta-TRCP ubiquitinates p-7S-p100:RELB in active NIK:p-176,S180-IKKA dimer:p-7S-p100:SCF-beta-TRCP
SCF-beta-TRCP ubiquitinates p-7S-p100:RELB in active NIK:p-176,S180-IKKA dimer:p-7S-p100:SCF-beta-TRCP
SCF-beta-TrCP ubiquitinylates IkB
SCF-beta-TrCP ubiquitinylates IkB
SCF-beta-TrCP ubiquitinylates IkB
SCF-beta-TrCP ubiquitinylates IkB
SCF-beta-TrCP ubiquitinylates IkB
SCF-beta-TrCP ubiquitinylates IkB
SCF-beta-TrCP ubiquitinylates IkB
SCF-beta-TrCP ubiquitinylates IkB
SCF-mediated degradation of Emi1
SCF-mediated degradation of Emi1
SCF-mediated degradation of Emi1
SCF-mediated degradation of Emi1
SCF-mediated degradation of Emi1
SCF-mediated degradation of Emi1
SCF-mediated degradation of Emi1
SCF-mediated degradation of Emi1
SDC2 multimerises
SDC2 multimerises
SDC2 multimerises
SDC2 multimerises
SDC2 multimerises
SDC2 multimerises
SDC2 multimerises
SDC2 multimerises
SDC2 multimerises
SDC2 multimerises
Secretion of collagens
Secretion of collagens
Secretion of collagens
Secretion of collagens
Secretion of collagens
Secretion of collagens
Secretion of collagens
Secretion of collagens
Secretion of collagens
Secretion of collagens
Secretion of collagens
Secretion of SOD3
Secretion of SOD3
Secretion of SOD3
Secretion of SOD3
Secretion of SOD3
Secretion of SOD3
Secretion of SOD3
Secretion of SOD3
Secretion of SOD3
Secretion of SOD3
Secretion of SOD3
Secretion of SOD3
Secretion of SOD3
Secretion of SOD3
Secretion of transmembrane collagens
Secretion of transmembrane collagens
Secretion of transmembrane collagens
Secretion of transmembrane collagens
Secretion of transmembrane collagens
Secretion of transmembrane collagens
Secretion of transmembrane collagens
Secretion of transmembrane collagens
Secretion of transmembrane collagens
Secretion of transmembrane collagens
Secretion of transmembrane collagens
Secretion of transmembrane collagens
Sequestering and phosphorylation Fc gamma receptors in the lipid rafts
Sequestering and phosphorylation Fc gamma receptors in the lipid rafts
Sequestering and phosphorylation Fc gamma receptors in the lipid rafts
Sequestering and phosphorylation Fc gamma receptors in the lipid rafts
Sequestering and phosphorylation Fc gamma receptors in the lipid rafts
Sequestering and phosphorylation Fc gamma receptors in the lipid rafts
Sequestering and phosphorylation Fc gamma receptors in the lipid rafts
Sequestering and phosphorylation Fc gamma receptors in the lipid rafts
Serine phosphorylation of STATs
Serine phosphorylation of STATs
Serine phosphorylation of STATs
Serine phosphorylation of STATs
Serine phosphorylation of STATs
Serine phosphorylation of STATs
Serine phosphorylation of STATs
Serine phosphorylation of STATs
Serine phosphorylation of STATs
Serine phosphorylation of STATs
SFKs phosphorylates RAF1 on Y340,Y341
SFKs phosphorylates RAF1 on Y340,Y341
SFKs phosphorylates RAF1 on Y340,Y341
SFKs phosphorylates RAF1 on Y340,Y341
SFKs phosphorylates RAF1 on Y340,Y341
SFKs phosphorylates RAF1 on Y340,Y341
SFKs phosphorylates RAF1 on Y340,Y341
SFKs phosphorylates RAF1 on Y340,Y341
SFKs phosphorylates RAF1 on Y340,Y341
SFKs phosphorylates RAF1 on Y340,Y341
SFKs phosphorylates RAF1 on Y340,Y341
SFKs phosphorylates RAF1 on Y340,Y341
SHC1 bound to integrin alphaIIb beta3 is phosphorylated somehow
SHC1 bound to integrin alphaIIb beta3 is phosphorylated somehow
SHC1 bound to integrin alphaIIb beta3 is phosphorylated somehow
SHC1 bound to integrin alphaIIb beta3 is phosphorylated somehow
SHC1 bound to integrin alphaIIb beta3 is phosphorylated somehow
SHC1 bound to integrin alphaIIb beta3 is phosphorylated somehow
SHC1 bound to integrin alphaIIb beta3 is phosphorylated somehow
SHC1 bound to integrin alphaIIb beta3 is phosphorylated somehow
SHC1 bound to integrin alphaIIb beta3 is phosphorylated somehow
SHC1 bound to integrin alphaIIb beta3 is phosphorylated somehow
SHC1 bound to integrin alphaIIb beta3 is phosphorylated somehow
SHC1 bound to integrin alphaIIb beta3 is phosphorylated somehow
SHC1 dissociates from integrin alphaIIb beta3
SHC1 dissociates from integrin alphaIIb beta3
SHC1 dissociates from integrin alphaIIb beta3
SHC1 dissociates from integrin alphaIIb beta3
SHC1 dissociates from integrin alphaIIb beta3
SHC1 dissociates from integrin alphaIIb beta3
SHC1 dissociates from integrin alphaIIb beta3
SHC1 dissociates from integrin alphaIIb beta3
SHC1 dissociates from integrin alphaIIb beta3
SHC1 dissociates from integrin alphaIIb beta3
SHC1 dissociates from integrin alphaIIb beta3
SHC1 dissociates from integrin alphaIIb beta3
SHC1 mediates cytokine-induced phosphorylation of GAB2
SHC1 mediates cytokine-induced phosphorylation of GAB2
SHC1 mediates cytokine-induced phosphorylation of GAB2
SHC1 mediates cytokine-induced phosphorylation of GAB2
SHC1 mediates cytokine-induced phosphorylation of GAB2
SHC1 mediates cytokine-induced phosphorylation of GAB2
SHC1 mediates cytokine-induced phosphorylation of GAB2
SHC1 mediates cytokine-induced phosphorylation of GAB2
SHC1 mediates cytokine-induced phosphorylation of GAB2
SHC1 mediates cytokine-induced phosphorylation of GAB2
Signalosomes assemble at the activated BCR
Signalosomes assemble at the activated BCR
Signalosomes assemble at the activated BCR
Signalosomes assemble at the activated BCR
Signalosomes assemble at the activated BCR
Signalosomes assemble at the activated BCR
Slc22a17 binds Lcn2, internalising it, releasing Fe3+
SLP-76 stimulates PLC gamma 2
SLP-76 stimulates PLC gamma 2
SLP-76 stimulates PLC gamma 2
SLP-76 stimulates PLC gamma 2
SLP-76 stimulates PLC gamma 2
SLP-76 stimulates PLC gamma 2
SLP-76 stimulates PLC gamma 2
SLP-76 stimulates PLC gamma 2
SLP-76 stimulates PLC gamma 2
SLP-76 stimulates PLC gamma 2
SMAD2/3:SMAD4 complex positively regulates JUNB transcription
SMAD2/3:SMAD4:SP1 complex stimulates transcription of CDKN2B
SMAD4 MH2 Domain Mutants do not bind phosphorylated SMAD2 and SMAD3
SMG6 hydrolyzes mRNA with premature termination codon
SMG6 hydrolyzes mRNA with premature termination codon
SMG6 hydrolyzes mRNA with premature termination codon
SMG6 hydrolyzes mRNA with premature termination codon
SMG6 hydrolyzes mRNA with premature termination codon
SMG6 hydrolyzes mRNA with premature termination codon
SMG6 hydrolyzes mRNA with premature termination codon
SMG6 hydrolyzes mRNA with premature termination codon
SMG6 hydrolyzes mRNA with premature termination codon
SMG6 hydrolyzes mRNA with premature termination codon
SMG6 hydrolyzes mRNA with premature termination codon
SMG6 hydrolyzes mRNA with premature termination codon
SMG6 hydrolyzes mRNA with premature termination codon
SMG6 hydrolyzes mRNA with premature termination codon
SMO translocates to the cilium
SMO translocates to the cilium
SMO translocates to the cilium
SMO translocates to the cilium
SMO translocates to the cilium
SMO translocates to the cilium
SMO translocates to the cilium
Some HSPGs are secreted to the plasma membrane
Some HSPGs are secreted to the plasma membrane
Some HSPGs are secreted to the plasma membrane
Some HSPGs are secreted to the plasma membrane
Some HSPGs are secreted to the plasma membrane
Some HSPGs are secreted to the plasma membrane
Some HSPGs are secreted to the plasma membrane
Some HSPGs are secreted to the plasma membrane
Some HSPGs are secreted to the plasma membrane
Some HSPGs are secreted to the plasma membrane
Some HSPGs are secreted to the plasma membrane
Some HSPGs are secreted to the plasma membrane
Splicing of HIV RNA transcript
Sprouty lures cytosolic CBL away from EGFR
Sprouty lures cytosolic CBL away from EGFR
Sprouty lures cytosolic CBL away from EGFR
Sprouty lures cytosolic CBL away from EGFR
Sprouty lures cytosolic CBL away from EGFR
Sprouty lures cytosolic CBL away from EGFR
Sprouty lures cytosolic CBL away from EGFR
Sprouty lures cytosolic CBL away from EGFR
Sprouty lures cytosolic CBL away from EGFR
Sprouty lures cytosolic CBL away from EGFR
Sprouty lures cytosolic CBL away from EGFR
Sprouty lures membrane-bound CBL away from EGFR
Sprouty lures membrane-bound CBL away from EGFR
Sprouty lures membrane-bound CBL away from EGFR
Sprouty lures membrane-bound CBL away from EGFR
Sprouty lures membrane-bound CBL away from EGFR
Sprouty lures membrane-bound CBL away from EGFR
Sprouty lures membrane-bound CBL away from EGFR
Sprouty lures membrane-bound CBL away from EGFR
Sprouty lures membrane-bound CBL away from EGFR
Sprouty lures membrane-bound CBL away from EGFR
Sprouty lures membrane-bound CBL away from EGFR
SPRY2 is serine phosphorylated in response to MAPK activation
SPRY2 is serine phosphorylated in response to MAPK activation
SPRY2 is serine phosphorylated in response to MAPK activation
SPRY2 is serine phosphorylated in response to MAPK activation
SPRY2 is serine phosphorylated in response to MAPK activation
SPRY2 is serine phosphorylated in response to MAPK activation
SPRY2 is serine phosphorylated in response to MAPK activation
SPRY2 is serine phosphorylated in response to MAPK activation
SPRY2 is serine phosphorylated in response to MAPK activation
SPRY2 is serine phosphorylated in response to MAPK activation
SPRY2 is serine phosphorylated in response to MAPK activation
Src activation following P2Y purinoceptor activation
Src activation following P2Y purinoceptor activation
Src activation following P2Y purinoceptor activation
Src activation following P2Y purinoceptor activation
Src activation following P2Y purinoceptor activation
Src activation following P2Y purinoceptor activation
Src activation following P2Y purinoceptor activation
Src activation following P2Y purinoceptor activation
Src activation following P2Y purinoceptor activation
Src activation following P2Y purinoceptor activation
Src activation following P2Y purinoceptor activation
Src activation following P2Y purinoceptor activation
Src bound to beta-arrestin-2 is not activated
Src bound to beta-arrestin-2 is not activated
Src bound to beta-arrestin-2 is not activated
Src bound to beta-arrestin-2 is not activated
Src bound to beta-arrestin-2 is not activated
Src bound to beta-arrestin-2 is not activated
Src bound to beta-arrestin-2 is not activated
Src bound to beta-arrestin-2 is not activated
Src bound to beta-arrestin-2 is not activated
Src bound to beta-arrestin-2 is not activated
Src bound to beta-arrestin-2 is not activated
Src is activated
SREBP1A,1C,2 binds SCAP:cholesterol:INSIG and is retained in the endoplasmic reticulum
SREBP1A,1C,2 binds SCAP:cholesterol:INSIG and is retained in the endoplasmic reticulum
SREBP1A,1C,2 binds SCAP:cholesterol:INSIG and is retained in the endoplasmic reticulum
SREBP1A,1C,2 binds SCAP:cholesterol:INSIG and is retained in the endoplasmic reticulum
SREBP1A,1C,2 binds SCAP:cholesterol:INSIG and is retained in the endoplasmic reticulum
SREBP1A,1C,2 binds SCAP:cholesterol:INSIG and is retained in the endoplasmic reticulum
SREBP1A,1C,2 binds SCAP:cholesterol:INSIG and is retained in the endoplasmic reticulum
SREBP1A,1C,2 binds SCAP:cholesterol:INSIG and is retained in the endoplasmic reticulum
SREBP1A,1C,2 binds SCAP:cholesterol:INSIG and is retained in the endoplasmic reticulum
SREBP1A,1C,2 binds SCAP:cholesterol:INSIG and is retained in the endoplasmic reticulum
SREBP1A,1C,2 binds SCAP:INSIG:oxysterol and is retained in the endoplasmic reticulum
SREBP1A,1C,2 binds SCAP:INSIG:oxysterol and is retained in the endoplasmic reticulum
SREBP1A,1C,2 binds SCAP:INSIG:oxysterol and is retained in the endoplasmic reticulum
SREBP1A,1C,2 binds SCAP:INSIG:oxysterol and is retained in the endoplasmic reticulum
SREBP1A,1C,2 binds SCAP:INSIG:oxysterol and is retained in the endoplasmic reticulum
SREBP1A,1C,2 binds SCAP:INSIG:oxysterol and is retained in the endoplasmic reticulum
SREBP1A,1C,2 binds SCAP:INSIG:oxysterol and is retained in the endoplasmic reticulum
SREBP1A,1C,2 binds SCAP:INSIG:oxysterol and is retained in the endoplasmic reticulum
SREBP1A,1C,2 binds SCAP:INSIG:oxysterol and is retained in the endoplasmic reticulum
SREBP1A,1C,2 binds SCAP:INSIG:oxysterol and is retained in the endoplasmic reticulum
SREBP1A,1C,2 translocates to the nucleus
SREBP1A,1C,2 translocates to the nucleus
SREBP1A,1C,2 translocates to the nucleus
SREBP1A,1C,2 translocates to the nucleus
SREBP1A,1C,2 translocates to the nucleus
SREBP1A,1C,2 translocates to the nucleus
SREBP1A,1C,2 translocates to the nucleus
SREBP1A,1C,2 translocates to the nucleus
SREBP1A,1C,2 translocates to the nucleus
SREBP1A,1C,2 translocates to the nucleus
SREBP1A,1C,2 translocates to the nucleus
SREBP1A,1C,2 translocates to the nucleus
SREBP1A,1C,2:SCAP binds CopII Coat Complex
SREBP1A,1C,2:SCAP binds CopII Coat Complex
SREBP1A,1C,2:SCAP binds CopII Coat Complex
SREBP1A,1C,2:SCAP binds CopII Coat Complex
SREBP1A,1C,2:SCAP binds CopII Coat Complex
SREBP1A,1C,2:SCAP binds CopII Coat Complex
SREBP1A,1C,2:SCAP binds CopII Coat Complex
SREBP1A,1C,2:SCAP binds CopII Coat Complex
SREBP1A,1C,2:SCAP binds CopII Coat Complex
SREBP1A,1C,2:SCAP binds CopII Coat Complex
SREBP1A,1C,2:SCAP binds CopII Coat Complex
SREBP1A,1C,2:SCAP binds CopII Coat Complex
SREBP1A,1C,2:SCAP translocates to the Golgi
SREBP1A,1C,2:SCAP translocates to the Golgi
SREBP1A,1C,2:SCAP translocates to the Golgi
SREBP1A,1C,2:SCAP translocates to the Golgi
SREBP1A,1C,2:SCAP translocates to the Golgi
SREBP1A,1C,2:SCAP translocates to the Golgi
SREBP1A,1C,2:SCAP translocates to the Golgi
SREBP1A,1C,2:SCAP translocates to the Golgi
SREBP1A,1C,2:SCAP translocates to the Golgi
SREBP1A,1C,2:SCAP translocates to the Golgi
SREBP1A,1C,2:SCAP translocates to the Golgi
SREBP1A,1C,2:SCAP translocates to the Golgi
SREBP1A/1C/2 is retained in the endoplasmic reticulum by SCAP:cholesterol:INSIG
SREBP2 (SREBF2) is retained in the endoplasmic reticulum by SCAP:INSIG2:oxysterol
SREBP2:SCAP Binds CopII Coat Complex
SREBP2:SCAP Transits to the Golgi
SRF:MKL1 stimulate ITGB1 expression while SCAI inhibits it
STAB1:ligand is endocytosed
STAB1:ligand is endocytosed
STAB1:ligand is endocytosed
STAB1:ligand is endocytosed
STAB1:ligand is endocytosed
STAB1:ligand is endocytosed
STAB1:ligand is endocytosed
STAB1:ligand is endocytosed
STAB1:ligand is endocytosed
STAB2:ligand is endocytosed
STAB2:ligand is endocytosed
STAB2:ligand is endocytosed
STAB2:ligand is endocytosed
STAB2:ligand is endocytosed
STAB2:ligand is endocytosed
STAB2:ligand is endocytosed
STAB2:ligand is endocytosed
STAB2:ligand is endocytosed
STAB2:ligand is endocytosed
STAT1/3 dimers translocate to the nucleus
STAT1/3 dimers translocate to the nucleus
STAT1/3 dimers translocate to the nucleus
STAT1/3 dimers translocate to the nucleus
STAT1/3 dimers translocate to the nucleus
STAT1/3 dimers translocate to the nucleus
STAT1/3 dimers translocate to the nucleus
STAT1/3 dimers translocate to the nucleus
STAT1/3 dimers translocate to the nucleus
STAT1/3 dimers translocate to the nucleus
STAT5 dimers translocate to the nucleus and bind to specific DNA sequences
STAT5 dimers translocate to the nucleus and bind to specific DNA sequences
STAT5 dimers translocate to the nucleus and bind to specific DNA sequences
STAT5 dimers translocate to the nucleus and bind to specific DNA sequences
STAT5 dimers translocate to the nucleus and bind to specific DNA sequences
STAT5 dimers translocate to the nucleus and bind to specific DNA sequences
STAT5 dimers translocate to the nucleus and bind to specific DNA sequences
STAT5 dimers translocate to the nucleus and bind to specific DNA sequences
STAT5 dimers translocate to the nucleus and bind to specific DNA sequences
STAT5 dimers translocate to the nucleus and bind to specific DNA sequences
STAT5 dimers translocate to the nucleus and bind to specific DNA sequences
STAT5 dimers translocate to the nucleus and bind to specific DNA sequences
Stimulation of IL6 transcription in senescent cells
Stimulation of IL6 transcription in senescent cells
Stimulation of IL6 transcription in senescent cells
Stimulation of IL6 transcription in senescent cells
Stimulation of IL6 transcription in senescent cells
Stimulation of IL6 transcription in senescent cells
Stimulation of IL6 transcription in senescent cells
Stimulation of IL6 transcription in senescent cells
Stimulation of IL6 transcription in senescent cells
Stimulation of IL8 transcription in senescent cells
Stimulation of IL8 transcription in senescent cells
Stimulation of IL8 transcription in senescent cells
Stimulation of IL8 transcription in senescent cells
Stimulation of IL8 transcription in senescent cells
Stimulation of IL8 transcription in senescent cells
STING binds c-di-GMP
STING binds c-di-GMP
STING binds c-di-GMP
STING binds c-di-GMP
STING binds c-di-GMP
STING binds c-di-GMP
STING binds c-di-GMP
STING binds c-di-GMP
STING binds c-di-GMP
STING binds c-di-GMP
STING binds c-di-GMP
STING binds cyclic GMP-AMP
STING binds cyclic GMP-AMP
STING binds cyclic GMP-AMP
STING binds cyclic GMP-AMP
STING binds cyclic GMP-AMP
STING binds cyclic GMP-AMP
STING binds cyclic GMP-AMP
STING binds cyclic GMP-AMP
STING binds cyclic GMP-AMP
STING binds cyclic GMP-AMP
STING binds cyclic GMP-AMP
Syk activation leads to SLP-76 activation
Syk activation leads to SLP-76 activation
Syk activation leads to SLP-76 activation
Syk activation leads to SLP-76 activation
Syk activation leads to SLP-76 activation
Syk activation leads to SLP-76 activation
Syk activation leads to SLP-76 activation
Syk activation leads to SLP-76 activation
Syk activation leads to SLP-76 activation
Syk activation leads to SLP-76 activation
Synapsis
Synapsis
Synapsis
Synapsis
Synthesis of ALAS1 nascent polypeptide
Synthesis of ALAS2 nascent polypeptide
Synthesis of Cx26
Synthesis of Cx26
Synthesis of Cx26
Synthesis of Cx26
Synthesis of Cx26
Synthesis of Cx26
Synthesis of Cx26
Synthesis of Cx26
Synthesis of Cx32
Synthesis of Cx32
Synthesis of Cx32
Synthesis of Cx32
Synthesis of Cx32
Synthesis of Cx32
Synthesis of Cx32
Synthesis of Cx32
Synthesis of Cx32
Synthesis of Cx32
Synthesis of Cx43
Synthesis of Cx43
Synthesis of Cx43
Synthesis of Cx43
Synthesis of Cx43
Synthesis of Cx43
Synthesis of Cx43
Synthesis of Cx43
Synthesis of Cx43
Synthesis of Cx43
Synthesis of ENV polyprotein
Synthesis of GAG polyprotein
Synthesis of glyoxylate from hydroxyproline
Synthesis of nascent polypeptide containing signal sequence
Synthesis of nascent polypeptide containing signal sequence
Synthesis of nascent polypeptide containing signal sequence
Synthesis of nascent polypeptide containing signal sequence
Synthesis of nascent polypeptide containing signal sequence
Synthesis of nascent polypeptide containing signal sequence
Synthesis of nascent polypeptide containing signal sequence
Synthesis of nascent polypeptide containing signal sequence
Synthesis of nascent polypeptide containing signal sequence
Synthesis of nascent polypeptide containing signal sequence
Synthesis of nascent polypeptide containing signal sequence
Synthesis of nascent polypeptide containing signal sequence
Synthesis of nascent polypeptide containing signal sequence
Synthesis of nascent polypeptide containing signal sequence
Synthesis of nascent polypeptide containing signal sequence
Synthesis of nascent polypeptide containing signal sequence
Synthesis of nascent polypeptide containing signal sequence
Synthesis of nascent polypeptide containing signal sequence
Synthesis of PB1-F2
Synthesis of prepro-Glucose-dependent Insulinotropic Polypeptide (preproGIP) in intestinal K cells
Synthesis of Preproghrelin
Synthesis of Preproglucagon in intestinal L cells
Synthesis of VPU protein
TAK1 is activated
TAK1 is activated
TAK1 is activated
TAK1 is activated
TAK1 is activated
TAK1 is activated
TAK1 is activated
TAK1 is activated
TAK1 is activated
TAK1 is activated
TAK1 is activated within the TAK1 complex
TAK1 is activated within the TAK1 complex
TAK1 is activated within the TAK1 complex
TAK1 is activated within the TAK1 complex
TAK1 is activated within the TAK1 complex
TAK1 is activated within the TAK1 complex
TAK1 is activated within the TAK1 complex
TAK1 is activated within the TAK1 complex
TAK1 is activated within the TAK1 complex
TAK1 is activated within the TAK1 complex
TANK is ubiquitinated within TANK:K63polyUb-TRAF3:TRIF:activated TLR3/4
TANK is ubiquitinated within TANK:K63polyUb-TRAF3:TRIF:activated TLR3/4
TANK is ubiquitinated within TANK:K63polyUb-TRAF3:TRIF:activated TLR3/4
TANK is ubiquitinated within TANK:K63polyUb-TRAF3:TRIF:activated TLR3/4
TANK is ubiquitinated within TANK:K63polyUb-TRAF3:TRIF:activated TLR3/4
TANK is ubiquitinated within TANK:K63polyUb-TRAF3:TRIF:activated TLR3/4
TANK is ubiquitinated within TANK:K63polyUb-TRAF3:TRIF:activated TLR3/4
TCF/LEF:CTNNB1 promote transcription of AXIN2
TCF7L1/TCF7L2/LEF1:CTNNB1 promote transcription of the MYC gene
TCII:Cbl is degraded to release Cbl
TCII:Cbl is degraded to release Cbl
TCII:Cbl is degraded to release Cbl
TCII:Cbl is degraded to release Cbl
TCII:Cbl is degraded to release Cbl
TCII:Cbl is degraded to release Cbl
TCII:Cbl is degraded to release Cbl
TCII:Cbl is degraded to release Cbl
TCII:Cbl is degraded to release Cbl
Telomere clustering at the nuclear membrane
Telomere shortening during replicative exhaustion
Telomere shortening during replicative exhaustion
Telomere shortening during replicative exhaustion
Telomere shortening during replicative exhaustion
Telomere shortening during replicative exhaustion
Telomere shortening during replicative exhaustion
Telomere shortening during replicative exhaustion
Telomeres cluster at the nuclear membrane
Telomeres cluster at the nuclear membrane
Telomeres cluster at the nuclear membrane
Telomeres cluster at the nuclear membrane
TeNT HC transports TeNT LC from target cell endosome membrane into cytosol
tetracosenoyl-CoA + 8 O2 + 8 H2O + 8 NAD+ + 8 CoASH => octanoyl-CoA + 8 H2O2 + 8 NADH + 8 H+ + 8 acetyl-CoA
TFAM translocates from the cytosol to the mitochondrial matrix
Tfam translocates from the cytosol to the mitochondrial matrix
TFAM translocates from the cytosol to the mitochondrial matrix
TFAM translocates from the cytosol to the mitochondrial matrix
TFAM translocates from the cytosol to the mitochondrial matrix
TFAM translocates from the cytosol to the mitochondrial matrix
TFAM translocates from the cytosol to the mitochondrial matrix
TFAM translocates from the cytosol to the mitochondrial matrix
TFAM translocates from the cytosol to the mitochondrial matrix
TFAM translocates from the cytosol to the mitochondrial matrix
TFAM translocates from the cytosol to the mitochondrial matrix
TGFBR2 KD mutants do not phosphorylate TGFBR1
The BH3 radical can decay to dihydrobiopterin (BH2)
The intraflagellar transport A (IFT-A) complex is required for the transit of GLI:SUFU complexes to the ciliary base
The intraflagellar transport A (IFT-A) complex is required for the transit of GLI:SUFU complexes to the ciliary base
The intraflagellar transport A (IFT-A) complex is required for the transit of GLI:SUFU complexes to the ciliary base
The intraflagellar transport A (IFT-A) complex is required for the transit of GLI:SUFU complexes to the ciliary base
The intraflagellar transport A (IFT-A) complex is required for the transit of GLI:SUFU complexes to the ciliary base
The intraflagellar transport A (IFT-A) complex is required for the transit of GLI:SUFU complexes to the ciliary base
The intraflagellar transport A (IFT-A) complex is required for the transit of GLI:SUFU complexes to the ciliary base
The intraflagellar transport A (IFT-A) complex is required for the transit of GLI:SUFU complexes to the ciliary base
The intraflagellar transport A (IFT-A) complex is required for the transit of GLI:SUFU complexes to the ciliary base
The intraflagellar transport A (IFT-A) complex is required for the transit of GLI:SUFU complexes to the ciliary base
The intraflagellar transport B (IFT-B) complex is required for the transit of GLI:SUFU complexes to the ciliary tip
The intraflagellar transport B (IFT-B) complex is required for the transit of GLI:SUFU complexes to the ciliary tip
The intraflagellar transport B (IFT-B) complex is required for the transit of GLI:SUFU complexes to the ciliary tip
The intraflagellar transport B (IFT-B) complex is required for the transit of GLI:SUFU complexes to the ciliary tip
The intraflagellar transport B (IFT-B) complex is required for the transit of GLI:SUFU complexes to the ciliary tip
The intraflagellar transport B (IFT-B) complex is required for the transit of GLI:SUFU complexes to the ciliary tip
The intraflagellar transport B (IFT-B) complex is required for the transit of GLI:SUFU complexes to the ciliary tip
The intraflagellar transport B (IFT-B) complex is required for the transit of GLI:SUFU complexes to the ciliary tip
The intraflagellar transport B (IFT-B) complex is required for the transit of GLI:SUFU complexes to the ciliary tip
The intraflagellar transport B (IFT-B) complex is required for the transit of GLI:SUFU complexes to the ciliary tip
The receptor is activated
The receptor is activated
The receptor is activated
The receptor is activated
The receptor is activated
The receptor is activated
The receptor is activated
The receptor is activated
The receptor is activated
The receptor is activated
The single sugars GlcA and GlcNAc translocate from the lysosome to the cytosol
Thiosulfate can transfer its sulfate to glutathione
TNRC6A:AGO2:miRNA is transported into the nucleus
TNRC6A:AGO2:miRNA is transported into the nucleus
TNRC6A:AGO2:miRNA is transported into the nucleus
TNRC6A:AGO2:miRNA is transported into the nucleus
TNRC6A:AGO2:miRNA is transported into the nucleus
TNRC6A:AGO2:miRNA is transported into the nucleus
TNRC6A:AGO2:miRNA is transported into the nucleus
TNRC6A:AGO2:miRNA is transported into the nucleus
TNRC6A:AGO2:miRNA is transported into the nucleus
TNRC6A:AGO2:miRNA is transported into the nucleus
TNRC6A:AGO2:miRNA is transported into the nucleus
TP53 stimulates expression of SESN1,2,3 genes
TP53 stimulates GLS2 transcription
TP53 stimulates PTEN transcription
TP53 stimulates SCO2 gene transcription
TP53 stimulates TIGAR expression
TP53 stimulates transcription of RRM2B gene
TP63/TP53 stimulates transcription of DDIT4 gene
TRAF3/or TRAF6 ubiquitination within dsRNA:MDA5:IPS1:TRAF3/TRAF6 complex
TRAF3IB1 recruits IFT20 to the IFT B complex from the Golgi
TRAF3IB1 recruits IFT20 to the IFT B complex from the Golgi
TRAF3IB1 recruits IFT20 to the IFT B complex from the Golgi
TRAF3IB1 recruits IFT20 to the IFT B complex from the Golgi
TRAF3IB1 recruits IFT20 to the IFT B complex from the Golgi
TRAF3IB1 recruits IFT20 to the IFT B complex from the Golgi
TRAF3IB1 recruits IFT20 to the IFT B complex from the Golgi
TRAF3IB1 recruits IFT20 to the IFT B complex from the Golgi
TRAF3IB1 recruits IFT20 to the IFT B complex from the Golgi
TRAF3IB1 recruits IFT20 to the IFT B complex from the Golgi
TRAF6 is auto-ubiquitinated
TRAF6 is auto-ubiquitinated
TRAF6 is auto-ubiquitinated
TRAF6 is auto-ubiquitinated
TRAF6 is auto-ubiquitinated
TRAF6 is auto-ubiquitinated
TRAF6 is auto-ubiquitinated
TRAF6 is auto-ubiquitinated
TRAF6 is auto-ubiquitinated
TRAF6 oligomer autoubiquitinates
TRAF6 oligomer autoubiquitinates
TRAF6 oligomer autoubiquitinates
TRAF6 oligomer autoubiquitinates
TRAF6 oligomer autoubiquitinates
TRAF6 oligomer autoubiquitinates
TRAF6 oligomer autoubiquitinates
TRAF6 oligomer autoubiquitinates
TRAF6 oligomer autoubiquitinates
TRAF6/or TRAF2 ubiquitination within dsRNA:Mda5:Ips1:Traf6/ or Traf2 complex
Trafficking of nonameric complex in the endocytic pathway
Trafficking of nonameric complex in the endocytic pathway
Trafficking of nonameric complex in the endocytic pathway
Trafficking of nonameric complex in the endocytic pathway
Trafficking of nonameric complex in the endocytic pathway
Trafficking of nonameric complex in the endocytic pathway
Tranport of L-Glutamate (mitochondrial matrix) to cytosol
Trans,cis-lauro-2,6-dienoyl-CoA is converted to cis,cis-3,6- 4-cis-decenoyl-CoA by one cycle of beta-oxidation
Transactivation of BBC3 (PUMA) by E2F1
Transactivation of BBC3 (PUMA) by p53
Transactivation of PMAIP1 (NOXA) by E2F1
Transactivation of PMAIP1 (NOXA) by p53
Transcription of beta-casein (CSN2)
Transcription of beta-casein (CSN2)
Transcription of beta-casein (CSN2)
Transcription of beta-casein (CSN2)
Transcription of beta-casein (CSN2)
Transcription of beta-casein (CSN2)
transcription of canonical WNT targets is negatively regulated by NLK-dependent phosphorylation of TCF/LEF
transcription of canonical WNT targets is repressed by the TLE:HDAC and TCF/CTBP complexes
Transcription of E2F targets under negative control by DREAM complex
Transcription of E2F targets under negative control by DREAM complex
Transcription of E2F targets under negative control by DREAM complex
Transcription of E2F targets under negative control by DREAM complex
Transcription of E2F targets under negative control by DREAM complex
Transcription of E2F targets under negative control by DREAM complex
Transcription of E2F targets under negative control by DREAM complex
Transcription of E2F targets under negative control by DREAM complex
Transcription of E2F targets under negative control by DREAM complex
Transcription of E2F targets under negative control by p107 (RBL1) and p130 (RBL2) in complex with HDAC1
Transcription of E2f targets under negative control by p107 (Rbl1) and p130 (Rbl2) in complex with Hdac1
Transcription of E2F targets under negative control by p107 (RBL1) and p130 (RBL2) in complex with HDAC1
Transcription of E2F targets under negative control by p107 (RBL1) and p130 (RBL2) in complex with HDAC1
Transcription of E2F targets under negative control by p107 (RBL1) and p130 (RBL2) in complex with HDAC1
Transcription of E2F targets under negative control by p107 (RBL1) and p130 (RBL2) in complex with HDAC1
Transcription of E2F targets under negative control by p107 (RBL1) and p130 (RBL2) in complex with HDAC1
Transcription of E2F targets under negative control by p107 (RBL1) and p130 (RBL2) in complex with HDAC1
Transcription of E2F targets under negative control by p107 (RBL1) and p130 (RBL2) in complex with HDAC1
Transcription of E2F targets under negative control by p107 (RBL1) and p130 (RBL2) in complex with HDAC1
Transcription of E2F targets under negative control by p107 (RBL1) and p130 (RBL2) in complex with HDAC1
Transcription of E2F targets under negative control by p107 (RBL1) and p130 (RBL2) in complex with HDAC1
Transcription of GFAP and S100B
Transcription of GFAP and S100B
Transcription of GFAP and S100B
Transcription of GFAP and S100B
Transcription of GFAP and S100B
Transcription of GFAP and S100B
Transcription of GFAP and S100B
Transcription of GFAP and S100B
Transcription of NR3C3 and CXCL12
Transcription of NR3C3 and CXCL12
Transcription of NR3C3 and CXCL12
Transcription of NR3C3 and CXCL12
Transcription of NR3C3 and CXCL12
Transcription of NR3C3 and CXCL12
Transcription of NR3C3 and CXCL12
Transcription of NR3C3 and CXCL12
Transcription of NR3C3 and CXCL12
Transcription of NR3C3 and CXCL12
Transcription of POU5F1 (OCT4)
Transcriptional activation of Acetyl-CoA carboxylase by ChREBP:MLX
Transcriptional activation of Acetyl-CoA carboxylase by ChREBP:MLX
Transcriptional activation of Acetyl-CoA carboxylase by ChREBP:MLX
Transcriptional activation of Acetyl-CoA carboxylase by ChREBP:MLX
Transcriptional activation of Acetyl-CoA carboxylase by ChREBP:MLX
Transcriptional activation of Acetyl-CoA carboxylase by ChREBP:MLX
Transcriptional activation of Acetyl-CoA carboxylase by ChREBP:MLX
Transcriptional activation of Acetyl-CoA carboxylase by ChREBP:MLX
Transcriptional activation of Acetyl-CoA carboxylase by ChREBP:MLX
Transcriptional activation of Acetyl-CoA carboxylase by ChREBP:MLX
Transcriptional activation of Acetyl-CoA carboxylase by ChREBP:MLX
Transcriptional activation of Acetyl-CoA carboxylase by ChREBP:MLX
Transcriptional activation of Acetyl-CoA carboxylase by ChREBP:MLX
Transcriptional activation of Acetyl-CoA carboxylase by ChREBP:MLX
Transcriptional activation of Acetyl-CoA carboxylase by ChREBP:MLX
Transcriptional activation of Acetyl-CoA carboxylase by ChREBP:MLX
Transcriptional activation of Acetyl-CoA carboxylase by ChREBP:MLX
Transcriptional activation of CDKN1A by TP53 is inhibited by EP400
Transcriptional activation of Citrate lyase monomer gene by ChREBP:MLX
Transcriptional activation of Citrate lyase monomer gene by ChREBP:MLX
Transcriptional activation of Citrate lyase monomer gene by ChREBP:MLX
Transcriptional activation of Citrate lyase monomer gene by ChREBP:MLX
Transcriptional activation of Citrate lyase monomer gene by ChREBP:MLX
Transcriptional activation of Citrate lyase monomer gene by ChREBP:MLX
Transcriptional activation of Citrate lyase monomer gene by ChREBP:MLX
Transcriptional activation of Citrate lyase monomer gene by ChREBP:MLX
Transcriptional activation of Citrate lyase monomer gene by ChREBP:MLX
Transcriptional activation of Citrate lyase monomer gene by ChREBP:MLX
Transcriptional activation of Citrate lyase monomer gene by ChREBP:MLX
Transcriptional activation of Citrate lyase monomer gene by ChREBP:MLX
Transcriptional activation of Citrate lyase monomer gene by ChREBP:MLX
Transcriptional activation of Citrate lyase monomer gene by ChREBP:MLX
Transcriptional activation of Citrate lyase monomer gene by ChREBP:MLX
Transcriptional activation of Citrate lyase monomer gene by ChREBP:MLX
Transcriptional activation of FAS monomer gene by ChREBP:MLX
Transcriptional activation of FAS monomer gene by ChREBP:MLX
Transcriptional activation of FAS monomer gene by ChREBP:MLX
Transcriptional activation of FAS monomer gene by ChREBP:MLX
Transcriptional activation of FAS monomer gene by ChREBP:MLX
Transcriptional activation of FAS monomer gene by ChREBP:MLX
Transcriptional activation of FAS monomer gene by ChREBP:MLX
Transcriptional activation of FAS monomer gene by ChREBP:MLX
Transcriptional activation of FAS monomer gene by ChREBP:MLX
Transcriptional activation of FAS monomer gene by ChREBP:MLX
Transcriptional activation of FAS monomer gene by ChREBP:MLX
Transcriptional activation of FAS monomer gene by ChREBP:MLX
Transcriptional activation of FAS monomer gene by ChREBP:MLX
Transcriptional activation of GP-acyl transferase gene by ChREBP:MLX
Transcriptional activation of GP-acyl transferase gene by ChREBP:MLX
Transcriptional activation of GP-acyl transferase gene by ChREBP:MLX
Transcriptional activation of GP-acyl transferase gene by ChREBP:MLX
Transcriptional activation of GP-acyl transferase gene by ChREBP:MLX
Transcriptional activation of GP-acyl transferase gene by ChREBP:MLX
Transcriptional activation of GP-acyl transferase gene by ChREBP:MLX
Transcriptional activation of GP-acyl transferase gene by ChREBP:MLX
Transcriptional activation of GP-acyl transferase gene by ChREBP:MLX
Transcriptional activation of GP-acyl transferase gene by ChREBP:MLX
Transcriptional activation of GP-acyl transferase gene by ChREBP:MLX
Transcriptional activation of GP-acyl transferase gene by ChREBP:MLX
Transcriptional activation of GP-acyl transferase gene by ChREBP:MLX
Transcriptional activation of GP-acyl transferase gene by ChREBP:MLX
Transcriptional activation of GP-acyl transferase gene by ChREBP:MLX
Transcriptional activation of GP-acyl transferase gene by ChREBP:MLX
Transcriptional activation of p21 by p53 after DNA damage
Transcriptional activation of pyruvate kinase gene by ChREBP:MLX
Transcriptional activation of pyruvate kinase gene by ChREBP:MLX
Transcriptional activation of pyruvate kinase gene by ChREBP:MLX
Transcriptional activation of pyruvate kinase gene by ChREBP:MLX
Transcriptional activation of pyruvate kinase gene by ChREBP:MLX
Transcriptional activation of pyruvate kinase gene by ChREBP:MLX
Transcriptional activation of pyruvate kinase gene by ChREBP:MLX
Transcriptional activation of pyruvate kinase gene by ChREBP:MLX
Transcriptional activation of pyruvate kinase gene by ChREBP:MLX
Transcriptional activation of pyruvate kinase gene by ChREBP:MLX
Transcriptional activation of pyruvate kinase gene by ChREBP:MLX
Transcriptional activation of pyruvate kinase gene by ChREBP:MLX
Transcriptional activation of pyruvate kinase gene by ChREBP:MLX
Transcriptional activation of pyruvate kinase gene by ChREBP:MLX
Transcriptional activation of pyruvate kinase L isoform gene by mChREBP:mMLX
Transcytosis and dissociation of BoNT/A:NTNHA:HA
Transcytosis and dissociation of BoNT/B:NTNHA:HA
Transcytosis and dissociation of BoNT/E:NTNHA
Translation and translocation of ATF4
Translation of OCT4 mRNA
Translation of OCT4 mRNA
Translation of OCT4 mRNA
Translation of OCT4 mRNA
Translation of OCT4 mRNA
Translation of OCT4 mRNA
Translation of OCT4 mRNA
Translation of p14-ARF mRNA is inhibited by miR-24
Translation of p16-INK4a mRNA is inhibited by miR-24
Translocation of Aquaporin-2 from intracellular vesicles to the apical plasma membrane
Translocation of Aquaporin-2 from intracellular vesicles to the apical plasma membrane
Translocation of Aquaporin-2 from intracellular vesicles to the apical plasma membrane
Translocation of Aquaporin-2 from intracellular vesicles to the apical plasma membrane
Translocation of Aquaporin-2 from intracellular vesicles to the apical plasma membrane
Translocation of Aquaporin-2 from intracellular vesicles to the apical plasma membrane
Translocation of Aquaporin-2 from intracellular vesicles to the apical plasma membrane
Translocation of Aquaporin-2 from intracellular vesicles to the apical plasma membrane
Translocation of Glut4 Vesicle and Docking at the Plasma Membrane
Translocation of GLUT4 Vesicle translocates and docks at the plasma membrane
Translocation of GLUT4 Vesicle translocates and docks at the plasma membrane
Translocation of GLUT4 Vesicle translocates and docks at the plasma membrane
Translocation of GLUT4 Vesicle translocates and docks at the plasma membrane
Translocation of GLUT4 Vesicle translocates and docks at the plasma membrane
Translocation of GLUT4 Vesicle translocates and docks at the plasma membrane
Translocation of Influenza A virus nonstructural protein 1 (NS1A) into the nucleus
translocation of NFATC1:CaN:CaM to nucleus
translocation of NFATC1:CaN:CaM to nucleus
translocation of NFATC1:CaN:CaM to nucleus
translocation of NFATC1:CaN:CaM to nucleus
translocation of NFATC1:CaN:CaM to nucleus
translocation of NFATC1:CaN:CaM to nucleus
translocation of NFATC1:CaN:CaM to nucleus
translocation of NFATC1:CaN:CaM to nucleus
translocation of NFATC1:CaN:CaM to nucleus
translocation of NFATC1:CaN:CaM to nucleus
translocation of NFATC1:CaN:CaM to nucleus
translocation of NFATC1:CaN:CaM to nucleus
translocation of NFATC1:CaN:CaM to nucleus
translocation of NFATC1:CaN:CaM to nucleus
Translocation of peptide bound MHC class I complex to cell surface
Translocation of peptide bound MHC class I complex to cell surface
Translocation of peptide bound MHC class I complex to cell surface
Translocation of peptide bound MHC class I complex to cell surface
Translocation of peptide bound MHC class I complex to cell surface
Translocation of peptide bound MHC class I complex to cell surface
Translocation of peptide bound MHC class I complex to cell surface
Translocation of peptide bound MHC class I complex to cell surface
Translocation of peptide bound MHC class I complex to cell surface
Transphosphorylation of pLIMK1
Transphosphorylation of pLIMK1
Transphosphorylation of pLIMK1
Transphosphorylation of pLIMK1
Transphosphorylation of pLIMK1
Transphosphorylation of pLIMK1
Transphosphorylation of pLIMK1
Transphosphorylation of pLIMK1
Transphosphorylation of pLIMK1
Transphosphorylation of pLIMK1
Transphosphorylation of pLIMK1
Transphosphorylation of pLIMK1
Transphosphorylation of pLIMK1
Transport of antigen loaded MHC II molecules to surface
Transport of antigen loaded MHC II molecules to surface
Transport of antigen loaded MHC II molecules to surface
Transport of antigen loaded MHC II molecules to surface
Transport of antigen loaded MHC II molecules to surface
Transport of antigen loaded MHC II molecules to surface
Transport of fringe-modified NOTCH to plasma membrane
Transport of fringe-modified NOTCH to plasma membrane
Transport of fringe-modified NOTCH to plasma membrane
Transport of fringe-modified NOTCH to plasma membrane
Transport of fringe-modified NOTCH to plasma membrane
Transport of fringe-modified NOTCH to plasma membrane
Transport of fringe-modified NOTCH to plasma membrane
Transport of fringe-modified NOTCH to plasma membrane
Transport of fringe-modified NOTCH to plasma membrane
Transport of fringe-modified NOTCH to plasma membrane
Transport of L-Glutamine (cytosol) to mitochondrial matrix
Transport of MHC II:Ii complex along Golgi to TGN
Transport of MHC II:Ii complex along Golgi to TGN
Transport of MHC II:Ii complex along Golgi to TGN
Transport of MHC II:Ii complex along Golgi to TGN
Transport of MHC II:Ii complex along Golgi to TGN
Transport of MHC II:Ii complex along Golgi to TGN
Transport of MHC II:Ii complex to plasma membrane
Transport of MHC II:Ii complex to plasma membrane
Transport of MHC II:Ii complex to plasma membrane
Transport of MHC II:Ii complex to plasma membrane
Transport of MHC II:Ii complex to plasma membrane
Transport of MHC II:Ii complex to plasma membrane
Transport of NOTCH precursor to Golgi
Transport of NOTCH precursor to Golgi
Transport of NOTCH precursor to Golgi
Transport of NOTCH precursor to Golgi
Transport of NOTCH precursor to Golgi
Transport of NOTCH precursor to Golgi
Transport of NOTCH precursor to Golgi
Transport of NOTCH precursor to Golgi
Trimming of N-ter extended precursor fragments by cytosolic aminopeptidases
Trimming of N-ter extended precursor fragments by cytosolic aminopeptidases
Trimming of N-ter extended precursor fragments by cytosolic aminopeptidases
Trimming of N-ter extended precursor fragments by cytosolic aminopeptidases
Trimming of N-ter extended precursor fragments by cytosolic aminopeptidases
Trimming of N-ter extended precursor fragments by cytosolic aminopeptidases
Trimming of N-ter extended precursor fragments by cytosolic aminopeptidases
Trimming of N-ter extended precursor fragments by cytosolic aminopeptidases
Trimming of N-ter extended precursor fragments by cytosolic aminopeptidases
Trimming of N-ter extended precursor fragments by cytosolic aminopeptidases
Trimming of N-ter extended precursor fragments by cytosolic aminopeptidases
Trimming of N-ter extended precursor fragments by cytosolic aminopeptidases
Trimming of N-ter extended precursor fragments by cytosolic aminopeptidases
Trimming of N-ter extended precursor fragments by cytosolic aminopeptidases
Trimming of N-ter extended precursor fragments by cytosolic aminopeptidases
Trimming of N-ter extended precursor fragments by cytosolic aminopeptidases
Trimming of N-ter extended precursor fragments by cytosolic aminopeptidases
Trimming of peptides in ER
Trimming of peptides in ER
Trimming of peptides in ER
Trimming of peptides in ER
Trimming of peptides in ER
Trimming of peptides in ER
Trimming of peptides in ER
Trimming of peptides in ER
Trimming of peptides in ER
Trimming of peptides in ER
Trimming of peptides in ER
Trimming of peptides in ER
Trimming of peptides in ER
Tropoelastin associates with microfibrils
Tropoelastin associates with microfibrils
Tropoelastin associates with microfibrils
Tropoelastin associates with microfibrils
Tropoelastin associates with microfibrils
Tropoelastin associates with microfibrils
Tropoelastin associates with microfibrils
Tropoelastin forms aggregate globules
Tropoelastin forms aggregate globules
Tropoelastin forms aggregate globules
Tropoelastin forms aggregate globules
Tropoelastin forms aggregate globules
Tropoelastin forms aggregate globules
Tropoelastin forms aggregate globules
Type XII and XIV collagens associate with type I and type II fibrils.
Type XII and XIV collagens associate with type I and type II fibrils.
Type XII and XIV collagens associate with type I and type II fibrils.
Type XII and XIV collagens associate with type I and type II fibrils.
Type XII and XIV collagens associate with type I and type II fibrils.
Type XII and XIV collagens associate with type I and type II fibrils.
Type XII and XIV collagens associate with type I and type II fibrils.
Type XII and XIV collagens associate with type I and type II fibrils.
Tyrosine phosphorylation of PRLR
Tyrosine phosphorylation of PRLR
Tyrosine phosphorylation of PRLR
Tyrosine phosphorylation of PRLR
Tyrosine phosphorylation of PRLR
Tyrosine phosphorylation of PRLR
Tyrosine phosphorylation of PRLR
Tyrosine phosphorylation of PRLR
Tyrosine phosphorylation of PRLR
ub-GLI is degraded by the proteasome
ub-GLI is degraded by the proteasome
ub-GLI is degraded by the proteasome
ub-GLI is degraded by the proteasome
ub-GLI is degraded by the proteasome
ub-GLI is degraded by the proteasome
ub-GLI is degraded by the proteasome
ub-GLI is degraded by the proteasome
ub-GLI is degraded by the proteasome
ub-GLI is degraded by the proteasome
ub-HIF-alpha:VHL:EloB,C:CUL2:RBX1 translocates from the nucleus to the cytosol
ub-HIF-alpha:VHL:EloB,C:CUL2:RBX1 translocates from the nucleus to the cytosol
ub-HIF-alpha:VHL:EloB,C:CUL2:RBX1 translocates from the nucleus to the cytosol
ub-HIF-alpha:VHL:EloB,C:CUL2:RBX1 translocates from the nucleus to the cytosol
ub-HIF-alpha:VHL:EloB,C:CUL2:RBX1 translocates from the nucleus to the cytosol
ub-HIF-alpha:VHL:EloB,C:CUL2:RBX1 translocates from the nucleus to the cytosol
ub-HIF-alpha:VHL:EloB,C:CUL2:RBX1 translocates from the nucleus to the cytosol
ub-HIF-alpha:VHL:EloB,C:CUL2:RBX1 translocates from the nucleus to the cytosol
ub-HIF-alpha:VHL:EloB,C:CUL2:RBX1 translocates from the nucleus to the cytosol
ub-HIF-alpha:VHL:EloB,C:CUL2:RBX1 translocates from the nucleus to the cytosol
Ub-RibC-AXIN is degraded by the proteasome
Ub-RibC-AXIN is degraded by the proteasome
Ub-RibC-AXIN is degraded by the proteasome
Ub-RibC-AXIN is degraded by the proteasome
Ub-RibC-AXIN is degraded by the proteasome
Ub-RibC-AXIN is degraded by the proteasome
Ub-RibC-AXIN is degraded by the proteasome
Ub-RibC-AXIN is degraded by the proteasome
Ub-RibC-AXIN is degraded by the proteasome
Ub-RibC-AXIN is degraded by the proteasome
Ubiquitin-dependent degradation controls basal levels of R-Smad1/5/8
Ubiquitin-dependent degradation controls basal levels of R-Smad1/5/8
Ubiquitin-dependent degradation controls basal levels of R-Smad1/5/8
Ubiquitin-dependent degradation controls basal levels of R-Smad1/5/8
Ubiquitin-dependent degradation controls basal levels of R-Smad1/5/8
Ubiquitin-dependent degradation controls basal levels of R-Smad1/5/8
Ubiquitin-dependent degradation controls basal levels of R-Smad1/5/8
Ubiquitin-dependent degradation controls basal levels of R-Smad1/5/8
Ubiquitin-dependent degradation controls basal levels of R-Smad1/5/8
Ubiquitin-dependent degradation controls basal levels of R-Smad1/5/8
Ubiquitin-dependent degradation controls basal levels of R-Smad1/5/8
Ubiquitin-dependent degradation of the Smad complex terminates BMP2 signalling
Ubiquitin-dependent degradation of the Smad complex terminates BMP2 signalling
Ubiquitin-dependent degradation of the Smad complex terminates BMP2 signalling
Ubiquitin-dependent degradation of the Smad complex terminates BMP2 signalling
Ubiquitin-dependent degradation of the Smad complex terminates BMP2 signalling
Ubiquitin-dependent degradation of the Smad complex terminates BMP2 signalling
Ubiquitin-dependent degradation of the Smad complex terminates BMP2 signalling
Ubiquitin-dependent degradation of the Smad complex terminates BMP2 signalling
Ubiquitin-dependent degradation of the Smad complex terminates BMP2 signalling
Ubiquitin-dependent degradation of the Smad complex terminates BMP2 signalling
Ubiquitin-dependent degradation of the SMAD complex terminates TGF-beta signaling
Ubiquitin-dependent degradation of the SMAD complex terminates TGF-beta signaling
Ubiquitin-dependent degradation of the SMAD complex terminates TGF-beta signaling
Ubiquitin-dependent degradation of the SMAD complex terminates TGF-beta signaling
Ubiquitin-dependent degradation of the SMAD complex terminates TGF-beta signaling
Ubiquitin-dependent degradation of the SMAD complex terminates TGF-beta signaling
Ubiquitin-dependent degradation of the SMAD complex terminates TGF-beta signaling
Ubiquitin-dependent degradation of the SMAD complex terminates TGF-beta signaling
Ubiquitin-dependent degradation of the SMAD complex terminates TGF-beta signaling
ubiquitinated AXIN is degraded by the proteasome
ubiquitinated AXIN is degraded by the proteasome
ubiquitinated AXIN is degraded by the proteasome
ubiquitinated AXIN is degraded by the proteasome
ubiquitinated AXIN is degraded by the proteasome
ubiquitinated AXIN is degraded by the proteasome
ubiquitinated AXIN is degraded by the proteasome
ubiquitinated AXIN is degraded by the proteasome
ubiquitinated AXIN is degraded by the proteasome
Ubiquitinated Cdc6 is degraded by the proteasome
Ubiquitinated Cdc6 is degraded by the proteasome
Ubiquitinated Cdc6 is degraded by the proteasome
Ubiquitinated Cdc6 is degraded by the proteasome
Ubiquitinated Cdc6 is degraded by the proteasome
Ubiquitinated Cdc6 is degraded by the proteasome
Ubiquitinated Cdc6 is degraded by the proteasome
Ubiquitinated Cdc6 is degraded by the proteasome
Ubiquitinated Cdc6 is degraded by the proteasome
Ubiquitinated Cdc6 is degraded by the proteasome
Ubiquitinated Cdc6 is degraded by the proteasome
Ubiquitinated Cdc6 is degraded by the proteasome
ubiquitinated DVL is degraded by the proteasome
ubiquitinated DVL is degraded by the proteasome
ubiquitinated DVL is degraded by the proteasome
ubiquitinated DVL is degraded by the proteasome
ubiquitinated DVL is degraded by the proteasome
ubiquitinated DVL is degraded by the proteasome
ubiquitinated DVL1 is degraded by the proteasome
ubiquitinated DVL1 is degraded by the proteasome
ubiquitinated DVL1 is degraded by the proteasome
ubiquitinated DVL1 is degraded by the proteasome
ubiquitinated DVL1 is degraded by the proteasome
ubiquitinated DVL1 is degraded by the proteasome
ubiquitinated DVL1 is degraded by the proteasome
ubiquitinated DVL1 is degraded by the proteasome
ubiquitinated DVL1 is degraded by the proteasome
ubiquitinated DVL1 is degraded by the proteasome
ubiquitinated DVL1 is degraded by the proteasome
Ubiquitinated geminin is degraded by the proteasome
Ubiquitinated geminin is degraded by the proteasome
Ubiquitinated geminin is degraded by the proteasome
Ubiquitinated geminin is degraded by the proteasome
Ubiquitinated geminin is degraded by the proteasome
Ubiquitinated geminin is degraded by the proteasome
Ubiquitinated geminin is degraded by the proteasome
Ubiquitinated geminin is degraded by the proteasome
Ubiquitinated geminin is degraded by the proteasome
Ubiquitinated IkB is degraded
Ubiquitinated IkB is degraded
Ubiquitinated IkB is degraded
Ubiquitinated IkB is degraded
Ubiquitinated IkB is degraded
Ubiquitinated IkB is degraded
Ubiquitinated IkB is degraded
Ubiquitinated IkB is degraded
Ubiquitinated IkB is degraded
Ubiquitinated IkB is degraded
Ubiquitinated Orc1 is degraded by the proteasome
Ubiquitinated Orc1 is degraded by the proteasome
Ubiquitinated Orc1 is degraded by the proteasome
Ubiquitinated Orc1 is degraded by the proteasome
Ubiquitinated Orc1 is degraded by the proteasome
Ubiquitinated Orc1 is degraded by the proteasome
Ubiquitinated Orc1 is degraded by the proteasome
Ubiquitinated Orc1 is degraded by the proteasome
Ubiquitinated Orc1 is degraded by the proteasome
Ubiquitinated Orc1 is degraded by the proteasome
Ubiquitinated Orc1 is degraded by the proteasome
Ubiquitinated Orc1 is degraded by the proteasome
Ubiquitinated Orc1 is degraded by the proteasome
Ubiquitinated Orc1 is degraded by the proteasome
Ubiquitinated Orc1 is degraded by the proteasome
Ubiquitinated Orc1 is degraded by the proteasome
Ubiquitination of NEMO by TRAF6
Ubiquitination of NEMO by TRAF6
Ubiquitination of NEMO by TRAF6
Ubiquitination of NEMO by TRAF6
Ubiquitination of NEMO by TRAF6
Ubiquitination of NEMO by TRAF6
Ubiquitination of NEMO by TRAF6
Ubiquitination of NEMO by TRAF6
Ubiquitination of PAK-2p34
Ubiquitination of PAK-2p34
UNC119B stimulates translocation of myristoylated ciliary cargo to the primary cilium
UNC119B stimulates translocation of myristoylated ciliary cargo to the primary cilium
UNC119B stimulates translocation of myristoylated ciliary cargo to the primary cilium
UNC119B stimulates translocation of myristoylated ciliary cargo to the primary cilium
UNC119B stimulates translocation of myristoylated ciliary cargo to the primary cilium
UNC119B stimulates translocation of myristoylated ciliary cargo to the primary cilium
UNC119B stimulates translocation of myristoylated ciliary cargo to the primary cilium
UNC93B1 delivers endosomal full-length TLRs to endolysosome
UNC93B1 delivers endosomal full-length TLRs to endolysosome
UNC93B1 delivers endosomal full-length TLRs to endolysosome
UNC93B1 delivers endosomal full-length TLRs to endolysosome
UNC93B1 delivers endosomal full-length TLRs to endolysosome
UNC93B1 delivers endosomal full-length TLRs to endolysosome
UNC93B1 delivers endosomal full-length TLRs to endolysosome
Unknown NAT N-acylates Gly in GNAT1
Unknown Nat N-acylates Gly in Gnat1
Unknown NAT transfers COCH3 to AFXBO-C, AFNBO-C
Unknown nuclease cleaves cleaved transposon RNA bound in MeR-PIWIL4:cleaved transposon RNA:TDRD9:MAEL:TDRKH
Unknown nuclease cleaves cleaved transposon RNA bound in MeR-PIWIL4:cleaved transposon RNA:TDRD9:MAEL:TDRKH
Unknown nuclease cleaves cleaved transposon RNA bound in MeR-PIWIL4:cleaved transposon RNA:TDRD9:MAEL:TDRKH
Unknown nuclease cleaves cleaved transposon RNA bound in MeR-PIWIL4:cleaved transposon RNA:TDRD9:MAEL:TDRKH
Unknown nuclease cleaves cleaved transposon RNA bound in MeR-PIWIL4:cleaved transposon RNA:TDRD9:MAEL:TDRKH
Unknown nuclease cleaves cleaved transposon RNA bound in MeR-PIWIL4:cleaved transposon RNA:TDRD9:MAEL:TDRKH
Unknown nuclease cleaves cleaved transposon RNA bound in MeR-PIWIL4:cleaved transposon RNA:TDRD9:MAEL:TDRKH
Unknown nuclease cleaves cleaved transposon RNA bound in MeR-PIWIL4:cleaved transposon RNA:TDRD9:MAEL:TDRKH
Unknown nuclease cleaves cleaved transposon RNA in 6xMeR-PIWIL2:cleaved transposon RNA:TDRD1:TDRD12:DDX4:ASZ:MOV10L1
Unknown nuclease cleaves cleaved transposon RNA in 6xMeR-PIWIL2:cleaved transposon RNA:TDRD1:TDRD12:DDX4:ASZ:MOV10L1
Unknown nuclease cleaves cleaved transposon RNA in 6xMeR-PIWIL2:cleaved transposon RNA:TDRD1:TDRD12:DDX4:ASZ:MOV10L1
Unknown nuclease cleaves cleaved transposon RNA in 6xMeR-PIWIL2:cleaved transposon RNA:TDRD1:TDRD12:DDX4:ASZ:MOV10L1
Unknown nuclease cleaves cleaved transposon RNA in 6xMeR-PIWIL2:cleaved transposon RNA:TDRD1:TDRD12:DDX4:ASZ:MOV10L1
Unknown nuclease cleaves cleaved transposon RNA in 6xMeR-PIWIL2:cleaved transposon RNA:TDRD1:TDRD12:DDX4:ASZ:MOV10L1
Unknown nuclease cleaves cleaved transposon RNA in 6xMeR-PIWIL2:cleaved transposon RNA:TDRD1:TDRD12:DDX4:ASZ:MOV10L1
Unknown nuclease cleaves cleaved transposon RNA in 6xMeR-PIWIL2:cleaved transposon RNA:TDRD1:TDRD12:DDX4:ASZ:MOV10L1
Unknown nuclease cleaves cleaved transposon RNA in Asz1:Ddx4:Mov10l1:6xMeR-Piwil2:piRNA:Tdrd1:Tdrd12
Unknown nuclease cleaves cleaved transposon RNA in MeR-Piwil4:cleaved transposon RNA:Tdrd9:Mael:Tdrkh
Unknown nuclease cleaves pre-piRNA in 4xMeR-PIWIL1:pre-piRNA:TDRD6:TDRKH
Unknown nuclease cleaves pre-piRNA in 4xMeR-Piwil1:pre-piRNA:Tdrd6:Tdrkh
Unknown nuclease cleaves pre-piRNA in 4xMeR-PIWIL1:pre-piRNA:TDRD6:TDRKH
Unknown nuclease cleaves pre-piRNA in 4xMeR-PIWIL1:pre-piRNA:TDRD6:TDRKH
Unknown nuclease cleaves pre-piRNA in 4xMeR-PIWIL1:pre-piRNA:TDRD6:TDRKH
Unknown nuclease cleaves pre-piRNA in 4xMeR-PIWIL1:pre-piRNA:TDRD6:TDRKH
Unknown nuclease cleaves pre-piRNA in 4xMeR-PIWIL1:pre-piRNA:TDRD6:TDRKH
Unknown nuclease cleaves pre-piRNA in 4xMeR-PIWIL1:pre-piRNA:TDRD6:TDRKH
Unknown nuclease cleaves pre-piRNA in ASZ1:DDX4:MOV10L1:6xMeR-PIWIL2:pre-piRNA:TDRD1:TDRD12
Unknown nuclease cleaves pre-piRNA in Asz1:Ddx4:Mov10l1:6xMeR-Piwil2:pre-piRNA:Tdrd1:Tdrd12
Unknown nuclease cleaves pre-piRNA in ASZ1:DDX4:MOV10L1:6xMeR-PIWIL2:pre-piRNA:TDRD1:TDRD12
Unknown nuclease cleaves pre-piRNA in ASZ1:DDX4:MOV10L1:6xMeR-PIWIL2:pre-piRNA:TDRD1:TDRD12
Unknown nuclease cleaves pre-piRNA in ASZ1:DDX4:MOV10L1:6xMeR-PIWIL2:pre-piRNA:TDRD1:TDRD12
Unknown nuclease cleaves pre-piRNA in ASZ1:DDX4:MOV10L1:6xMeR-PIWIL2:pre-piRNA:TDRD1:TDRD12
Unknown nuclease cleaves pre-piRNA in ASZ1:DDX4:MOV10L1:6xMeR-PIWIL2:pre-piRNA:TDRD1:TDRD12
Unknown nuclease cleaves pre-piRNA in ASZ1:DDX4:MOV10L1:6xMeR-PIWIL2:pre-piRNA:TDRD1:TDRD12
Unknown nuclease cleaves pre-piRNA in ASZ1:DDX4:MOV10L1:6xMeR-PIWIL2:pre-piRNA:TDRD1:TDRD12
VEGF induces CDC42 activation by unknown mechanism
VEGF induces CDC42 activation by unknown mechanism
VEGF induces CDC42 activation by unknown mechanism
VEGF induces CDC42 activation by unknown mechanism
VEGF induces CDC42 activation by unknown mechanism
VEGF induces CDC42 activation by unknown mechanism
VEGF induces CDC42 activation by unknown mechanism
VEGF induces CDC42 activation by unknown mechanism
VEGF induces CDC42 activation by unknown mechanism
VEGF induces CDC42 activation by unknown mechanism
VEGF induces CDC42 activation by unknown mechanism
VEGF induces CDC42 activation by unknown mechanism
VEGF induces CDC42 activation by unknown mechanism
VEGF induces CDC42 activation by unknown mechanism
Viral DNA cleavage by TREX1
Viral DNA cleavage by TREX1
Viral DNA cleavage by TREX1
Viral DNA cleavage by TREX1
Viral DNA cleavage by TREX1
Viral DNA cleavage by TREX1
Viral Protein Synthesis
vitamin K epoxide -> vitamin K hydroquinone
vitamin K epoxide -> vitamin K hydroquinone
vitamin K epoxide -> vitamin K hydroquinone
vitamin K epoxide -> vitamin K hydroquinone
vitamin K epoxide -> vitamin K hydroquinone
vitamin K epoxide -> vitamin K hydroquinone
vitamin K epoxide -> vitamin K hydroquinone
vitamin K epoxide -> vitamin K hydroquinone
vitamin K epoxide -> vitamin K hydroquinone
vitamin K epoxide -> vitamin K hydroquinone
vitamin K epoxide -> vitamin K hydroquinone
VxPx-containing ciliary membrane proteins are delivered to the ciliary membrane
VxPx-containing ciliary membrane proteins are delivered to the ciliary membrane
VxPx-containing ciliary membrane proteins are delivered to the ciliary membrane
VxPx-containing ciliary membrane proteins are delivered to the ciliary membrane
VxPx-containing ciliary membrane proteins are delivered to the ciliary membrane
VxPx-containing ciliary membrane proteins are delivered to the ciliary membrane
VxPx-containing ciliary membrane proteins are delivered to the ciliary membrane
VxPx-containing ciliary membrane proteins are delivered to the ciliary membrane
VxPx-containing ciliary membrane proteins are delivered to the ciliary membrane
VxPx-containing ciliary membrane proteins are delivered to the ciliary membrane
VxPx-containing ciliary membrane proteins are delivered to the ciliary membrane
VxPx-containing ciliary membrane proteins are delivered to the ciliary membrane
VxPx-containing ciliary membrane proteins are delivered to the ciliary membrane
WLS dissociates from retromer
WLS dissociates from retromer
WLS dissociates from retromer
WLS dissociates from retromer
WLS dissociates from retromer
WLS dissociates from retromer
WLS dissociates from retromer
WLS dissociates from retromer
WLS dissociates from retromer
WLS dissociates from retromer
WLS is endocytosed to the early endosome
WLS is endocytosed to the early endosome
WLS is endocytosed to the early endosome
WLS is endocytosed to the early endosome
WLS is endocytosed to the early endosome
WLS is endocytosed to the early endosome
WLS is endocytosed to the early endosome
WLS is endocytosed to the early endosome
WLS is endocytosed to the early endosome
WLS is endocytosed to the early endosome
WLS is endocytosed to the early endosome
WLS is endocytosed to the early endosome
WNT ligands traffic to the Golgi
WNT ligands traffic to the Golgi
WNT ligands traffic to the Golgi
WNT ligands traffic to the Golgi
WNT ligands traffic to the Golgi
WNT ligands traffic to the Golgi
WNT ligands traffic to the Golgi
WNT ligands traffic to the Golgi
WNT ligands traffic to the Golgi
WNT ligands traffic to the Golgi
WNT ligands traffic to the Golgi
WNT ligands traffic to the Golgi
WNT ligands traffic to the plasma membrane
WNT ligands traffic to the plasma membrane
WNT ligands traffic to the plasma membrane
WNT ligands traffic to the plasma membrane
WNT ligands traffic to the plasma membrane
WNT ligands traffic to the plasma membrane
WNT ligands traffic to the plasma membrane
WNT ligands traffic to the plasma membrane
WNT ligands traffic to the plasma membrane
WNT ligands traffic to the plasma membrane
WNT ligands traffic to the plasma membrane
WNT ligands traffic to the plasma membrane
WNT3A stimulates the caveolin-dependent internalization of FZD5:p-LRP6
WNT3A stimulates the caveolin-dependent internalization of FZD5:p-LRP6
WNT3A stimulates the caveolin-dependent internalization of FZD5:p-LRP6
WNT3A stimulates the caveolin-dependent internalization of FZD5:p-LRP6
WNT3A stimulates the caveolin-dependent internalization of FZD5:p-LRP6
WNT3A stimulates the caveolin-dependent internalization of FZD5:p-LRP6
WNT3A stimulates the caveolin-dependent internalization of FZD5:p-LRP6
WNT3A stimulates the caveolin-dependent internalization of FZD5:p-LRP6
WNT3A stimulates the caveolin-dependent internalization of FZD5:p-LRP6
WNT3A stimulates the caveolin-dependent internalization of FZD5:p-LRP6
WNT5A:FZD4 is endocytosed
WNT5A:FZD4 is endocytosed
WNT5A:FZD4 is endocytosed
WNT5A:FZD4 is endocytosed
WNT5A:FZD4 is endocytosed
WNT5A:FZD4 is endocytosed
WNT5A:FZD4 is endocytosed
WNT5A:FZD4 is endocytosed
WNT5A:FZD4 is endocytosed
WNT5A:FZD4 is endocytosed
WWTR1:SMAD stimulates transcription of SERPINE1 while TGIF:SMAD and SMAD7 inhibit it
WWTR1:SMAD stimulates transcription of SMAD7
XBP(S) mRNA is translated and XBP1(S) translocates to the nucleus
YWHAZ and XPO1 mediate the nuclear export of beta-catenin
YWHAZ and XPO1 mediate the nuclear export of beta-catenin
YWHAZ and XPO1 mediate the nuclear export of beta-catenin
YWHAZ and XPO1 mediate the nuclear export of beta-catenin
YWHAZ and XPO1 mediate the nuclear export of beta-catenin
YWHAZ and XPO1 mediate the nuclear export of beta-catenin
YWHAZ and XPO1 mediate the nuclear export of beta-catenin
YWHAZ and XPO1 mediate the nuclear export of beta-catenin
YWHAZ and XPO1 mediate the nuclear export of beta-catenin
YWHAZ and XPO1 mediate the nuclear export of beta-catenin
YWHAZ and XPO1 mediate the nuclear export of beta-catenin
YWHAZ and XPO1 mediate the nuclear export of beta-catenin