2021-10-27
|
R-HSA-9757139
|
ABCB1,ABCC2 transport ATVs from cytosol to extracellular region
|
BibTex
|
2021-10-22
|
R-HSA-9757010
|
SLCO1B1,1B3,2B1-3 transport ATV from extracelluar region to cytosol
|
BibTex
|
2021-10-12
|
R-HSA-9756138
|
CYP3A4 monooxygenates ATVL to 2-OH-ATVL
|
BibTex
|
2021-10-12
|
R-HSA-9756136
|
PON1,3 hydrolyse 2-OH-ATVL to 2-OH-ATV
|
BibTex
|
2021-10-12
|
R-HSA-9756180
|
CYP3A4 monooxygenates ATVL to 4-OH-ATVL
|
BibTex
|
2021-10-12
|
R-HSA-9756156
|
UGT1A3 lactonizes ATV to ATVL
|
BibTex
|
2021-10-12
|
R-HSA-9756134
|
UGT1A3 lactonizes 2-OH-ATV to 2-OH-ATVL
|
BibTex
|
2021-10-12
|
R-HSA-9756169
|
CYP3A4 monooxygenates ATV to 2-OH-ATV
|
BibTex
|
2021-10-12
|
R-HSA-9756150
|
PON1,3 hydrolyse 4-OH-ATVL to 4-OH-ATV
|
BibTex
|
2021-10-12
|
R-HSA-9756183
|
UGT1A3 lactonizes 4-OH-ATV to 4-OH-ATVL
|
BibTex
|
2021-10-12
|
R-HSA-9756162
|
CYP3A4 monooxygenates ATV to 4-OH-ATV
|
BibTex
|
2021-10-12
|
R-HSA-9756177
|
PON1,3 hydrolyse ATVL to ATV
|
BibTex
|
2021-09-21
|
R-HSA-9754180
|
APAP translocates from extracellular region to cytosol
|
BibTex
|
2021-09-20
|
R-HSA-9753916
|
NAPQI binds proteins in hepatocytes
|
BibTex
|
2021-09-20
|
R-HSA-9753944
|
ACY1:Zn2+ dimer deacetylates NAC to L-Cys
|
BibTex
|
2021-09-10
|
R-HSA-9753676
|
NAT1,2 acetylate APAP-Cys to APAP-Mer
|
BibTex
|
2021-09-10
|
R-HSA-9753634
|
GGT dimers hydrolyse APAP-SG
|
BibTex
|
2021-09-10
|
R-HSA-9753632
|
CNDP2:2Mn2+ dimer hydrolyses APAP-CysGly
|
BibTex
|
2021-09-06
|
R-HSA-9753283
|
ABCC3,ABCC4 transport APAP-GlcA, APAP-SO3
|
BibTex
|
2021-09-06
|
R-HSA-9753280
|
GSTs transfer GSH to NAPQI to form APAP-SG
|
BibTex
|
2021-09-06
|
R-HSA-9753284
|
ABCC1,4,5 transport APAP-Cys,APAP-Mer from cytosol to extracellular region
|
BibTex
|
2021-09-06
|
R-HSA-9753278
|
ABCC2,ABCG2 transport APAP-GlcA, APAP-SO3
|
BibTex
|
2021-09-06
|
R-HSA-9753277
|
SULT dimers sulfate APAP to APAP-SO3
|
BibTex
|
2021-09-06
|
R-HSA-9753285
|
CYP2E1 monooxygenates APAP to NAPQI
|
BibTex
|
2021-08-19
|
R-HSA-9751201
|
p-VAV1,2,3 exchange 6TGTP for GDP on RAC1
|
BibTex
|
2021-08-17
|
R-HSA-9751037
|
SLC28A2,3 cotransport 6MP and Na+ from extracellular region to cytosol
|
BibTex
|
2021-08-17
|
R-HSA-9751024
|
SLC29A1,2 transport 6MP from extracellular region to cytosol
|
BibTex
|
2021-08-17
|
R-HSA-9751051
|
GSH cleaves AZA to 6MP
|
BibTex
|
2021-08-16
|
R-HSA-9750555
|
NUDT15 dimer dephosphorylates 6TdGTP to 6TdGMP
|
BibTex
|
2021-08-16
|
R-HSA-9750617
|
ABCC5 transports TPMP substrates from cytosol to extracellular region
|
BibTex
|
2021-08-16
|
R-HSA-9750546
|
ABCC4 transports TPMP substrates from cytosol to extracellular region
|
BibTex
|
2021-07-29
|
R-HSA-9748999
|
NME1:2 hexamer phosphorylates 6TGDP to 6TGTP
|
BibTex
|
2021-07-29
|
R-HSA-9748963
|
GUK1 phosphorylates 6TdGMP to 6TdGDP
|
BibTex
|
2021-07-29
|
R-HSA-9748969
|
NME1:2 hexamer phosphorylates 6TdGDP to 6TdGTP
|
BibTex
|
2021-07-29
|
R-HSA-9748991
|
XDH oxidises 6MP to 6TU
|
BibTex
|
2021-07-29
|
R-HSA-9748949
|
GUK1 phosphorylates 6TGMP to 6TGDP
|
BibTex
|
2021-07-29
|
R-HSA-9748957
|
GMPS dimer transforms 6TXMP to 6TGMP
|
BibTex
|
2021-07-29
|
R-HSA-9748945
|
IMPDH tetramers dehydrogenate 6TIMP to 6TXMP
|
BibTex
|
2021-07-29
|
R-HSA-9748951
|
HPRT1 tetramer transfers phosphoribosyl group to 6MP to form 6TIMP
|
BibTex
|
2021-07-29
|
R-HSA-9748996
|
GST dimers cleave AZA to 6MP
|
BibTex
|
2021-07-29
|
R-HSA-9748983
|
TPMT transfers methyl group to 6MP, forming 6MeMP
|
BibTex
|
2021-07-29
|
R-HSA-9748979
|
TPMT transfers methyl group to 6TIMP, forming 6MeTIMP
|
BibTex
|
2021-07-22
|
R-HSA-9737780
|
MTTP binds lomitapide
|
BibTex
|
2021-06-17
|
R-HSA-9734535
|
SLC27A2 ligates CoA to bempedoic acid to form ETC-1002-CoA
|
BibTex
|
2021-06-17
|
R-HSA-9734475
|
PPARA binds fibrates
|
BibTex
|
2021-06-14
|
R-HSA-9733960
|
Bile salts and acids dissociate from ALB
|
BibTex
|
2021-06-14
|
R-HSA-9733964
|
SLC51A:SLC51B transports bile salts from cytosol to extracellular region
|
BibTex
|
2021-06-14
|
R-HSA-9733973
|
Bile salts bind FABP6
|
BibTex
|
2021-06-14
|
R-HSA-9733969
|
Bile salts dissociate from FABP6
|
BibTex
|
2021-06-07
|
R-HSA-9733545
|
Bile salts and acids bind ALB
|
BibTex
|
2021-06-04
|
R-HSA-9733403
|
PCSK9 binds PCSK9 inhibitors
|
BibTex
|
2021-06-02
|
R-HSA-9733292
|
AMY1-3 bind pramlintide
|
BibTex
|
2021-05-28
|
R-HSA-9732629
|
PPARG binds PPARG agonists
|
BibTex
|
2021-05-27
|
R-HSA-9732527
|
FFAR1 binds rosiglitazone
|
BibTex
|
2021-05-20
|
R-HSA-9731393
|
EDNRA, EDNRB bind non-selective ERAs
|
BibTex
|
2021-04-21
|
R-HSA-9728664
|
GLP1R binds GLP1R agonists
|
BibTex
|
2021-04-20
|
R-HSA-9728150
|
SLC5A2 binds gliflozins
|
BibTex
|
2021-04-15
|
R-HSA-9727188
|
ATP4A:ATP4B binds PPIs
|
BibTex
|
2021-04-13
|
R-HSA-9726949
|
PTGIR binds PTGIR agonists
|
BibTex
|
2021-04-08
|
R-HSA-9726621
|
PGR binds PGR antagonists
|
BibTex
|
2021-04-08
|
R-HSA-9726580
|
PGR binds PGR agonists
|
BibTex
|
2021-04-07
|
R-HSA-9726509
|
NR3C2 binds fludrocortisone
|
BibTex
|
2021-04-01
|
R-HSA-9725885
|
P4 bind PGR (in the HSP90 chaperone complex)
|
BibTex
|
2021-04-01
|
R-HSA-9725855
|
NR3C2 binds NR3C2 antagonists
|
BibTex
|
2021-03-25
|
R-HSA-9724745
|
PLG(20-810) binds aprotinin
|
BibTex
|
2021-03-25
|
R-HSA-9724753
|
PLG(20-810) binds anti-fibrinolytics
|
BibTex
|
2021-03-25
|
R-HSA-9716947
|
ESR1 binds ESR1 agonists
|
BibTex
|
2021-03-25
|
R-HSA-9716913
|
ESR1 binds ESR1 antagonists
|
BibTex
|
2021-03-25
|
R-HSA-9709454
|
EPOR binds EPOR agonists
|
BibTex
|
2021-03-25
|
R-HSA-9703895
|
CASR binds CASR agonists
|
BibTex
|
2021-03-25
|
R-HSA-9726875
|
HCNs:cAMP bind SNIs
|
BibTex
|
2021-03-25
|
R-HSA-9727567
|
CES1 hydrolyses sacubitril to sacubitrilat
|
BibTex
|
2021-03-25
|
R-HSA-9727607
|
MME:Zn2+ binds sacubitrilat
|
BibTex
|
2021-03-25
|
R-HSA-9708104
|
PDE5A dimer binds PDE5A inhibitors
|
BibTex
|
2021-03-25
|
R-HSA-9620103
|
ALDH2 transforms GTN to NO
|
BibTex
|
2021-03-25
|
R-HSA-9707186
|
ALOX5 binds ALOX5 inhibitors
|
BibTex
|
2021-03-25
|
R-HSA-9708866
|
pro-F2R binds vorapaxar
|
BibTex
|
2021-03-25
|
R-HSA-9652580
|
SU drugs bind ABCC8 (in KCNJ11 tetramer:ABCC8:Mg2+:ADP tetramer)
|
BibTex
|
2021-03-25
|
R-HSA-9700266
|
CFTR F508del binds CFTR correctors
|
BibTex
|
2021-03-25
|
R-HSA-9677929
|
MAOB inhibitors bind MAOB:FAD
|
BibTex
|
2021-03-25
|
R-HSA-9707353
|
CYP19A1 binds Aromatase inhibitors
|
BibTex
|
2021-03-25
|
R-HSA-9705794
|
SRD5A2 binds SRD5A2 inhibitors
|
BibTex
|
2021-03-25
|
R-HSA-9709109
|
DHFR dimer binds DHFR inhibitors
|
BibTex
|
2021-03-25
|
R-HSA-9649963
|
ASIC3 channel blockers bind ASIC3 trimer
|
BibTex
|
2021-03-25
|
R-HSA-9659611
|
ANO1 inhibitors bind ANO1
|
BibTex
|
2021-03-25
|
R-HSA-9707419
|
CA1:Zn2+,CA2:Zn2+ bind CA inhibitors
|
BibTex
|
2021-03-25
|
R-HSA-9708759
|
DHODH:FMN binds DHODH inhibitors
|
BibTex
|
2021-03-25
|
R-HSA-9648268
|
HTR1A binds HTR1A antagonists
|
BibTex
|
2021-03-25
|
R-HSA-9693478
|
HTR1A binds HTR1A agonists
|
BibTex
|
2021-03-25
|
R-HSA-9692867
|
HRH3 binds pitosilant
|
BibTex
|
2021-03-25
|
R-HSA-9696323
|
CNRs bind CNR agonists
|
BibTex
|
2021-03-25
|
R-HSA-9667563
|
AVPR2 bind desmopressin
|
BibTex
|
2021-03-25
|
R-HSA-9667456
|
AVPR1A,B bind desmopressin
|
BibTex
|
2021-03-25
|
R-HSA-9667569
|
AVPR1A,2 bind AVPR antagonists
|
BibTex
|
2021-03-25
|
R-HSA-9667619
|
AVPR1A,B,2 bind atosiban
|
BibTex
|
2021-03-25
|
R-HSA-9731931
|
EDNRA binds selective ERAs
|
BibTex
|
2021-03-25
|
R-HSA-9660192
|
VDR agonists bind VDR
|
BibTex
|
2021-03-25
|
R-HSA-9725706
|
SLC12A3 binds SLC12A3 inhibitors
|
BibTex
|
2021-03-25
|
R-HSA-9692376
|
BCL2 binds BCL2 antagonists
|
BibTex
|
2021-03-25
|
R-HSA-9691621
|
C5 binds C5 inhibitors
|
BibTex
|
2021-03-25
|
R-HSA-9689680
|
IFNG dimer binds IFNG inhibitors
|
BibTex
|
2021-03-17
|
R-HSA-9718379
|
GNRHR binds chemical antagonists
|
BibTex
|
2021-03-17
|
R-HSA-9718394
|
GNRHR binds GNRHR peptide antagonists
|
BibTex
|
2021-03-17
|
R-HSA-9718360
|
GNRHR binds GNRHR peptide agonists
|
BibTex
|
2021-03-16
|
R-HSA-9718020
|
PTGFR binds PTGFR agonists
|
BibTex
|
2021-03-15
|
R-HSA-9717841
|
holo-FDPS dimer binds NBPs
|
BibTex
|
2021-02-12
|
R-HSA-9714580
|
SLC6A3 binds DRIs
|
BibTex
|
2021-02-11
|
R-HSA-9714415
|
SLC6A4 binds TCAs and SSRIs
|
BibTex
|
2020-12-10
|
R-HSA-9709179
|
DPP4 binds DPP4 inhibitors
|
BibTex
|
2020-11-27
|
R-HSA-9708275
|
PDE4A binds PDE4A inhibitors
|
BibTex
|
2020-11-20
|
R-HSA-9707827
|
Spike binds Spike inhibitors
|
BibTex
|
2020-11-09
|
R-HSA-9706837
|
AR binds AR antagonists
|
BibTex
|
2020-11-03
|
R-HSA-9705926
|
AR binds AR agonists
|
BibTex
|
2020-10-27
|
R-HSA-9705584
|
HMGCR dimer binds statins
|
BibTex
|
2020-10-07
|
R-HSA-9704297
|
CHRM2 binds CHRM2 antagonists
|
BibTex
|
2020-10-07
|
R-HSA-9704248
|
CHRM4 binds CHRM4 antagonists
|
BibTex
|
2020-10-07
|
R-HSA-9704151
|
CHRM1,3,5 bind CHRM1,3,5 antagonists
|
BibTex
|
2020-10-02
|
R-HSA-9702818
|
CALCR binds erenumab
|
BibTex
|
2020-10-02
|
R-HSA-9702849
|
CALCR binds gepants
|
BibTex
|
2020-09-30
|
R-HSA-9702354
|
CALCA(83-119) binds CALCA antibodies
|
BibTex
|
2020-09-25
|
R-HSA-9701211
|
TRPA1 tetramer binds TRPA1 antagonists
|
BibTex
|
2020-09-24
|
R-HSA-9701147
|
TRPV1 binds TRPV1 blockers
|
BibTex
|
2020-09-24
|
R-HSA-9701064
|
TRPV1 binds TRPV1 agonists
|
BibTex
|
2020-09-16
|
R-HSA-9700701
|
T-type VDCC bind T-type VDCC blockers
|
BibTex
|
2020-08-06
|
R-HSA-9694541
|
SARS-CoV-2 gRNA:RTC:RNA primer binds RTC inhibitors
|
BibTex
|
2020-08-06
|
R-HSA-9694665
|
SARS-CoV-2 gRNA:RTC:nascent RNA minus strand binds RTC inhibitors
|
BibTex
|
2020-08-06
|
R-HSA-9694419
|
SARS-CoV-2 gRNA complement (minus strand):RTC binds RTC inhibitors
|
BibTex
|
2020-07-20
|
R-HSA-9696179
|
IFNAR2:JAK1:STAT2 binds type 1 interferon analogs
|
BibTex
|
2020-07-16
|
R-HSA-9695917
|
SPHK2 binds SPHK2 inhibitors
|
BibTex
|
2020-07-16
|
R-HSA-9695890
|
SPNS2,MFSD2B transport S1P from cytosol to extracellular region
|
BibTex
|
2020-07-13
|
R-HSA-9695415
|
glycosylated-ACE2 binds ACE2 inhibitors
|
BibTex
|
2020-07-06
|
R-HSA-9693722
|
Unknown sepiapterin synthase transforms PTHP to sepiapterin
|
BibTex
|
2020-06-25
|
R-HSA-9692738
|
HRH2 binds HRH2 antagonists
|
BibTex
|
2020-06-24
|
R-HSA-9692539
|
HRH1 binds HRH1 inverse agonists
|
BibTex
|
2020-06-17
|
R-HSA-9691566
|
KCNJ11:ABCC9 binds nicorandil
|
BibTex
|
2020-06-15
|
R-HSA-9691421
|
BTK binds BTK inhibitors
|
BibTex
|
2020-05-07
|
R-HSA-9687388
|
SARS-CoV-1 gRNA:RTC:nascent RNA minus strand binds RTC inhibitors
|
BibTex
|
2020-05-07
|
R-HSA-9687384
|
SARS-CoV-1 gRNA complement (minus strand):RTC binds RTC inhibitors
|
BibTex
|
2020-04-27
|
R-HSA-9685830
|
TUBB binds colchicine
|
BibTex
|
2020-04-21
|
R-HSA-9684627
|
CYSLTR1 binds CYSLTR1 antagonists
|
BibTex
|
2020-04-21
|
R-HSA-9697043
|
Protease binds protease inhibitors
|
BibTex
|
2020-04-20
|
R-HSA-9684068
|
ATP1A:ATP1B:FXYD binds cardiac glycosides
|
BibTex
|
2020-04-17
|
R-HSA-9683546
|
FURIN binds furin inhibitors
|
BibTex
|
2020-04-16
|
R-HSA-9683488
|
ACE2 is glycosylated to glycosylated-ACE2
|
BibTex
|
2020-04-06
|
R-HSA-9681763
|
IL1R1 binds IL1R1 inhibitors
|
BibTex
|
2020-04-02
|
R-HSA-9681616
|
AP2 binds chlorpromazine
|
BibTex
|
2020-04-02
|
R-HSA-9694592
|
3CLp dimer binds 3CLp inhibitors
|
BibTex
|
2020-04-02
|
R-HSA-9681596
|
3CLp dimer binds ?-Ketoamides
|
BibTex
|
2020-04-01
|
R-HSA-9681294
|
IL6R binds IL6R inhibitors
|
BibTex
|
2020-04-01
|
R-HSA-9681169
|
CRBN binds IMiDs
|
BibTex
|
2020-03-30
|
R-HSA-9680865
|
CYP3A4, CYP2B6 bind ritonavir
|
BibTex
|
2020-03-30
|
R-HSA-9680836
|
NS5B binds ribavirin
|
BibTex
|
2020-03-30
|
R-HSA-9697051
|
RTC binds NRTIs
|
BibTex
|
2020-03-27
|
R-HSA-9680443
|
ROCK1,2 bind ROCKi
|
BibTex
|
2020-03-27
|
R-HSA-9680408
|
BRD4 binds fedratinib
|
BibTex
|
2020-03-26
|
R-HSA-9680262
|
SARS coronavirus gRNA:RTC:RNA primer binds RTC inhibitors
|
BibTex
|
2020-03-25
|
R-HSA-9679780
|
SIGMAR1 binds fluvoxamine
|
BibTex
|
2020-03-25
|
R-HSA-9679816
|
SIGMAR1 binds dextromethorphan
|
BibTex
|
2020-03-25
|
R-HSA-9679839
|
RIPK1 binds ponatinib
|
BibTex
|
2020-03-25
|
R-HSA-9679775
|
COMT binds COMT Inhibitors
|
BibTex
|
2020-03-25
|
R-HSA-9679787
|
HDAC1:2-containing complex binds HDAC2 Inhibitors
|
BibTex
|
2020-03-25
|
R-HSA-9679740
|
ITGA4:ITGB1 binds natalizumab
|
BibTex
|
2020-03-25
|
R-HSA-9679819
|
TBK1 binds amlexanox
|
BibTex
|
2020-03-24
|
R-HSA-9679477
|
VEGFA-165 dimer binds VEGFA inhibitors
|
BibTex
|
2020-03-24
|
R-HSA-9679421
|
PDCD1 binds PDCD1 inhibitors
|
BibTex
|
2020-03-23
|
R-HSA-9678766
|
CYP3A4 binds CYP3A4 inhibitors
|
BibTex
|
2020-03-23
|
R-HSA-9678925
|
NR3C1 binds NR3C1 agonists
|
BibTex
|
2020-03-23
|
R-HSA-9679028
|
JAK3 binds JAK3 inhibitors
|
BibTex
|
2020-03-23
|
R-HSA-9678737
|
IFNAR1:TYK2 binds TYK2 inhibitors
|
BibTex
|
2020-03-23
|
R-HSA-9678935
|
IFNAR2:JAK1:STAT2 binds JAK1,2 inhibitors
|
BibTex
|
2020-03-23
|
R-HSA-9678749
|
IMPDH tetramers binds IMPDH inhibitors
|
BibTex
|
2020-03-23
|
R-HSA-9678854
|
S1PR1 binds S1PR1 agonists
|
BibTex
|
2020-03-23
|
R-HSA-9690461
|
FKBP1A binds tacrolimus
|
BibTex
|
2020-03-23
|
R-HSA-9679029
|
C-ter TLR7 dimer binds HCQ
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BibTex
|
2020-03-23
|
R-HSA-9679045
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C-ter TLR9 dimer binds HCQ
|
BibTex
|
2020-03-23
|
R-HSA-9679044
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FKBP1A binds sirolimus
|
BibTex
|
2020-03-23
|
R-HSA-9678561
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IFNGR1:JAK1:INFGR2:JAK2 binds JAK1,2 inhibitors
|
BibTex
|
2020-03-12
|
R-HSA-9677917
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MAOA inhibitors bind MAOA:FAD
|
BibTex
|
2020-03-05
|
R-HSA-9677320
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PTGS1 dimer binds PTGS1 Inhibitors
|
BibTex
|
2020-01-07
|
R-HSA-9665515
|
P2RX4,7 binds itself to form trimeric non-selective cation channels
|
BibTex
|
2020-01-07
|
R-HSA-9660822
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ATP binds P2RX4,7
|
BibTex
|
2020-01-07
|
R-HSA-9673789
|
Activated JNK phosphorylates c-JUN
|
BibTex
|
2020-01-07
|
R-HSA-9673322
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p-T,Y-MAPK8 translocates from the cytosol to the nucleoplasm
|
BibTex
|
2020-01-07
|
R-HSA-9673284
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GTP-bound RAC1 contributes to MAPK8 activation
|
BibTex
|
2020-01-07
|
R-HSA-9673797
|
NOX1 complex:pp-DVL:RAC1:GTP generates superoxide from oxygen
|
BibTex
|
2020-01-07
|
R-HSA-9673288
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ppDVL binds RAC1:GTP
|
BibTex
|
2020-01-07
|
R-HSA-9673794
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ppDVL:RAC1:GTP binds NOX1 complex
|
BibTex
|
2020-01-07
|
R-HSA-9673349
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WNT5 binds FZD7
|
BibTex
|
2020-01-07
|
R-HSA-9673296
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WNT5:FZD7 binds p-DVL
|
BibTex
|
2020-01-07
|
R-HSA-9673346
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Unknown kinase phosphorylates p-DVL
|
BibTex
|
2020-01-07
|
R-HSA-9664271
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Release of PLCG from FCGR3A
|
BibTex
|
2020-01-07
|
R-HSA-9664268
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Opsonized leishmania amastigote binds FCGR3
|
BibTex
|
2020-01-07
|
R-HSA-9664285
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IgG binds the surface of the amastigote form of Leishmania
|
BibTex
|
2020-01-07
|
R-HSA-9660819
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ADORA2B:Ade-Rib:GsGTP dissociates
|
BibTex
|
2020-01-07
|
R-HSA-9660824
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ADORA2B (in Ade-Rib:ADORA2B:Heterotrimeric G-protein Gs) exchanges GDP for GTP on Gs
|
BibTex
|
2020-01-07
|
R-HSA-9660828
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ADORA2B:Ade-Rib binds heterometric G-protein Gs
|
BibTex
|
2020-01-07
|
R-HSA-9660829
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ADORA2B binds Ade-Rib
|
BibTex
|
2020-01-07
|
R-HSA-9665524
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ATP translocates from cytosol to extracellular space (stimuated by C3AR1:C3a)
|
BibTex
|
2020-01-07
|
R-HSA-9664346
|
IL10 gene produces IL10 protein
|
BibTex
|
2020-01-07
|
R-HSA-9664332
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CREB1 binds IL-10 promoter
|
BibTex
|
2020-01-07
|
R-HSA-9662786
|
FURIN cleaves ADAM17
|
BibTex
|
2020-01-07
|
R-HSA-9662747
|
iRHOM2 transports ADAM17 from ER to the Golgi-network
|
BibTex
|
2020-01-07
|
R-HSA-9662818
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iRHOM2 transports ADAM17:Zn2+ from Golgi to the plasma membrane
|
BibTex
|
2020-01-07
|
R-HSA-9662773
|
ADAM17 binds Zn2+
|
BibTex
|
2020-01-07
|
R-HSA-9663426
|
sCD163 binds MYH9 in T-cells
|
BibTex
|
2020-01-07
|
R-HSA-9665525
|
sCD163 translocates from extracellular region to cytosol
|
BibTex
|
2020-01-07
|
R-HSA-9662837
|
p-S,T-ADAM17(215-827):Zn2+ cleaves CD163
|
BibTex
|
2020-01-07
|
R-HSA-9662823
|
PLK2, MAPK14 phosphorylate ADAM17
|
BibTex
|
2020-01-07
|
R-HSA-9662781
|
CD163 gene produces CD163 protein
|
BibTex
|
2020-01-07
|
R-HSA-9664306
|
LTC4 binds CyslTR1,2
|
BibTex
|
2020-01-07
|
R-HSA-9662710
|
IL6 gene produces IL6 protein
|
BibTex
|
2020-01-07
|
R-HSA-9662708
|
CREB binds IL6 promoter
|
BibTex
|
2019-11-12
|
R-HSA-9666433
|
IgG binds the surface of the amastigote form of Leishmania
|
BibTex
|
2019-11-04
|
R-MMU-9670578
|
Mouse IgG binds LPG1G2 in the amastigote form of Leishmania
|
BibTex
|
2019-10-02
|
R-HSA-9663511
|
BIL binds GSTA1, FABP1
|
BibTex
|
2019-10-02
|
R-HSA-9663492
|
BIL dissociates from GSTA1, FABP1
|
BibTex
|
2019-09-19
|
R-HSA-9661820
|
Bacterial GUSB hydrolyses BDG to BIL
|
BibTex
|
2019-09-18
|
R-HSA-9661710
|
An unknown oxidase oxidises D-UBGN to UBN
|
BibTex
|
2019-09-18
|
R-HSA-9661745
|
An unknown BILR reduces BIL to D-UBGN
|
BibTex
|
2019-09-18
|
R-HSA-9661799
|
SLCO1B3 transports BIL from extracellular region (blood) to cytosol (hepatocyte)
|
BibTex
|
2019-09-18
|
R-HSA-9661723
|
SLCO2B1-3 transports BIL from extracellular region (blood) to cytosol (hepatocyte)
|
BibTex
|
2019-09-18
|
R-HSA-9661726
|
An unknown reductase reduces D-UBGN to STBN
|
BibTex
|
2019-09-16
|
R-HSA-9661417
|
ABCG2 tetramer transports BMG,BDG from cytosol to extracellular region
|
BibTex
|
2019-09-16
|
R-HSA-9661397
|
SLCO1B1 transports BIL from extracellular region (blood) to cytosol (hepatocyte)
|
BibTex
|
2019-09-16
|
R-HSA-9661446
|
BMG, BDG translocates from ER lumen to cytosol
|
BibTex
|
2019-09-16
|
R-HSA-9661408
|
FLVCR1-2 transports heme from mitochondrial matrix to cytosol
|
BibTex
|
2019-09-16
|
R-HSA-9661419
|
ALB binds extracellular heme
|
BibTex
|
2019-09-16
|
R-HSA-9661425
|
BIL:ALB dissociates
|
BibTex
|
2019-09-16
|
R-HSA-9661432
|
BIL binds ALB
|
BibTex
|
2019-09-16
|
R-HSA-9661405
|
ABCC1 transports BIL from cytosol to extracellular region (blood)
|
BibTex
|
2019-07-16
|
R-HSA-9654054
|
DRD2 antagonist drugs bind to DRD2
|
BibTex
|
2019-06-24
|
R-HSA-9650858
|
Meglitinides bind ABCC8
|
BibTex
|
2019-06-10
|
R-HSA-9648949
|
HTR3A antagonists bind HTR3A pentamer
|
BibTex
|
2019-01-16
|
R-HSA-9634834
|
ACHEIs bind ACHE
|
BibTex
|
2018-11-23
|
R-HSA-9629679
|
PDE3A inhibitors bind PDE3A
|
BibTex
|
2018-11-23
|
R-HSA-9629675
|
PDE3A hydrolyses cAMP to AMP
|
BibTex
|
2018-11-23
|
R-HSA-9705507
|
PDE3B hydrolyses cAMP to AMP
|
BibTex
|
2018-10-30
|
R-HSA-9626914
|
?2-agonists bind ADRA2A,B,C
|
BibTex
|
2018-10-04
|
R-HSA-9623384
|
?1-agonists bind ADRA1A,B,D
|
BibTex
|
2018-09-26
|
R-HSA-9621179
|
Cinaciguat binds sGC:NO
|
BibTex
|
2018-09-24
|
R-HSA-9620456
|
sGC stimulators bind sGC:NO
|
BibTex
|
2018-09-14
|
R-HSA-9619034
|
ACEIs translocate from ER lumen to extracellular region
|
BibTex
|
2018-09-14
|
R-HSA-9619024
|
CES1trimer hydrolyses ACEI pro-drugs to ACEIs
|
BibTex
|
2018-08-24
|
R-HSA-9617370
|
?1-antagonists bind ADRA1A,B,D
|
BibTex
|
2018-07-31
|
R-HSA-9615249
|
ARBs bind AGRT1
|
BibTex
|
2018-07-30
|
R-HSA-9614933
|
ACEIs bind ACE
|
BibTex
|
2018-07-23
|
R-HSA-9614031
|
Class IV antihypertensives bind LTCC multimer
|
BibTex
|
2018-07-16
|
R-HSA-9613570
|
Class III (KCNA5) antiarrhythmics bind KCNA5 tetramers
|
BibTex
|
2018-07-12
|
R-HSA-9613264
|
Class III antiarrhythmics bind KCNH2 in KCNH2:KCNE
|
BibTex
|
2018-06-21
|
R-HSA-9611839
|
?3-agonists bind ADRB3
|
BibTex
|
2018-06-19
|
R-HSA-9611721
|
?1-agonists bind ADRB1
|
BibTex
|
2018-06-19
|
R-HSA-9611751
|
?1,2-agonists bind ADRB1,2
|
BibTex
|
2018-06-18
|
R-HSA-9611277
|
P2RY12 binds P2RY12 antagonists
|
BibTex
|
2018-05-21
|
R-HSA-9609310
|
?-blockers bind ADRB1,2,3
|
BibTex
|
2018-04-23
|
R-HSA-9606392
|
Lewis antigens translocate from Golgi lumen to extracellular region
|
BibTex
|
2018-04-16
|
R-HSA-9605644
|
FUT3 transfers Fuc to Type 1 DSGG to form dsLeA
|
BibTex
|
2018-04-16
|
R-HSA-9605609
|
FUT3 transfers Fuc to Type 1 MSGG to form sLeA
|
BibTex
|
2018-04-16
|
R-HSA-9605700
|
B4GALNT2 transfers GalNAc to Type 2 MSGG to form Sda
|
BibTex
|
2018-04-16
|
R-HSA-9605600
|
ST3GAL3,4,6 transfer Neu5Ac to Type 2 chain to form Type 2 MSGG
|
BibTex
|
2018-04-16
|
R-HSA-9605682
|
FUT3,5,6,7 transfers Fuc to Type 2 MSGG to form sLeX
|
BibTex
|
2018-03-29
|
R-HSA-9603983
|
FUT2 transfers Fuc to LeX to form LeY
|
BibTex
|
2018-03-29
|
R-HSA-9603982
|
FUT2 transfers Fuc to LeA to form LeB
|
BibTex
|
2018-03-29
|
R-HSA-9603991
|
ST6GALNAC6 transfers Neu5Ac to Type 1 MSGG to form Type 1 DSGG
|
BibTex
|
2018-03-29
|
R-HSA-9603984
|
FUT4,5,9,(10,11) transfer Fuc to Type 2 chains to form LeX
|
BibTex
|
2018-03-29
|
R-HSA-9603987
|
ST3GAL3 transfers Neu5Ac to Type 1 chain to form Type 1 MSGG
|
BibTex
|
2018-03-29
|
R-HSA-9603989
|
B3GALTs transfer Gal to GlcNAc-?1,3-Gal-R to form Type 1 chain
|
BibTex
|
2018-03-29
|
R-HSA-9603986
|
FUT3 transfers Fuc to Type 1 chains to form LeA
|
BibTex
|
2018-03-28
|
R-HSA-9603905
|
Expression of NLRP3 gene
|
BibTex
|
2018-03-19
|
R-HSA-9603302
|
Factor IIa inhibitors (peptide) binds IIa
|
BibTex
|
2018-03-12
|
R-HSA-9038658
|
RHD gene produces PALM-C-Rhesus D protein
|
BibTex
|
2018-03-12
|
R-HSA-9038653
|
RHCE gene produces Rhesus C or E proteins
|
BibTex
|
2018-02-20
|
R-HSA-9037612
|
H antigen-sec translocates from Golgi lumen to extracellular region
|
BibTex
|
2018-01-23
|
R-HSA-9035484
|
CysS248-MPST:TXN2 dissociates
|
BibTex
|
2018-01-19
|
R-HSA-9035227
|
TXN2 binds CysS248-MPST
|
BibTex
|
2018-01-11
|
R-HSA-9034756
|
MPST transfers sulfur atom from 3MPYR to form CysS248-MPST
|
BibTex
|
2018-01-02
|
R-HSA-9034053
|
sABO-B:Mn2+ transfers Gal to H antigen-sec to form B antigen
|
BibTex
|
2018-01-02
|
R-HSA-9034042
|
sABO-A:Mn2+ transfers GalNAc to H antigen-sec to form A antigen-sec
|
BibTex
|
2017-12-29
|
R-HSA-9033959
|
ABO-A:Mn2+ transfers GalNAc to H antigen-RBC to form A antigen-RBC
|
BibTex
|
2017-12-29
|
R-HSA-9033961
|
ABO-B:Mn2+ transfers Gal to H antigen-RBC to form B antigen-RBC
|
BibTex
|
2017-12-29
|
R-HSA-9033949
|
FUT1 transfers Fuc to Type 2 chains to form H antigen-RBC
|
BibTex
|
2017-12-29
|
R-HSA-9036987
|
FUT2 transfers Fuc to Type 1 chains to form H antigen-sec
|
BibTex
|
2017-12-11
|
R-HSA-9032315
|
oxo-DHAs translocate from cytosol to extracellular region
|
BibTex
|
2017-12-11
|
R-HSA-9032327
|
5-oxo-EPA, 15d-PGJ3 translocate from cytosol to extracellular region
|
BibTex
|
2017-12-11
|
R-HSA-9032323
|
oxo-DPAn-3s translocate from cytosol to extracellular region
|
BibTex
|
2017-12-05
|
R-HSA-9032054
|
LXA4/B4 translocate from cytosol to extracellular region
|
BibTex
|
2017-12-05
|
R-HSA-9032036
|
LTA4 translocates from neutrophil cytosol to platelet cytosol
|
BibTex
|
2017-12-05
|
R-HSA-9032021
|
RvT1-4 translocate from cytosol to extracellular region
|
BibTex
|
2017-12-04
|
R-HSA-9031894
|
DPAn-3 maresins translocate from cytosol to extracellular region
|
BibTex
|
2017-12-04
|
R-HSA-9031896
|
PD1n-3, PD2n-3 translocate from cytosol to extracellular region
|
BibTex
|
2017-12-04
|
R-HSA-9031881
|
DPAn-3 resolvins translocate from cytosol to extracellular region
|
BibTex
|
2017-12-04
|
R-HSA-9031884
|
DPAn-6 SPMs translocate from cytosol to extracellular region
|
BibTex
|
2017-12-04
|
R-HSA-9031802
|
Maresins translocate from cytosol to extracellular region
|
BibTex
|
2017-12-04
|
R-HSA-9031803
|
Maresin-like SPMs translocate from cytosol to extracellular region
|
BibTex
|
2017-12-04
|
R-HSA-9031856
|
Sulfido conjugates translocate from cytosol to extracellular region
|
BibTex
|
2017-12-04
|
R-HSA-9031807
|
Protectins translocate from cytosol to extracellular region
|
BibTex
|
2017-11-07
|
R-HSA-9028260
|
?12-PGJ3 spontaneously dehydrates to 15d-PGJ3
|
BibTex
|
2017-11-07
|
R-HSA-9028263
|
PGJ3 isomerises to ?12-PGJ3
|
BibTex
|
2017-11-07
|
R-HSA-9028273
|
PGH3 spontaneously dehydrates to PGJ3
|
BibTex
|
2017-11-07
|
R-HSA-9028255
|
PTGS2 dimer oxidises EPA to PGH3
|
BibTex
|
2017-11-03
|
R-HSA-9027632
|
5-HEDH dehydrogenates 5-HEPE to 5-oxo-EPA
|
BibTex
|
2017-11-03
|
R-HSA-9027607
|
Ac-PTGS2 dimer oxidises DPAn-3 to 17-HDPAn-3
|
BibTex
|
2017-11-03
|
R-HSA-9027600
|
Dehydrogenase dehydrogenates 17-HDPAn-3 to 17-oxo-DPAn-3
|
BibTex
|
2017-11-03
|
R-HSA-9027598
|
Dehydrogenase dehydrogenates 13(R)-HDPAn-3 to 13-oxo-DPAn-3
|
BibTex
|
2017-11-03
|
R-HSA-9027631
|
5-HEDH dehydrogenates 7-HDHA to 7-oxo-DHA
|
BibTex
|
2017-11-03
|
R-HSA-9027628
|
ALOX5 oxidises EPA to 5-HEPE
|
BibTex
|
2017-11-03
|
R-HSA-9027624
|
ALOX5 oxidises DHA to 7-HDHA
|
BibTex
|
2017-11-03
|
R-HSA-9027633
|
ALOX5 oxidises DPAn-3 to 7-HDPAn-3
|
BibTex
|
2017-11-03
|
R-HSA-9027625
|
5-HEDH dehydrogenates 7-HDPAn-3 to 7-oxo-DPAn-3
|
BibTex
|
2017-11-02
|
R-HSA-9027562
|
Dehydrogenase dehydrogenates 17-HDHA to 17-oxo-DHA
|
BibTex
|
2017-11-02
|
R-HSA-9027531
|
Dehydrogenase dehydrogenates 13-HDHA to 13-oxo-DHA
|
BibTex
|
2017-11-02
|
R-HSA-9027532
|
PTGS2 dimer oxidises DHA to 13-HDHA
|
BibTex
|
2017-10-30
|
R-HSA-9027302
|
CYP2E1 oxidises 14(S)-HDHA to 14(S),21(R)-diHDHA and 14(S),21(S)-diHDHA
|
BibTex
|
2017-10-30
|
R-HSA-9027321
|
CYP2E1 oxidises 14(R)-HDHA to 14(R),21(R)-diHDHA and 14(R),21(S)-diHDHA
|
BibTex
|
2017-10-27
|
R-HSA-9027044
|
CYP4 ?-oxidises 14(R)-HDHA to MaR-L2
|
BibTex
|
2017-10-27
|
R-HSA-9027042
|
CPY4 ?-oxidises 14(S)-HDHA to MaR-L1
|
BibTex
|
2017-10-27
|
R-HSA-9027043
|
CYPs hydroxylate DHA to 14(R)-HDHA
|
BibTex
|
2017-10-27
|
R-HSA-9027033
|
Hydroperoxy reducatase reduces 14(S)-Hp-DHA to 14(S)-HDHA
|
BibTex
|
2017-10-25
|
R-HSA-9026967
|
VKORC1 inhibitors binds VKORC1 dimer
|
BibTex
|
2017-10-24
|
R-HSA-9026907
|
GGT hydrolyses PCTR2 to PCTR3
|
BibTex
|
2017-10-24
|
R-HSA-9026912
|
GGT hydrolyses PCTR1 to PCTR2
|
BibTex
|
2017-10-24
|
R-HSA-9026901
|
GGT transfers GSH to 16S,17S-epoxy-DHA to form PCTR1
|
BibTex
|
2017-10-24
|
R-HSA-9026911
|
LTC4S trimer transfers GSH to 7S(8)-epoxy-17(S)-HDHA to form RCTR1
|
BibTex
|
2017-10-24
|
R-HSA-9026917
|
Lipoxygenase dehydrogenates 7(S),17(S)-diHp-DHA to 7S(8)-epoxy-17(S)-HDHA
|
BibTex
|
2017-10-24
|
R-HSA-9026918
|
Lipoxygenase oxidises 17(S)-Hp-DHA to 7(S),17(S)-diHp-DHA
|
BibTex
|
2017-10-24
|
R-HSA-9026927
|
GGT hydrolyses RCTR1 to RCTR2
|
BibTex
|
2017-10-24
|
R-HSA-9026916
|
GGT hydrolyses RCTR2 to RCTR3
|
BibTex
|
2017-10-23
|
R-HSA-9026757
|
GGT hydrolyses MCTR1 to MCTR2
|
BibTex
|
2017-10-23
|
R-HSA-9026771
|
DPEP hydrolyses MCTR2 to MCTR3
|
BibTex
|
2017-10-23
|
R-HSA-9026780
|
LTC4S trimer transfers GSH to 13(S),14(S)-epoxy-DHA to form MCTR1
|
BibTex
|
2017-10-23
|
R-HSA-9026777
|
GSTM4 dimer transfers GSH to 13(S),14(S)-epoxy-DHA to form MCTR1
|
BibTex
|
2017-10-20
|
R-HSA-9026544
|
Non-enzymatic hydrolysis hydrolyses 13(S),14(S)-epoxy-DHA to 7-epi-MaR1
|
BibTex
|
2017-10-19
|
R-HSA-9026405
|
ALOX5 oxidises 13(R)-HDPAn-3 to RvT1-4
|
BibTex
|
2017-10-19
|
R-HSA-9026411
|
13(R)-HDPAn-3 translocates from endothelial cell to neutrophil
|
BibTex
|
2017-10-19
|
R-HSA-9026408
|
PTGS2 dimer oxidises DPAn-3 to 13(R)-HDPAn-3
|
BibTex
|
2017-10-16
|
R-HSA-9026005
|
ALOX5 oxidises 14(S)-Hp-DPAn-3 to MaR3n-3 DPA
|
BibTex
|
2017-10-16
|
R-HSA-9026006
|
ALOX12:Fe2+ oxidises DPAn-3 to 14(S)-Hp-DPAn-3
|
BibTex
|
2017-10-16
|
R-HSA-9026007
|
ALOX12:Fe2+ dehydrogenates 14(S)-Hp-DPAn-3 to 13,14-epoxy-DPAn-3
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BibTex
|
2017-10-16
|
R-HSA-9025998
|
Epoxide hydrolase hydrolyses 13,14-epoxy-DPAn-3 to MaR1n-3 DPA or MaR2n-3 DPA
|
BibTex
|
2017-10-16
|
R-HSA-9025999
|
ALOX5 dehydrogenates 17(S)-Hp-DPAn-3 to 16(S),17(S)-epoxy-DPAn-3
|
BibTex
|
2017-10-16
|
R-HSA-9026000
|
Epoxide hydrolase hydrolyses 16(S),17(S)-epoxy-DPAn-3 to PD1n-3DPA or PD2n-3DPA
|
BibTex
|
2017-10-16
|
R-HSA-9026001
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Hydroperoxy reductase reduces 7,17-diHp-DPAn-3 to RvD5n-3DPA
|
BibTex
|
2017-10-16
|
R-HSA-9026003
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ALOX15 oxidises DPAn-3 to 17(S)-Hp-DPAn-3
|
BibTex
|
2017-10-16
|
R-HSA-9025996
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ALOX5 oxidises 17(S)-Hp-DPAn-3 to 7,17-diHp-DPAn-3
|
BibTex
|
2017-10-16
|
R-HSA-9025995
|
ALOX5 dehydrogenates 7,17-diHp-DPAn-3 to 7,8-epoxy,17-HDPAn-3
|
BibTex
|
2017-10-16
|
R-HSA-9026008
|
Epoxide hydrolase hydrolyses 7,8-epoxy-HDPAn-3 to RvD1n-3DPA or RvD2n-3DPA
|
BibTex
|
2017-10-16
|
R-HSA-9025957
|
ALOX12:Fe2+ oxidises DPAn-6 to 14(S)-HDPAn-6
|
BibTex
|
2017-10-13
|
R-HSA-9025152
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ALOX15 oxidises DPAn-6 to 17(S)-HDPAn-6 and 10(S),17(S)-diHDPAn-6
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BibTex
|
2017-10-11
|
R-HSA-9024983
|
ALOX12:Fe2+ dehydrogenates 14(S)-Hp-DHA to 13(S),14(S)-epoxy-DHA
|
BibTex
|
2017-10-11
|
R-HSA-9024973
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Epoxide hydrolase hydrolyses 13(S),14(S)-epoxy-DHA to MaR1
|
BibTex
|
2017-10-11
|
R-HSA-9025007
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Hydroperoxy reductase reduces 7(S),14(S)-diHp-DHA to 7-epi-MaR1
|
BibTex
|
2017-10-11
|
R-HSA-9024997
|
ALOX5 oxidises 14(S)-Hp-DHA to 7(S),14(S)-diHp-DHA
|
BibTex
|
2017-10-11
|
R-HSA-9024993
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EPHX2 dimer hydrolyses 13(S),14(S)-epoxy-DHA to MaR2
|
BibTex
|
2017-10-10
|
R-HSA-9024881
|
ALOX15 dehydrogenates 17(S)-Hp-DHA to 16S,17S-epoxy-DHA
|
BibTex
|
2017-10-10
|
R-HSA-9024872
|
ALOX15 oxidises 17(S)-Hp-DHA to PDX
|
BibTex
|
2017-10-09
|
R-HSA-9024785
|
RvD1-6 translocate from cytosol to extracellular region
|
BibTex
|
2017-10-09
|
R-HSA-9024766
|
HPGD dimer oxidises RvD1 to 17(S)-oxo-RvD1 and 8-oxo-17(S)-RvD1
|
BibTex
|
2017-10-06
|
R-HSA-9024586
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AT-RvD1-6 translocate from cytosol to extracellular region
|
BibTex
|
2017-09-29
|
R-HSA-9023968
|
HPGD dimer oxidises 18(S)-RvE1 to 18-oxo-RvE1
|
BibTex
|
2017-09-29
|
R-HSA-9023983
|
18(R)-RvE1, E2 and E3 translocate from cytosol to extracellular region
|
BibTex
|
2017-09-29
|
R-HSA-9023980
|
18(S)-RvE1, E2 and E3 translocate from cytosol to extracellular region
|
BibTex
|
2017-09-08
|
R-HSA-9020610
|
ALOX15 oxidises 18(S)-HEPE to 18(S)-RvE3
|
BibTex
|
2017-09-05
|
R-HSA-9027627
|
Ac-PTGS2 dimer oxidises DHA to 17-HDHA (macrophages)
|
BibTex
|
2017-09-05
|
R-HSA-9020260
|
Hydroperoxy reducatse reduces 7(S)-Hp-17(S)-HDHA to RvD5
|
BibTex
|
2017-09-05
|
R-HSA-9020258
|
LTA4H:Zn2+ hydrolyses 7S(8)-epoxy-17(S)-HDHA to RvD1 or RvD2
|
BibTex
|
2017-09-05
|
R-HSA-9020255
|
ALOX5 dehydrogenates 7(S)-Hp-17(S)-HDHA to 7S(8)-epoxy-17S-HDHA
|
BibTex
|
2017-09-05
|
R-HSA-9020277
|
ALOX5 dehydrogenates 4(S)-Hp-17(S)-HDHA to 4S(5)-epoxy-17(S)-HDHA
|
BibTex
|
2017-09-05
|
R-HSA-9020253
|
LTA4H:Zn2+ hydrolyses 4S(5)-epoxy-17(S)-HDHA to RvD3 or RvD4
|
BibTex
|
2017-09-05
|
R-HSA-9020282
|
ALOX5 oxidises 17(S)-HDHA to 7(S)-Hp-17(S)-HDHA
|
BibTex
|
2017-09-05
|
R-HSA-9020273
|
GPX4-2 reduces 17(S)-Hp-DHA to 17(S)-HDHA
|
BibTex
|
2017-09-05
|
R-HSA-9020264
|
ALOX5 oxidises 17(S)-HDHA to 4(S)-Hp-17(S)-HDHA
|
BibTex
|
2017-09-05
|
R-HSA-9020249
|
Hydroperoxy reductase reduces 4(S)-Hp-17(S)-HDHA to RvD6
|
BibTex
|
2017-09-05
|
R-HSA-9020274
|
ALOX12:Fe2+ oxidises DHA to 14(S)-Hp-DHA
|
BibTex
|
2017-09-05
|
R-HSA-9020251
|
ALOX5 oxidises 17(R)-HDHA to 7(S)-Hp-17(R)-HDHA
|
BibTex
|
2017-09-05
|
R-HSA-9020271
|
GPX4-2 reduces 17(R)-Hp-DHA to 17(R)-HDHA
|
BibTex
|
2017-09-05
|
R-HSA-9020261
|
Ac-PTGS2 dimer oxidises DHA to 17(R)-Hp-DHA
|
BibTex
|
2017-09-05
|
R-HSA-9020252
|
LTA4H:Zn2+ hydrolyses 7S(8)-epoxy-17(R)-HDHA to AT-RvD1 or AT-RvD2
|
BibTex
|
2017-09-05
|
R-HSA-9020256
|
ALOX5 dehydrogenates 7(S)-Hp-17R-HDHA to 7S(8)-epoxy-17R-HDHA
|
BibTex
|
2017-09-05
|
R-HSA-9020270
|
LTA4H:Zn2+ hydrolyses 4S(5)-epoxy-17(R)-HDHA to AT-RvD3 or AT-RvD4
|
BibTex
|
2017-09-05
|
R-HSA-9020278
|
ALOX5 dehydrogenates 4(S)-Hp-17(R)-HDHA to 4S(5)-epoxy-17(R)-HDHA
|
BibTex
|
2017-09-05
|
R-HSA-9020259
|
ALOX5 oxidises 17(R)-HDHA to 4(S)-Hp-17(R)-HDHA
|
BibTex
|
2017-09-05
|
R-HSA-9024630
|
Hydroperoxy reductase reduces 7(S)-Hp-17(R)-HDHA to AT-RvD5
|
BibTex
|
2017-09-05
|
R-HSA-9020275
|
ALOX15 oxidises DHA to 17(S)-Hp-DHA
|
BibTex
|
2017-09-05
|
R-HSA-9020257
|
LTA4H:Zn2+ hydrolyses 17R(16)-epoxy-DHA to AT-(N)PD1
|
BibTex
|
2017-09-05
|
R-HSA-9020262
|
ALOX15 dehydrogenates 17(R)-Hp-DHA to 17R(16)-epoxy-DHA
|
BibTex
|
2017-09-05
|
R-HSA-9018867
|
5-HEDH dehydrogenates 5(S)-Hp-18(S)-HpEPE to 18(S)-RvE2
|
BibTex
|
2017-09-05
|
R-HSA-9018901
|
5-HEDH dehydrogenates 5(S)-Hp-18(R)-HpEPE to 18(R)-RvE2
|
BibTex
|
2017-09-05
|
R-HSA-9018862
|
LTA4H:Zn2+ hydrolyses 5S,6S-epoxy-18(S)-HEPE to 18(S)-RvE1
|
BibTex
|
2017-09-05
|
R-HSA-9018859
|
ALOX5 oxidises 5(S)-Hp-18(S)-HEPE to 5S,6S-epoxy-18(S)-HEPE
|
BibTex
|
2017-09-05
|
R-HSA-9018858
|
ALOX5 oxidises 18(S)-HEPE to 5(S)-Hp-18(S)-HEPE
|
BibTex
|
2017-09-05
|
R-HSA-9018868
|
GPX4-2 reduces 18(S)-HpEPE to 18(S)-HEPE
|
BibTex
|
2017-09-05
|
R-HSA-9018874
|
CYP monooxygenates EPA to 18(S)-HpEPE
|
BibTex
|
2017-09-05
|
R-HSA-9018880
|
Ac-PTGS2 dimer oxidises EPA to 18(R)-HpEPE or 18(S)-HpEPE
|
BibTex
|
2017-09-05
|
R-HSA-9018877
|
LTA4H:Zn2+ hydrolyses 5S,6S-epoxy-18(R)-HEPE to 18(R)-RvE1
|
BibTex
|
2017-09-05
|
R-HSA-9018894
|
ALOX5 oxidises 5(S)-Hp-18(R)-HEPE to 5S,6S-epoxy-18(R)-HEPE
|
BibTex
|
2017-09-05
|
R-HSA-9018863
|
ALOX5 oxidises 18(R)-HEPE to 5(S)-Hp-18(R)-HEPE
|
BibTex
|
2017-09-05
|
R-HSA-9018895
|
GPX4-2 reduces 18(R)-HpEPE to 18(R)-HEPE
|
BibTex
|
2017-09-05
|
R-HSA-9024624
|
Hydroperoxy reductase reduces 4(S)-Hp-17(R)-HDHA to AT-RvD6
|
BibTex
|
2017-09-05
|
R-HSA-9024890
|
LTA4H:Zn2+ hydrolyses 16S,17S-epoxy-DHA to (N)PD1
|
BibTex
|
2017-09-05
|
R-HSA-9018907
|
ALOX15 oxidises 18(R)-HEPE to 18(R)-RvE3
|
BibTex
|
2017-08-10
|
R-HSA-9015379
|
Factor IIa inhibitors (compounds) binds IIa
|
BibTex
|
2017-08-08
|
R-HSA-9015122
|
Factor Xa inhibitors bind Va:Xa
|
BibTex
|
2017-08-08
|
R-HSA-9015111
|
Factor Xa inhibitors binds Xa
|
BibTex
|
2017-08-03
|
R-HSA-9034539
|
PXLP-K56-SRR dimer deaminates L-Ser
|
BibTex
|
2017-08-03
|
R-HSA-9014741
|
PXLP-K56-SRR dimer deaminates D-Ser
|
BibTex
|
2017-08-03
|
R-HSA-9014766
|
PXLP-K56-SRR dimer isomerises L-Ser to D-Ser
|
BibTex
|
2017-08-02
|
R-HSA-9014627
|
SDS dimers:PXLP dehydrate L-Thr to 2AA
|
BibTex
|
2017-08-02
|
R-HSA-9014641
|
HRSP12 deaminates 2AA to 2OBUTA
|
BibTex
|
2017-07-25
|
R-HSA-9013533
|
MPST transfers sulfur from sulfanegen to HCN to form HSCN
|
BibTex
|
2017-07-25
|
R-HSA-9013471
|
MPST transfers sulfur from 3MPYR to HCN to form HSCN
|
BibTex
|
2017-07-24
|
R-HSA-9013198
|
TST transfers sulfur from S2O3(2-) to HCN to form HSCN
|
BibTex
|
2017-07-18
|
R-HSA-9012721
|
MPST transfers sulfur atom from 3MPYR to HSO3- to form S2O3(2-) and PYR
|
BibTex
|
2017-07-18
|
R-RNO-9012709
|
Got2:PLXP dimer transfers amino group from L-Cys to 2OG to form 3MPYR and Glu
|
BibTex
|
2017-07-17
|
R-HSA-9012597
|
GOT2 dimer transfers amino group from L-Cys to 2OG to form 3MPYR and Glu
|
BibTex
|
2017-07-13
|
R-HSA-9012374
|
VDAC1 transports PYR from cytosol to mitochondrial intermembrane space
|
BibTex
|
2017-07-13
|
R-HSA-9012349
|
ME3 tetramer decarboxylates MAL to PYR
|
BibTex
|
2017-07-12
|
R-HSA-9012268
|
ME2 tetramer decarboxylates MAL to PYR
|
BibTex
|
2017-07-10
|
R-HSA-9012016
|
FAHD1 dimer hydrolyses OA to PYR
|
BibTex
|
2017-07-10
|
R-HSA-9012036
|
ME1 tetramer decarboxylates MAL to PYR
|
BibTex
|
2017-07-03
|
R-HSA-9011595
|
GSTZ1 dimer dehalogenates DCA
|
BibTex
|
2017-07-03
|
R-HSA-9011543
|
DCA binds PDK2
|
BibTex
|
2017-06-26
|
R-HSA-9010034
|
ADAM10:Zn2+:TSPANs cleaves APP(18-770)
|
BibTex
|
2017-06-26
|
R-HSA-9010074
|
ADAM10:Zn2+:TSPANs translocates from ER lumen to plasma membrane
|
BibTex
|
2017-06-26
|
R-HSA-9010096
|
Gamma-secretase cleaves APP(672-770) to APP(672-711) and APP(672-713)
|
BibTex
|
2017-06-26
|
R-HSA-9010091
|
APP translocates from plasma membrane to endosome lumen
|
BibTex
|
2017-06-26
|
R-HSA-9010113
|
ADAM10:Zn2+ binds TSPANs
|
BibTex
|
2017-06-23
|
R-HSA-9009817
|
Acitretin binds to RAR:RXR
|
BibTex
|
2017-02-14
|
R-HSA-8963915
|
1,25(OH)2D binds VDR
|
BibTex
|
2017-02-14
|
R-HSA-8963913
|
1,25(OH)2D translocates from cytosol to nucleoplasm
|
BibTex
|
2017-02-13
|
R-HSA-8963864
|
CUBN dissociates from 25(OH)D
|
BibTex
|
2017-02-13
|
R-HSA-8963872
|
VD3 translocates from ER membrane to extracellular region
|
BibTex
|
2017-02-13
|
R-HSA-8963851
|
VD3 dissociates from GC
|
BibTex
|
2017-02-02
|
R-HSA-8961021
|
SFTPD binds with itself to form SFTPD 12mer
|
BibTex
|
2017-02-02
|
R-HSA-8960973
|
RLBP1:11cRAL dissociates
|
BibTex
|
2017-01-31
|
R-HSA-8959798
|
SLC30A10 transports Mn2+ from cytosol to extracellular region
|
BibTex
|
2017-01-31
|
R-HSA-8959781
|
SLC25A29 transports basic amino acids from cytosol to mitochondrial matrix
|
BibTex
|
2017-01-30
|
R-HSA-8959719
|
SHPK phosphorylates Sedo to Sedo7P
|
BibTex
|
2017-01-26
|
R-HSA-8959510
|
SEPHS2 phosphorylates H2Se to form SELP
|
BibTex
|
2017-01-26
|
R-HSA-8959462
|
SAMD8 transfers phosphatidyl from PE onto C16DH CER
|
BibTex
|
2017-01-25
|
R-HSA-8957389
|
RPP14 (HTD2) dehydrates 3HA-CoA to t2E-CoA
|
BibTex
|
2017-01-23
|
R-HSA-8956458
|
RNLS:FAD oxidises dh-beta-NAD to NAD+
|
BibTex
|
2017-01-23
|
R-MMU-8956439
|
Retsat reduces atROL to at-13,14-dhROL
|
BibTex
|
2017-01-23
|
R-HSA-8956427
|
RETSAT reduces atROL to at-13,14-dhROL
|
BibTex
|
2017-01-13
|
R-HSA-8955844
|
RBKS phosphorylates ribose to R5P
|
BibTex
|
2017-01-13
|
R-HSA-8955817
|
PRODH2 oxidises HPRO to 1PYR-5COOH
|
BibTex
|
2017-01-13
|
R-HSA-8955794
|
PGP:Mg2+ dimer hydrolyses 3PG to glycerol
|
BibTex
|
2017-01-13
|
R-RNO-8955775
|
Pgp:Mg2+ dimer hydrolyses 3PG to glycerol
|
BibTex
|
2017-01-13
|
R-HSA-8955760
|
PGM2L1:Mg2+ phosphorylates G6P to G1,6BP
|
BibTex
|
2017-01-10
|
R-HSA-8955030
|
NADK2 dimer phosphorylates NAD+ to NADP+
|
BibTex
|
2017-01-10
|
R-HSA-8955010
|
LRTOMT transfers Met to DA, forming 3MT
|
BibTex
|
2017-01-09
|
R-HSA-8954513
|
NAA translocates from mitochondrial matrix to cytosol
|
BibTex
|
2017-01-09
|
R-HSA-8954468
|
NAT8L transfers acetyl group from Ac-CoA to L-Asp, forming NAA
|
BibTex
|
2017-01-09
|
R-HSA-8954398
|
PLD6 dimer hydrolyses cardiolipin to PA and PG
|
BibTex
|
2017-01-06
|
R-HSA-8954327
|
UCKL1 phosphorylates urindine, cytidine
|
BibTex
|
2017-01-06
|
R-HSA-8954262
|
TPST1,2 transfer SO4(2-) from PAPS to PODXL2
|
BibTex
|
2016-12-23
|
R-HSA-8953499
|
IMPAD1 hydrolyses PAP to AMP
|
BibTex
|
2016-12-22
|
R-HSA-8953398
|
PIR oxygenates quercetin
|
BibTex
|
2016-12-22
|
R-HSA-8953336
|
Expression of EXTL1
|
BibTex
|
2016-12-22
|
R-HSA-8953356
|
Expression of EXTL2
|
BibTex
|
2016-12-22
|
R-HSA-8953339
|
DNPH1 hydrolyses dGMP
|
BibTex
|
2016-12-20
|
R-HSA-8952903
|
ADPRHL2 hydrolyses poly(ADP-ribose)
|
BibTex
|
2016-12-20
|
R-HSA-8952873
|
MECR dimer reduces tdec2-CoA to DEC-CoA
|
BibTex
|
2016-12-16
|
R-HSA-8952726
|
SLC38A9 transports L-Arg from lysosomal lumen to cytosol
|
BibTex
|
2016-12-16
|
R-HSA-8952716
|
SLC38A9 binds Ragulator:Rag dimers
|
BibTex
|
2016-12-14
|
R-HSA-8952251
|
PLA2G15 hydrolyses LPC to GPCho and LCFA(-)
|
BibTex
|
2016-12-12
|
R-HSA-8951850
|
TSPO:BZRAP1 transports CHOL from outer mitochondrial membrane to inner mitochondrial membrane
|
BibTex
|
2016-10-13
|
R-HSA-8942344
|
FOLR2 transports FOLA from extracellular region to cytosol
|
BibTex
|
2016-10-11
|
R-HSA-8942208
|
ALOXE3 isomerises 12R-HpETE to HXA3
|
BibTex
|
2016-10-06
|
R-HSA-8941701
|
UGT1A10 transfers GlcA from UDP-GlcA to GCTN
|
BibTex
|
2016-10-04
|
R-HSA-8941543
|
VRAC heteromer transports I-, Cl- from cytosol to extracellular region
|
BibTex
|
2016-09-26
|
R-HSA-8940388
|
GPLD1 hydrolyses GPI-anchors from proteins
|
BibTex
|
2016-09-23
|
R-HSA-8940134
|
FOLR2 binds FOLA
|
BibTex
|
2016-09-23
|
R-HSA-8940070
|
NT5E:Zn2+ hydrolyses NAD+
|
BibTex
|
2016-09-23
|
R-HSA-8940074
|
NT5E:Zn2+ hydrolyses NMN
|
BibTex
|
2016-09-22
|
R-HSA-8939959
|
NMNAT2 transfers an adenylyl group from ATP to NMN to yield NAD+
|
BibTex
|
2016-09-08
|
R-HSA-8938076
|
CD38 hydrolyses NAD+ to NAM and ADP-ribose
|
BibTex
|
2016-09-08
|
R-HSA-8938073
|
PARPs transfer ADP-D-ribose to proteins (poly(ADP-ribosyl)ation)
|
BibTex
|
2016-09-05
|
R-HSA-8937631
|
CRHR2-2 binds CRH,UCN,UCN2,UCN3
|
BibTex
|
2016-09-05
|
R-HSA-8937613
|
CRHBP binds CRH
|
BibTex
|
2016-09-01
|
R-HSA-8937442
|
CES3 hydrolyses CHEST to CHOL and LCFA(-)
|
BibTex
|
2016-08-31
|
R-HSA-8937419
|
CBR3 reduces DOX to DOXOL
|
BibTex
|
2016-08-31
|
R-HSA-8937369
|
ATAD2 binds ESR1
|
BibTex
|
2016-08-30
|
R-HSA-8937191
|
AHR:TCDD:2xHSP90AB1:AIP:PTGES3 dissociates
|
BibTex
|
2016-08-30
|
R-HSA-8937177
|
AHR:TCDD binds ARNT
|
BibTex
|
2016-08-30
|
R-HSA-8937169
|
AHR:TCDD:2xHSP90AB1:AIP:PTGES3 translocates from cytosol to nucleoplasm
|
BibTex
|
2016-08-24
|
R-HSA-8936851
|
AHRR binds ARNT
|
BibTex
|
2016-08-24
|
R-HSA-8936849
|
AHR:2xHSP90:AIP:PTGES3 binds TCDD
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BibTex
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2016-08-22
|
R-HSA-8936519
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NQO2:FAD dimer reduces quinones to hydroquinones
|
BibTex
|
2016-08-19
|
R-HSA-8936442
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MARC1,MARC2 reduce N-hydroxylated compounds
|
BibTex
|
2016-08-18
|
R-HSA-8936356
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GUCY2C trimer binds sta1
|
BibTex
|
2016-08-17
|
R-HSA-8936214
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GUCY2C trimer binds GUCA2A,B
|
BibTex
|
2016-08-05
|
R-HSA-8933547
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MCAT transfers Mal from Mal-CoA to NDUFAB1
|
BibTex
|
2016-08-04
|
R-HSA-8933328
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LYPLA2 hydrolyses PALM-C3,4-GAP43
|
BibTex
|
2016-08-04
|
R-MMU-8933256
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Lsr trimer binds LDL
|
BibTex
|
2016-08-04
|
R-HSA-8933258
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LSR trimer binds LDL
|
BibTex
|
2016-08-04
|
R-MMU-8933295
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Lsr trimer binds VLDL
|
BibTex
|
2016-08-04
|
R-HSA-8933292
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LSR trimer binds VLDL
|
BibTex
|
2016-08-01
|
R-HSA-8932980
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SERINC3,5,(1,2,4) transport L-Ser from cytosol to plasma membrane
|
BibTex
|
2016-08-01
|
R-HSA-8932955
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SLC5A1 cotransports Glc,Gal with Na+ from extracellular region to cytosol
|
BibTex
|
2016-07-29
|
R-HSA-8932851
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PQLC2 transports L-Arg,L-His,L-Lys from lysosomal lumen to cytosol
|
BibTex
|
2016-07-27
|
R-HSA-8932633
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PON1,2,3:Ca2+ dimers hydrolyse 5-HETEL to 5-HETE
|
BibTex
|
2016-07-27
|
R-HSA-8932599
|
CALB1 binds 4xCa2+
|
BibTex
|
2016-07-18
|
R-HSA-8931653
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POMK 6-phosphorylates Mannose in GalNAc-GlcNAc-Man-DAG1
|
BibTex
|
2016-07-18
|
R-HSA-8931648
|
B3GALNT2 transfers GalNAc to GlcNAc-Man-DAG1
|
BibTex
|
2016-07-15
|
R-HSA-8879117
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POMGNT2 transfers GlcNAc to Man-DAG1
|
BibTex
|
2016-07-14
|
R-HSA-8878914
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B3GALNT1 transfers GalNAc to Gb3Cer to form Gb4Cer
|
BibTex
|
2016-07-13
|
R-HSA-8878787
|
ALPI dimer hydrolyses phosphate monoesters
|
BibTex
|
2016-07-12
|
R-HSA-8878664
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SLC4A4 cotransports Na+ with 3HCO3-
|
BibTex
|
2016-07-12
|
R-HSA-8878654
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ACP6 hydrolyses MYS-LPA
|
BibTex
|
2016-07-11
|
R-HSA-8878581
|
TYRP1 oxidises DHICA to IQCA
|
BibTex
|
2016-06-21
|
R-HSA-8877153
|
STARD7 binds PC
|
BibTex
|
2016-06-17
|
R-HSA-8876889
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Btn-ACACB:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA
|
BibTex
|
2016-06-16
|
R-HSA-8876731
|
CHEST translocates from ER membrane to lipid particle
|
BibTex
|
2016-06-16
|
R-HSA-8876696
|
SOAT1,2 transfer acyl group to CHOL forming CHEST
|
BibTex
|
2016-06-15
|
R-HSA-8876472
|
NPC2 binds CHOL
|
BibTex
|
2016-06-15
|
R-HSA-8876484
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NPC2 transfers CHOL to NPC1
|
BibTex
|
2016-06-15
|
R-HSA-8876485
|
CHOL translocates from lysosome membrane to ER membrane
|
BibTex
|
2016-06-14
|
R-HSA-8876366
|
LDL translocates from endosome lumen to lysosome lumen
|
BibTex
|
2016-06-13
|
R-HSA-8876319
|
SLC50A1 transports Glc from cytosol to extracellular region
|
BibTex
|
2016-06-13
|
R-HSA-8876312
|
SLC5A12 cotransports Na+ with LACT, PYR, NCA from extracellular region to cytosol
|
BibTex
|
2016-06-13
|
R-HSA-8876283
|
SLC5A10 cotransports Na+ with Man, Fru from extracellular region to cytosol
|
BibTex
|
2016-06-09
|
R-HSA-8875902
|
SLC45A3 transports Glc from extracellular region to cytosol
|
BibTex
|
2016-06-09
|
R-HSA-8875871
|
SLC26A11 transports SO4(2-) from extracellular region to cytosol
|
BibTex
|
2016-06-09
|
R-HSA-8875838
|
SLC25A19 transports ThDP from cytosol to mitochondrial matrix
|
BibTex
|
2016-06-08
|
R-HSA-8875623
|
SLC25A18,22 import L-Glu, H+
|
BibTex
|
2016-06-01
|
R-HSA-8875071
|
ACSS3 ligates CoA to CH3COO-
|
BibTex
|
2016-06-01
|
R-MMU-8875095
|
Slc27a3 ligates CoA to VLCFA
|
BibTex
|
2016-06-01
|
R-HSA-8875077
|
SLC27A3 ligates CoA-SH to VLCFA
|
BibTex
|
2016-06-01
|
R-HSA-8875013
|
ACSM3,ACSM6 ligate CoA to BUT
|
BibTex
|
2016-06-01
|
R-MMU-8875039
|
Acsm3 ligates CoA to BUT
|
BibTex
|
2016-05-31
|
R-HSA-8874979
|
ACBD3 binds GOLGB1
|
BibTex
|
2016-05-27
|
R-HSA-8874745
|
ACAA2 tetramer transfers acyl group from Ac-CoA to acyl-CoA forming 3OA-CoA and CoA-SH
|
BibTex
|
2016-05-26
|
R-HSA-8874718
|
TTPA binds alpha-TOH
|
BibTex
|
2016-05-26
|
R-HSA-8874705
|
TTPA transports alpha-TOH from lysosomal membrane to plasma membrane
|
BibTex
|
2016-05-24
|
R-HSA-8874470
|
TNFAIP8 proteins transfer PI(4,5)P2, PI(3,4,5)P3 from cytosolic vesicles to plasma membrane
|
BibTex
|
2016-05-23
|
R-HSA-8874435
|
THEM86B hydrolyses PMCHO, PMETAM
|
BibTex
|
2016-05-20
|
R-HSA-8873929
|
Casein kinase II phosphorylates STARD10
|
BibTex
|
2016-05-20
|
R-HSA-8873834
|
STARD10 transports PC from ER membrane to lamellar body membrane
|
BibTex
|
2016-05-20
|
R-HSA-8873794
|
PCTP binds PC
|
BibTex
|
2016-05-20
|
R-HSA-8873923
|
STARD10 binds LPCAT1 and PC
|
BibTex
|
2016-05-20
|
R-RNO-8873889
|
Stard7 transports PC from ER membrane to mitochondrial outer membrane
|
BibTex
|
2016-05-20
|
R-HSA-8873850
|
STARD5 binds DCA, LCA
|
BibTex
|
2016-05-20
|
R-HSA-8873830
|
STARD7 transports PC from ER membrane to mitochondrial outer membrane
|
BibTex
|
2016-05-17
|
R-HSA-8871506
|
SORL1 transports APP(18-770) from endosome lumen to Golgi lumen
|
BibTex
|
2016-05-17
|
R-HSA-8871494
|
SORL1 binds APP(18-770)
|
BibTex
|
2016-05-16
|
R-HSA-8871376
|
p-Y389,400-RUFY1 binds PI3P
|
BibTex
|
2016-05-16
|
R-HSA-8871370
|
p-Y389,400-RUFY1 translocates from cytosol to early endosome membrane
|
BibTex
|
2016-05-16
|
R-HSA-8871373
|
BMX phosphorylates RUFY1
|
BibTex
|
2016-05-16
|
R-HSA-8871366
|
p-Y389,400-RUFY1 binds RAB4A:GTP, RAB5:GTP, RAB14:GTP
|
BibTex
|
2016-05-10
|
R-HSA-8870499
|
PLEKHA3,8 bind PI4P, ARF1
|
BibTex
|
2016-05-10
|
R-HSA-8870489
|
PLEKHA4,(5,6) bind PI3P
|
BibTex
|
2016-05-09
|
R-HSA-8870332
|
PTPN13:PLEKHA1,2 bind PI(3,4)P2
|
BibTex
|
2016-05-04
|
R-HSA-8869425
|
PLA1A hydrolyses PS to 2-acyl LPS
|
BibTex
|
2016-04-26
|
R-HSA-8869241
|
PITPNM1,2,3 exchange PI for PA
|
BibTex
|
2016-04-26
|
R-HSA-8869206
|
PAFAH2 hydrolyses PAF to lyso-PAF and acetate
|
BibTex
|
2016-04-21
|
R-HSA-8868402
|
OSBP exchanges 25OH-CHOL with PI4P from ER membrane to Golgi membrane
|
BibTex
|
2016-04-18
|
R-HSA-8867876
|
OSBPL5,8,10 exchange PS with PI4P from ER membrane to plasma membrane
|
BibTex
|
2016-04-15
|
R-HSA-8867667
|
OSBPs transport 25OH-CHOL from ER membrane to plasma membrane
|
BibTex
|
2016-04-07
|
R-HSA-8867344
|
OMA1 hydrolyses OPA1
|
BibTex
|
2016-04-05
|
R-HSA-8866941
|
MID1IP1 binds THRSP
|
BibTex
|
2016-03-30
|
R-HSA-8866321
|
VLDL binds APOC1 and APOC4
|
BibTex
|
2016-03-30
|
R-HSA-8866329
|
MTTP lipidates APOB-100, forming a pre-VLDL
|
BibTex
|
2016-03-30
|
R-HSA-8866308
|
pre-VLDL translocates from RER membrane to SER lumen
|
BibTex
|
2016-03-30
|
R-HSA-8866304
|
pre-VLDL binds lipids to form VLDL
|
BibTex
|
2016-03-30
|
R-HSA-8866327
|
VLDL translocates from SER lumen to extracellular region
|
BibTex
|
2016-03-23
|
R-HSA-8865637
|
MFSD2A transports LPC from extracellular region to plasma membrane
|
BibTex
|
2016-03-23
|
R-HSA-8865667
|
LIPA hydrolyses sterol esters to sterols and fatty acids
|
BibTex
|
2016-02-26
|
R-HSA-8862380
|
HSD17B13 binds lipid droplets
|
BibTex
|
2016-02-25
|
R-HSA-8862152
|
2xHSD17B8:2xCBR4 reduces 3OA-ACP to 3HA-ACP
|
BibTex
|
2016-02-25
|
R-HSA-8862137
|
HSD17B2 oxidises estradiol (E2) to estrone (E1)
|
BibTex
|
2016-02-18
|
R-HSA-8858298
|
HRASLS transfer acyl group from PC to PE to form NAPE
|
BibTex
|
2016-02-18
|
R-HSA-8858270
|
HILPDA binds lipid droplets
|
BibTex
|
2016-02-18
|
R-HSA-8858252
|
HDLBP binds HDL
|
BibTex
|
2016-02-17
|
R-HSA-8857928
|
GPIHBP1 binds HSPG:LPL dimer
|
BibTex
|
2016-02-16
|
R-HSA-8857692
|
RNA demethylases demethylate N6-methyladenosine RNA
|
BibTex
|
2016-02-16
|
R-HSA-8857686
|
FITM1, FITM2 bind TAGs
|
BibTex
|
2016-02-16
|
R-HSA-8857662
|
ESYT1:ESYT2:ESYT3 transport GPL from plasma membrane to ER membrane
|
BibTex
|
2016-02-11
|
R-HSA-8856630
|
CIDEA:CIDEC binds lipid droplets
|
BibTex
|
2016-02-10
|
R-HSA-8856525
|
ANGPTL8 binds ANGPTL3
|
BibTex
|
2016-02-09
|
R-HSA-8856223
|
B4GALNT1 dimer transfers GalNAc to gangliosides
|
BibTex
|
2016-02-08
|
R-HSA-8855954
|
B4GALNT2 transfers GalNAc from UDP-GalNAc to Sial-Gal-GlcNAc-Gal to form the Sd(a) antigen on UMOD
|
BibTex
|
2016-02-05
|
R-HSA-8855711
|
PALM-C36-ASGR1:PALM-C54,58-ASGR2 binds desialated glycoproteins
|
BibTex
|
2016-02-03
|
R-HSA-8855259
|
RELN:VLDLR:DAB1 binds SH3KBP1
|
BibTex
|
2016-02-03
|
R-HSA-8855232
|
RELN:VLDLR binds DAB1
|
BibTex
|
2016-02-03
|
R-HSA-8855237
|
FYN phosphorylates DAB1 in RELN:VLDLR:DAB1:SH3KBP1
|
BibTex
|
2016-02-01
|
R-HSA-8855130
|
VLDLR:PCSK9:Clathrin-coated vesicle translocates from the plasma membrane to lysosomal membrane
|
BibTex
|
2016-02-01
|
R-HSA-8855131
|
VLDLR:PCSK9 binds Clathrin-coated vesicles
|
BibTex
|
2016-02-01
|
R-HSA-8855111
|
VLDLR binds PCSK9
|
BibTex
|
2016-01-28
|
R-HSA-8854628
|
MYLIP dimer ubiquitinates VLDLR on Lys-839
|
BibTex
|
2016-01-27
|
R-HSA-8854466
|
VLDLR binds RELN
|
BibTex
|
2016-01-27
|
R-HSA-8854462
|
VLDLR binds VLDL
|
BibTex
|
2016-01-27
|
R-HSA-8854408
|
APOBR dimer binds VLDLs
|
BibTex
|
2016-01-25
|
R-HSA-8853686
|
MAN2B1 hydrolyses GlcNAc (Man)5 to GlcNAc (Man)3
|
BibTex
|
2016-01-25
|
R-HSA-8853710
|
MANBA hydrolyses GlcNAc:Man
|
BibTex
|
2016-01-22
|
R-HSA-8853391
|
GlcNAc (Man)5 translocates from cytosol to lysosomal lumen
|
BibTex
|
2016-01-22
|
R-HSA-8853379
|
ENGASE hydrolyses unfolded protein:(GlcNAc)2 (Man(9-5)
|
BibTex
|
2016-01-19
|
R-HSA-8852552
|
MST1R autophosphorylates
|
BibTex
|
2016-01-19
|
R-HSA-8852522
|
MST1 dimer:MST1R dimer binds MST1R dimer
|
BibTex
|
2016-01-08
|
R-HSA-8851619
|
GALNT3 transfers GalNAc to FGF23
|
BibTex
|
2016-01-08
|
R-HSA-8851632
|
GalNAc-T178-FGF23(25-251) translocates from Golgi lumen to extracellular region
|
BibTex
|
2015-12-24
|
R-HSA-8850594
|
Deglycosylation complex hydrolyses N-glycans from unfolded glycoproteins
|
BibTex
|
2015-12-10
|
R-HSA-8848658
|
CAPN:4xCa2+:CAPNS cleave cytoskeletal proteins
|
BibTex
|
2015-12-10
|
R-HSA-8848663
|
ADIPOQ trimer binds ADIPOR dimers
|
BibTex
|
2015-12-07
|
R-HSA-8848250
|
ACBD6 binds LCFA-CoA
|
BibTex
|
2015-12-07
|
R-HSA-8848246
|
DBI, ACBD7 bind MCFA-CoA and LCFA-CoA
|
BibTex
|
2015-12-07
|
R-HSA-8848247
|
ACBD4,5 bind MCFA-CoA and LCFA-CoA
|
BibTex
|
2015-12-07
|
R-HSA-8848215
|
ACAT2 condenses 2 Ac-CoA to form ACA-CoA
|
BibTex
|
2015-12-04
|
R-HSA-8848053
|
ABCA5 transports CHOL from lysosomal lumen to cytosol
|
BibTex
|
2015-11-25
|
R-HSA-6814165
|
PXLP-K333-GADL1 decarboxylates CSA to HTAU
|
BibTex
|
2015-11-25
|
R-HSA-6814153
|
ADO oxidises 2AET to HTAU
|
BibTex
|
2015-11-24
|
R-HSA-6813749
|
ALDH1A1 oxidises GA to DGA
|
BibTex
|
2015-11-18
|
R-HSA-6810594
|
HSD17B14 tetramer oxidises estradiol (E2) to estrone (E1)
|
BibTex
|
2015-11-17
|
R-HSA-6810472
|
NUDT13 hydrolyses AP6A to AP4 and ADP
|
BibTex
|
2015-11-17
|
R-HSA-6810474
|
NUDT19 hydrolyses acyl-CoA to 3',5'-ADP and acyl-PPANT
|
BibTex
|
2015-11-17
|
R-HSA-6810464
|
NUDT14 hydrolyses UDP-Glc to G1P and UMP
|
BibTex
|
2015-11-17
|
R-MMU-6810452
|
Nudt7 hydrolyses CoA-SH to 3',5'-ADP and PPANT
|
BibTex
|
2015-11-11
|
R-HSA-6809354
|
NUDT7 hydrolyses CoA-SH to 3',5'-ADP and PPANT
|
BibTex
|
2015-11-10
|
R-HSA-6809287
|
NUDT12 hydrolyses NADH to NMNH
|
BibTex
|
2015-11-03
|
R-HSA-6807557
|
NOX4, NOX5 reduce O2 to O2.-
|
BibTex
|
2015-10-30
|
R-HSA-6807242
|
25(OH)D translocates from ER membrane to extracellular region
|
BibTex
|
2015-10-28
|
R-HSA-6806966
|
APOA1BP dimer epimerises R-NAD(P)HX to S-NAD(P)HX
|
BibTex
|
2015-10-28
|
R-HSA-6806967
|
CARKD dehydrates S-NAD(P)HX to NADPH
|
BibTex
|
2015-10-27
|
R-HSA-6806877
|
NME1:NME3 heterohexamer, NME2P1 phosphorylate NDPs to NTPs
|
BibTex
|
2015-10-26
|
R-HSA-6806831
|
CYB5Rs reduce MetHb to HbA
|
BibTex
|
2015-10-07
|
R-HSA-6803761
|
RENBP isomerises ManNAc, ManNGc to GlcNAc, GlcNGc
|
BibTex
|
2015-10-07
|
R-HSA-6803753
|
NAAA hydrolyses NAEs to FAs and ethanolamine
|
BibTex
|
2015-10-07
|
R-HSA-6803789
|
AMDHD2 hydrolyses GlcNGc-6-P to GlcN6P and CCA
|
BibTex
|
2015-10-07
|
R-HSA-6803771
|
NAGK dimer phosphorylates GlcNAc, GlcNGc to GlcNAc-6-P, GlcNGc-6-P
|
BibTex
|
2015-10-05
|
R-HSA-6803255
|
HCOOH translocated from mitochondrial matrix to cytosol
|
BibTex
|
2015-10-02
|
R-HSA-6801462
|
MTHFD2, D2L oxidise 5,10-methenyl-THF to 10-formyl-THF
|
BibTex
|
2015-10-02
|
R-HSA-6801456
|
MTHFD1L transforms 10-formyl-THF to HCOOH and THF
|
BibTex
|
2015-10-01
|
R-HSA-6801342
|
MTHFS transforms 5-formyl-THFPG to 5,10-methenyl-THFPG
|
BibTex
|
2015-10-01
|
R-HSA-6801328
|
MTHFD2, D2L oxidise 5,10-methylene-THF to 5,10-methenyl-THF
|
BibTex
|
2015-09-30
|
R-HSA-6800868
|
NDUF subunits bind to form the IP subcomplex
|
BibTex
|
2015-09-30
|
R-HSA-6800870
|
NDUF subunits bind to form the FP subcomplex
|
BibTex
|
2015-09-29
|
R-HSA-6800334
|
MOGAT1,2,3 transfer acyl group from acyl-CoA to 2-acylglycerol to form DAG
|
BibTex
|
2015-09-29
|
R-HSA-6800315
|
MST1 binds MST1R
|
BibTex
|
2015-09-29
|
R-HSA-6800299
|
HGFAC cleaves pro-HGF to form HGF dimer
|
BibTex
|
2015-09-29
|
R-HSA-6800298
|
HGF dimer binds MET
|
BibTex
|
2015-09-28
|
R-HSA-6800198
|
HPN heterodimer cleaves pro-MST1 to form MST1 dimer
|
BibTex
|
2015-09-28
|
R-HSA-6800138
|
N6AMT1:TRMT112 transfers CH3 group from AdoMet to ETF1 dimer
|
BibTex
|
2015-09-28
|
R-HSA-6800149
|
N6AMT1:TRMT112 transfers CH3 group from AdoMet to MMAIII
|
BibTex
|
2015-09-28
|
R-HSA-6800200
|
HPN heterodimer cleaves pro-HGF to form HGF dimer
|
BibTex
|
2015-09-25
|
R-HSA-6799695
|
GPX5,6 reduce H2O2 to H2O
|
BibTex
|
2015-09-25
|
R-HSA-6799604
|
GNPDA1,2 hexamers deaminate GlcN6P to Fru(6)P
|
BibTex
|
2015-09-25
|
R-HSA-6799581
|
MAN2B2 hydrolyses GlcNAc (Man)3 to GlcNAc:Man
|
BibTex
|
2015-09-25
|
R-HSA-6799545
|
MAN2C1 hydrolyses GlcNAc (Man)9 to GlcNAc (Man)5
|
BibTex
|
2015-09-25
|
R-HSA-6799495
|
GLYCTK phosphorylates DGA to 3PDGA
|
BibTex
|
2015-09-22
|
R-HSA-6799196
|
The MCIA complex, NDUFAF2-7 all dissociate from the 980kDa complex, resulting in Complex I
|
BibTex
|
2015-09-22
|
R-HSA-6799203
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IP subcomplex binds NDUFAF3, NDUFAF4, TIMMDC1 to form Intermediate 1
|
BibTex
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2015-09-22
|
R-HSA-6799202
|
The 315kDa subcomplex binds the 370kDa subcomplex to form the 550kDa complex
|
BibTex
|
2015-09-22
|
R-HSA-6799199
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COA1:MT-ND2, TMEM186:MT-ND3, MT-ND6, NDUFB6 bind the MCIA complex to form a 370kDa subcomplex
|
BibTex
|
2015-09-22
|
R-HSA-6799191
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Intermediate 2 binds MT-ND1:NDUFAF5:NDUFAF6 to form a 315kDa subcomplex
|
BibTex
|
2015-09-22
|
R-HSA-6799178
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Intermediate 1 binds HP subcomplex to form Intermediate 2
|
BibTex
|
2015-09-22
|
R-HSA-6799179
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Peripheral arm subunits bind the 815kDa complex to form a 980kDa complex
|
BibTex
|
2015-09-22
|
R-HSA-6799197
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ND4, ND5 bind the 550kDa complex to form the 815kDa complex
|
BibTex
|
2015-09-21
|
R-HSA-6798667
|
TDH tetramer oxidises L-Thr to 2A-3OB
|
BibTex
|
2015-09-18
|
R-HSA-6798345
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PXLP-GCAT dimer ligates CoASH to 2A-3OB to form Gly and Ac-CoA
|
BibTex
|
2015-09-18
|
R-HSA-6798335
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BPGM dimer isomerises 1,3BPG to 2,3BPG
|
BibTex
|
2015-09-18
|
R-HSA-6798317
|
GNMT tetramer transfers methyl group from AdoMet to Gly to form AdoHyc and SARC
|
BibTex
|
2015-09-16
|
R-HSA-6797962
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DMGLY translocates from cytosol to mitochondrial matrix
|
BibTex
|
2015-09-16
|
R-HSA-6797956
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SLC44A1 transports Cho from cytosol to mitochondrial matrix
|
BibTex
|
2015-09-16
|
R-HSA-6797961
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CHDH oxidises Cho to BETALD
|
BibTex
|
2015-09-16
|
R-HSA-6797955
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ALDH7A1 oxidises BETALD to BET
|
BibTex
|
2015-09-16
|
R-HSA-6797957
|
BET translocates from mitochondrial matrix to cytosol
|
BibTex
|
2015-09-16
|
R-HSA-6797913
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SARDH:FAD oxidatively demethylates SARC to Gly
|
BibTex
|
2015-09-15
|
R-HSA-6797653
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DMGDH:FAD oxidatively demethylates DMGLY to SARC
|
BibTex
|
2015-09-15
|
R-HSA-6797630
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LRPP4(LRPP1-3,5) hydrolyse LPA
|
BibTex
|
2015-09-15
|
R-HSA-6797627
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ASPG hydrolyses L-Asn to L-Asp
|
BibTex
|
2015-09-02
|
R-HSA-6793590
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LIPT2 transfers octanoyl group to GCSH
|
BibTex
|
2015-09-02
|
R-HSA-6793591
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LIAS synthesizes lipoyl-GCSH
|
BibTex
|
2015-08-25
|
R-HSA-6792572
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LIPT1 transfers lipoyl group from lipoyl-GCSH to DBT/DLST
|
BibTex
|
2015-08-24
|
R-HSA-6792445
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LIPH, I hydrolyse PA to 2-acyl LPA
|
BibTex
|
2015-08-17
|
R-HSA-6791016
|
SFTPB binds itself
|
BibTex
|
2015-07-30
|
R-HSA-8979996
|
LIPs hydrolyze TG to DAG and LCFA
|
BibTex
|
2015-07-30
|
R-HSA-6789310
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LIPs hydrolyse TG to DAG and RCOOH
|
BibTex
|
2015-07-30
|
R-HSA-8980228
|
LIPG dimer hydrolyzes HDL-associated TAG to DAG and LCFA
|
BibTex
|
2015-07-28
|
R-HSA-6788912
|
LHPP:Mg2+ dimer hydrolyses PPi
|
BibTex
|
2015-07-27
|
R-HSA-6788867
|
FN3K phosphorylates ketosamines
|
BibTex
|
2015-07-27
|
R-HSA-6788855
|
FN3KRP phosphorylates PsiAm, RibAm
|
BibTex
|
2015-07-27
|
R-HSA-6788810
|
AK6 phosphorylates (d)NMPs to (d)NDPs
|
BibTex
|
2015-07-27
|
R-HSA-6788798
|
AK4 phosphorylates (d)NMPs to (d)NDPs
|
BibTex
|
2015-07-24
|
R-HSA-6788650
|
ICMT:Zn2+ transfers CH3 from AdoMet to isoprenylated proteins
|
BibTex
|
2015-07-23
|
R-HSA-6788611
|
HYKK phosphorylates 5HLYS
|
BibTex
|
2015-07-23
|
R-HSA-6788597
|
HMGCLL1:Mg2+ cleaves bHMG-CoA to Ac-CoA and ACA
|
BibTex
|
2015-07-22
|
R-HSA-6788523
|
NUBPL transfers 4Fe-4S to Complex I subunits
|
BibTex
|
2015-07-22
|
R-HSA-6788556
|
NUBPL transfers 4Fe-4S to NDUFV1, V2
|
BibTex
|
2015-07-20
|
R-HSA-6788295
|
HDHD1:Mg2+ dephosphorylates PURIDP
|
BibTex
|
2015-07-17
|
R-HSA-6787811
|
HAO2 tetramer oxidises 2OH-PALM
|
BibTex
|
2015-07-17
|
R-HSA-6787757
|
PXLP-K333-GADL1 decarboxylates acidic AAs
|
BibTex
|
2015-07-15
|
R-HSA-6787677
|
FUOM isomerises alpha-Fuc to beta-Fuc
|
BibTex
|
2015-07-15
|
R-HSA-6787642
|
TSTA3 dimer reduces GDP-KDGal to GDP-Fuc
|
BibTex
|
2015-07-15
|
R-HSA-6787632
|
GMDS dehydrates GDP-Man to GDP-DHDMan
|
BibTex
|
2015-07-15
|
R-HSA-6787623
|
TSTA3 dimer epimerises GDP-DHDMan to GDP-KDGal
|
BibTex
|
2015-07-14
|
R-HSA-6787540
|
FUK phosphorylates beta-Fuc to Fuc1P
|
BibTex
|
2015-07-14
|
R-HSA-6787533
|
FPGT transfers guanylyl group from GTP to Fuc1P to form GDP-Fuc
|
BibTex
|
2015-07-13
|
R-HSA-6787321
|
DERA cleaves dR5P to GA3P and CH3CHO
|
BibTex
|
2015-07-13
|
R-HSA-6787329
|
PGM2:Mg2+ isomerises R1P to R5P
|
BibTex
|
2015-07-13
|
R-HSA-8982667
|
PGM2:Mg2+ isomerises dR1P to dR5P
|
BibTex
|
2015-07-10
|
R-HSA-6786720
|
DECR2 reduces LCtE-CoA to t3enoyl-CoA
|
BibTex
|
2015-07-09
|
R-HSA-6786650
|
DDHD1,2 hydrolyse PA
|
BibTex
|
2015-07-09
|
R-HSA-6786652
|
CHIT1 hydrolyses CHIT to 3xADGP
|
BibTex
|
2015-07-07
|
R-HSA-6786421
|
CHIA hydrolyses chitin
|
BibTex
|
2015-07-06
|
R-HSA-6786205
|
KAMKMT transfers 3xCH3 groups from 3xAdoMet to CALM1
|
BibTex
|
2015-07-06
|
R-HSA-6786239
|
CYP4V2 omega-hydroxylates DHA to HDoHE
|
BibTex
|
2015-07-06
|
R-HSA-6786190
|
CMBL hydrolyses OM to OLMS
|
BibTex
|
2015-07-06
|
R-MMU-6786295
|
Dctpp1 hydrolyses 5idCTP
|
BibTex
|
2015-07-06
|
R-HSA-6786257
|
DCTPP1 hydrolyses 5idCTP
|
BibTex
|
2015-07-06
|
R-HSA-6786245
|
CARNS1 transforms ATP, L-His, b-Ala to CARN
|
BibTex
|
2015-07-03
|
R-HSA-6786012
|
CHST4 transfers SO4(2-) from PAPS to Core 2 mucins
|
BibTex
|
2015-07-03
|
R-HSA-6786048
|
CHST10 transfers SO4(2-) from PAPS to GlcA-LacN on NCAM1
|
BibTex
|
2015-07-03
|
R-HSA-6786034
|
CHST8 transfers SO4(2-) from PAPS to glyco-Lutropin
|
BibTex
|
2015-07-02
|
R-HSA-6785928
|
CHAC1,2 cleaves GSH to OPRO and CysGly
|
BibTex
|
2015-07-02
|
R-HSA-6785933
|
UGT8 transfers Gal from UDP-Gal to CERA
|
BibTex
|
2015-06-30
|
R-HSA-6785668
|
Defective LARGE does not transfer Xyl from UDP-Xyl to GlcA
|
BibTex
|
2015-06-29
|
R-HSA-6785565
|
Defective B3GALTL does not transfer glucose to O-fucosyl-proteins
|
BibTex
|
2015-06-29
|
R-HSA-6785524
|
Defective C1GALT1C1 does not bind C1GALT1
|
BibTex
|
2015-06-25
|
R-HSA-6785213
|
LIPC dimer binds heparin
|
BibTex
|
2015-06-25
|
R-HSA-6785178
|
LMF1,2 transport LIPC dimer from ER lumen to extracellular region
|
BibTex
|
2015-06-25
|
R-HSA-6785181
|
LMF1,2 bind LIPC dimer
|
BibTex
|
2015-06-23
|
R-HSA-6784959
|
BPHL hydrolyses VACV to ACV
|
BibTex
|
2015-06-22
|
R-HSA-6784598
|
NPPA(124-151) binds NPR1
|
BibTex
|
2015-06-17
|
R-HSA-6783880
|
PIPOX oxidises PPCA to P6C
|
BibTex
|
2015-06-17
|
R-HSA-6783883
|
P6C transforms to 2AMAS
|
BibTex
|
2015-06-12
|
R-HSA-6783332
|
APP(672-713),APP(672-711) translocate from endosome lumen to extracellular region
|
BibTex
|
2015-06-11
|
R-HSA-6783221
|
HAGH hydrolyses (R)-S-LGSH to GSH and LACT
|
BibTex
|
2015-06-08
|
R-HSA-6782685
|
EDEM1,3 hydrolyse (GlcNAc)2 (Man)8b to (GlcNAc)2 (Man)5
|
BibTex
|
2015-06-01
|
R-HSA-5696822
|
AKR1B15 reduces EST17b to E1
|
BibTex
|
2015-06-01
|
R-HSA-5696839
|
MTHFD1L dimer ligates HCOOH to THF to form 10-formyl-THF
|
BibTex
|
2015-06-01
|
R-HSA-5696838
|
BHMT2 tetramer transfers CH3 group from SMM to LHCYS
|
BibTex
|
2015-05-29
|
R-HSA-5696415
|
PXLP-K278-ETNPPL tetramer hydrolyses PETA
|
BibTex
|
2015-05-29
|
R-HSA-5696424
|
AWAT1 transfers acyl group from acyl-CoA to ARACOH, forming wax esters
|
BibTex
|
2015-05-29
|
R-HSA-5696457
|
BDH2 dehydrogenates 3HBA
|
BibTex
|
2015-05-29
|
R-HSA-5696408
|
PXLP-K278-PHYKPL tetramer hydrolyses 5PHL
|
BibTex
|
2015-05-29
|
R-HSA-5696448
|
AWAT2 transfers acyl group from acyl-CoA to MAG, forming DAG
|
BibTex
|
2015-05-28
|
R-HSA-5696146
|
AOC2 deaminates TYR
|
BibTex
|
2015-05-28
|
R-HSA-5696365
|
ASRGL1 hydrolyses aspartame to L-Asp, L-Phe
|
BibTex
|
2015-05-28
|
R-HSA-5696197
|
NUDT2 hydrolyses GP4G to GTP, GMP
|
BibTex
|
2015-05-28
|
R-HSA-5696213
|
AS3MT transfers CH3 from AdoMet to methylarsonite
|
BibTex
|
2015-05-28
|
R-HSA-5696220
|
AS3MT transfers CH3 from AdoMet to arsenite(3-)
|
BibTex
|
2015-05-28
|
R-HSA-5696230
|
GSTO1 dimer reduces methylarsonate to methylarsonite
|
BibTex
|
2015-05-28
|
R-HSA-5696183
|
AOC3 deaminates BZAM
|
BibTex
|
2015-05-27
|
R-HSA-5696074
|
AGK:Mg2+ phosphorylates MAG, DAG
|
BibTex
|
2015-05-27
|
R-HSA-5696021
|
ADPGK:Mg2+ phosphorylates Glc to G6P
|
BibTex
|
2015-05-27
|
R-HSA-5696080
|
ALDH3B1 oxidises HXAL to PALM
|
BibTex
|
2015-05-27
|
R-HSA-5696049
|
ADPRM hydrolyses ADP-ribose to R5P and AMP
|
BibTex
|
2015-05-27
|
R-HSA-5696131
|
AOC1 deaminates Hist
|
BibTex
|
2015-05-27
|
R-HSA-5696091
|
ALDH1B1 tetramer oxidises CH3CHO to CH3COOH
|
BibTex
|
2015-05-27
|
R-HSA-5696101
|
ALDH8A1 oxidises 9cRAL to 9cRA
|
BibTex
|
2015-05-27
|
R-HSA-5696119
|
AGMO cleaves alkylglycerol into fatty aldehyde and glycerol
|
BibTex
|
2015-05-26
|
R-HSA-5695964
|
ABHD14B hydrolyses PNPB
|
BibTex
|
2015-05-26
|
R-HSA-5696004
|
ACSF2 ligates CoA-SH to MCFA
|
BibTex
|
2015-05-26
|
R-HSA-5695989
|
ACAD11 dehydrogenates BH-CoA
|
BibTex
|
2015-05-26
|
R-HSA-5695980
|
ACAD10 dehydrogenates S-2MPDA-CoA
|
BibTex
|
2015-05-26
|
R-HSA-5696007
|
ACSF3 ligates CoA-SH to VLCFA
|
BibTex
|
2015-05-26
|
R-HSA-5695957
|
ACSBG1,2 ligates CoA-SH to VLCFA, forming VLCFA-CoA
|
BibTex
|
2015-05-22
|
R-HSA-5694583
|
ABHD4 hydrolyses NAPE
|
BibTex
|
2015-05-22
|
R-HSA-5694563
|
ABHD10 hydrolyses MPAG
|
BibTex
|
2015-05-21
|
R-HSA-5694485
|
ABHD3 hydrolyses LPC(14:0) to 1AGPC
|
BibTex
|
2015-05-21
|
R-HSA-5694487
|
A4GNT transfers GlcNAc to core 2 mucins
|
BibTex
|
2015-05-21
|
R-HSA-5694071
|
GLO1 dimer:2xZn2+ transforms MGXL and GSH to (R)-S-LGSH
|
BibTex
|
2015-05-21
|
R-HSA-5694494
|
AACS ligates CoA-SH to ACA, forming ACA-CoA
|
BibTex
|
2015-05-21
|
R-HSA-5694082
|
XK:KEL:Zn2+ cleaves EDN3
|
BibTex
|
2015-05-21
|
R-HSA-5694462
|
ABHD6,12 hydrolyse 3AG
|
BibTex
|
2015-05-21
|
R-HSA-5694126
|
NT5C3B hydrolyses 7MGP to 7MG
|
BibTex
|
2015-05-21
|
R-HSA-5694109
|
LIPC dimer hydrolyses TAG to DAG and FA
|
BibTex
|
2015-05-21
|
R-HSA-5694137
|
PXLP-K280-SHMT2 tetramer transfers CH2OH group to Gly to form L-Ser
|
BibTex
|
2015-05-21
|
R-HSA-5694077
|
EPHX1 hydrates BaP4,5O to BaP4,5-DHD
|
BibTex
|
2015-05-20
|
R-HSA-5694018
|
DLD dimer:2xFAD oxidises GCSH:DHLL to GCSH:lipoate
|
BibTex
|
2015-05-19
|
R-HSA-5693977
|
AMT transfers NH2CH2 from GCSH:SAMDLL to THF
|
BibTex
|
2015-05-19
|
R-HSA-5693967
|
PXLP-K754-GLDC dimer decarboxylates Gly
|
BibTex
|
2015-05-19
|
R-HSA-5693925
|
FUT3 transfers L-fucose to Gal1,3GlcNAc
|
BibTex
|
2015-05-18
|
R-HSA-5693742
|
FAAH hydrolyses AEA to AA and ETA
|
BibTex
|
2015-05-18
|
R-HSA-5693751
|
FAAH2 hydrolyses AEA to AA and ETA
|
BibTex
|
2015-05-18
|
R-HSA-5693691
|
CES1 trimer.CES2 hydrolyse COCN to BEG
|
BibTex
|
2015-05-18
|
R-HSA-5693724
|
ESD dimer hydrolyses S-FGSH to GSH
|
BibTex
|
2015-05-18
|
R-HSA-5693807
|
FUCA1 hydrolyses NGP:1,6-GlcNAc
|
BibTex
|
2015-05-18
|
R-HSA-5693761
|
FA2H hydroxylates 1,2-saturated fatty acids
|
BibTex
|
2015-05-18
|
R-HSA-5693681
|
DUOX1,2 reduce O2 to H2O2
|
BibTex
|
2015-05-18
|
R-HSA-5693783
|
NAALADases hydrolyse NAAG
|
BibTex
|
2015-05-15
|
R-HSA-5693373
|
DDAH1,2 hydrolyses ADMA to DMA and L-Cit
|
BibTex
|
2015-05-15
|
R-HSA-5693347
|
CRYM reduces P2C to PPCA
|
BibTex
|
2015-05-15
|
R-HSA-5693356
|
CEMIP hydrolyses HA
|
BibTex
|
2015-05-15
|
R-HSA-5693390
|
HSD17B11 dehydrogenates EST17b to E1
|
BibTex
|
2015-05-15
|
R-HSA-5693346
|
CECRI deaminates Ade-Rib to Ino
|
BibTex
|
2015-05-14
|
R-HSA-5693153
|
PPM1K dephosphorylates p-BCKDH
|
BibTex
|
2015-05-14
|
R-HSA-5693148
|
BCKDK phosphorylates BCKDH
|
BibTex
|
2015-05-13
|
R-HSA-5693071
|
BACE1 translocates from ER lumen to Golgi apparatus
|
BibTex
|
2015-05-13
|
R-HSA-5693081
|
FURIN cleaves 7K-BACE1 to 7K-BACE1(46-501)
|
BibTex
|
2015-05-13
|
R-HSA-5693092
|
Unknown deacetylase deacetylates 7K-BACE1(46-501)
|
BibTex
|
2015-05-13
|
R-HSA-5693086
|
BACE1(46-501) translocates from Golgi lumen to plasma membrane
|
BibTex
|
2015-05-13
|
R-HSA-5693001
|
NAT8,8B acetylate BACE1
|
BibTex
|
2015-05-13
|
R-HSA-5692934
|
BACE1 binds GGA1,2,3
|
BibTex
|
2015-05-13
|
R-HSA-5692941
|
BACE1:GGA1,2,3 translocates from plasma membrane to endosome
|
BibTex
|
2015-05-12
|
R-HSA-5692437
|
ANG binds F-actin
|
BibTex
|
2015-05-12
|
R-HSA-5692495
|
BACE1 cleaves APP(18-770) to APP(18-671) and APP(672-770)
|
BibTex
|
2015-05-12
|
R-HSA-5692480
|
ATP13A2 transports cations from cytosol to lysosomal lumen
|
BibTex
|
2015-05-12
|
R-HSA-5692462
|
ATP13A1 transports Mn2+ from cytosol to ER lumen
|
BibTex
|
2015-05-12
|
R-HSA-5692408
|
NPR2 binds NPPC
|
BibTex
|
2015-05-11
|
R-HSA-5692237
|
ADH5 oxidises S-HMGSH to S-FGSH
|
BibTex
|
2015-05-11
|
R-HSA-5692283
|
ALD3A1 oxidises 4HPCP to CXPA
|
BibTex
|
2015-05-11
|
R-HSA-5692232
|
AKR1A1 oxidises BaPtDHD to BaP-7,8-dione
|
BibTex
|
2015-05-11
|
R-HSA-5692261
|
ALDH3A2-1 oxidises HD2NAL to PALM
|
BibTex
|
2015-05-08
|
R-HSA-5691512
|
APEH hydrolyses NAc-Ser-protein
|
BibTex
|
2015-05-08
|
R-HSA-5691507
|
ASPA deacetylates NAA to acetate and L-aspartate
|
BibTex
|
2015-05-05
|
R-HSA-5691107
|
FTMT 24mer oxidises 4Fe2+ to 4Fe(3+)O(OH)
|
BibTex
|
2015-05-05
|
R-HSA-5691150
|
TFR2 dimer binds 2xholoTF
|
BibTex
|
2015-05-05
|
R-HSA-5691154
|
HFE binds TFRC dimer
|
BibTex
|
2015-05-05
|
R-HSA-5691108
|
SKP1:FBXL5:CUL1:NEDD8 ubiquitinylates IREB2
|
BibTex
|
2015-05-05
|
R-HSA-5691176
|
NEDD8 binds CUL1 (in SKP1:CUL1:FXBL5)
|
BibTex
|
2015-05-05
|
R-HSA-5691167
|
CUL1, SKP1, FBXL5 bind
|
BibTex
|
2015-05-05
|
R-HSA-5691131
|
CANDI binds CUL1
|
BibTex
|
2015-04-30
|
R-HSA-5690886
|
ACO1, IREB2 bind IREs in TFRC, ALAD, FTL, FTH1 mRNAs
|
BibTex
|
2015-04-30
|
R-HSA-5690911
|
ACO1:4Fe-4S isomerises CIT to ISCIT
|
BibTex
|
2015-04-30
|
R-HSA-5690873
|
ACO1 binds 4Fe-4S
|
BibTex
|
2015-04-29
|
R-HSA-5690565
|
SCD desaturates ST-CoA to OLE-CoA
|
BibTex
|
2015-04-29
|
R-HSA-5690517
|
PPT1 hydrolyses palmitoylated proteins
|
BibTex
|
2015-04-28
|
R-HSA-5690340
|
Defective ABCC6 does not transport organic anion from cytosol to extracellular region
|
BibTex
|
2015-04-27
|
R-HSA-5690046
|
PPT2 hydrolyses PALMCoA to PALM
|
BibTex
|
2015-04-27
|
R-HSA-5690043
|
Cytosolic ACOTs hydrolyse MCFA-CoA, LCFA-CoA
|
BibTex
|
2015-04-27
|
R-HSA-5690066
|
ACOT2,9,THEM4,5 hydrolyse MCFA-CoA, LCFA-CoA
|
BibTex
|
2015-04-27
|
R-HSA-5690042
|
Peroxisomal ACOT4,6,8 hydrolyse MCFA-CoA, LCFA-CoA
|
BibTex
|
2015-04-27
|
R-HSA-5690023
|
NUBPL binds 4Fe-4S
|
BibTex
|
2015-04-21
|
R-HSA-5689000
|
AADAC deacetylates PHEN
|
BibTex
|
2015-04-20
|
R-HSA-5688884
|
Defective CSF2RB does not bind SFTPs
|
BibTex
|
2015-04-20
|
R-HSA-5688899
|
Defective CSF2RA does not bind SFTPs
|
BibTex
|
2015-04-16
|
R-HSA-5688397
|
Defective ABCA3 does not transport PC, PG from ER membrane to lamellar body
|
BibTex
|
2015-04-16
|
R-HSA-5688377
|
Defective pro-SFTPC does not translocate from ER membrane to multivesicle body
|
BibTex
|
2015-04-13
|
R-HSA-5688025
|
Defective pro-SFTPB does not translocate from ER membrane to multivesicle body
|
BibTex
|
2015-04-10
|
R-HSA-5687875
|
Defective SFTPA2 does not translocate from ER membrane to extracellular region
|
BibTex
|
2015-04-08
|
R-HSA-5687585
|
Defective SLC34A2 does not cotransport HPO4(2-), 3Na+ from extracellular region to cytosol
|
BibTex
|
2015-04-07
|
R-HSA-5687284
|
DMBT1 binds SFTPD 12mer, SFTPAs
|
BibTex
|
2015-04-01
|
R-HSA-5686286
|
PALM-C100-CKAP4 transports SFTPAs from extracellular region to lamellar body
|
BibTex
|
2015-04-01
|
R-HSA-5686304
|
ZDHHC2 transfers PALM from PALM-CoA to CKAP4
|
BibTex
|
2015-04-01
|
R-HSA-5686301
|
PALM-C100-CKAP4 binds SFTPAs
|
BibTex
|
2015-04-01
|
R-HSA-5686335
|
CSF2RA:CSF2RB binds SFTPs
|
BibTex
|
2015-04-01
|
R-HSA-5686359
|
SFTPs translocate from extracellular region to clathrin-coated vesicle
|
BibTex
|
2015-03-30
|
R-HSA-5685902
|
NAPSA, CTSH, PGA3-5 cleave pro-SFTPC
|
BibTex
|
2015-03-27
|
R-HSA-9624778
|
SFTPD 12mer translocates from ER membrane to extracellular region
|
BibTex
|
2015-03-27
|
R-HSA-5685649
|
SFTPAs translocate from ER membrane to extracellular region
|
BibTex
|
2015-03-26
|
R-HSA-5685290
|
SFTPD gene produces SFTPD protein
|
BibTex
|
2015-03-26
|
R-HSA-5685296
|
GATA6 binds SFTPA genes
|
BibTex
|
2015-03-26
|
R-HSA-5685208
|
CCDC59:TTF1 binds SFTPB gene
|
BibTex
|
2015-03-26
|
R-HSA-5685201
|
CCDC59:TTF1 binds SFTPC gene
|
BibTex
|
2015-03-23
|
R-HSA-5684865
|
SFTPB dimer,C translocate from multivesicle body to lamellar body
|
BibTex
|
2015-03-23
|
R-HSA-5684864
|
NAPSA, CTSH, PGA3-5 cleave pro-SFTPB
|
BibTex
|
2015-03-23
|
R-HSA-9624789
|
pro-SFTPB translocates from ER membrane to multivesicle body
|
BibTex
|
2015-03-23
|
R-HSA-5684862
|
SFTPB,C, PC, PG translocate from lamellar body to extracellular region.
|
BibTex
|
2015-03-23
|
R-HSA-5684868
|
pro-SFTPC translocates from ER membrane to multivesicle body
|
BibTex
|
2015-03-18
|
R-HSA-5684043
|
Defective ABCD1 does not transfer LCFAs from cytosol to peroxisomal matrix
|
BibTex
|
2015-03-17
|
R-HSA-5683888
|
LMCD1 binds GATA6, sequestering it
|
BibTex
|
2015-03-17
|
R-HSA-5683840
|
SFTPB gene produces pro-SFTPB protein
|
BibTex
|
2015-03-17
|
R-HSA-5683879
|
SFTPA genes produce SFTPA proteins
|
BibTex
|
2015-03-17
|
R-HSA-5683831
|
CCDC59 binds TTF1
|
BibTex
|
2015-03-17
|
R-HSA-5683836
|
SFTPC gene produces pro-SFTPC protein
|
BibTex
|
2015-03-16
|
R-HSA-5683714
|
ABCA3 transports PC, PG from ER membrane to lamellar body
|
BibTex
|
2015-03-16
|
R-HSA-5683672
|
Defective ABCA3 does not transport PC, PG from ER membrane to lamellar body
|
BibTex
|
2015-03-13
|
R-HSA-5683355
|
Defective ABCB6 does not transport porphyrin from cytosol into mitochondria matrix
|
BibTex
|
2015-03-13
|
R-HSA-5683325
|
Defective ABCD4:LMBRD1 does not transport Cbl from lysosomal lumen to cytosol
|
BibTex
|
2015-03-12
|
R-HSA-5683113
|
Defective ABCC8 does not form functional KATP channels, causing hyperinsulinemic hypoglycemia
|
BibTex
|
2015-03-12
|
R-HSA-5683209
|
Activating ABCC8 mutants cause hyperglycemia in permanent neonatal diabetes mellitus (PNDM) and transient neonatal DM (TNDM).
|
BibTex
|
2015-03-06
|
R-HSA-5682311
|
Defective ABCA12 does not transport lipids from cytosol to extracellular region
|
BibTex
|
2015-03-06
|
R-HSA-5682285
|
ABCA12 transports lipids from cytosol to extracellular region
|
BibTex
|
2015-03-05
|
R-HSA-5682111
|
Defective ABCA1 does not transport CHOL from transport vesicle membrane to plasma membrane
|
BibTex
|
2015-03-05
|
R-HSA-5682103
|
4xPALM-C-ABCA1 tetramer translocates from ER membrane to plasma membrane
|
BibTex
|
2015-03-05
|
R-HSA-5682084
|
ZDHCC8 transfers PALM from PALM-CoA to ABCA1 tetramer
|
BibTex
|
2015-03-05
|
R-HSA-5682101
|
PKA phosphorylates 4xPALM-C-p-2S-ABCA1 tetramer
|
BibTex
|
2015-03-02
|
R-HSA-5679031
|
Defective ABCC2 does not transport BMG,BDG from cytosol to extracellular region
|
BibTex
|
2015-03-02
|
R-HSA-5679145
|
Defective ABCG5 (in ABCG5:ABCG8) does not transport sterols from cytosol to extracellular region
|
BibTex
|
2015-03-02
|
R-HSA-5679101
|
Defective ABCG8 (in ABCG5:ABCG8) does not transport sterols from cytosol to extracellular region
|
BibTex
|
2015-03-02
|
R-HSA-5679041
|
ABCC2 transports BMG,BDG from cytosol to extracellular region
|
BibTex
|
2015-02-27
|
R-HSA-5679000
|
Ivacaftor binds CFTR G551D
|
BibTex
|
2015-02-27
|
R-HSA-5678992
|
Ivacaftor:CFTR G551D transports Cl- from cytosol to extracellular region
|
BibTex
|
2015-02-26
|
R-HSA-5678822
|
Defective CFTR does not transport Cl- from cytosol to extracellular region
|
BibTex
|
2015-02-26
|
R-HSA-5678749
|
Defective ABCB4 does not transport PC from plasma membrane to extracellular region
|
BibTex
|
2015-02-26
|
R-HSA-5678863
|
CFTR transports Cl- from cytosol to extracellular region
|
BibTex
|
2015-02-26
|
R-HSA-5678706
|
ABCB4 transports PC from plasma membrane to extracellular region
|
BibTex
|
2015-02-24
|
R-HSA-5678517
|
Defective ABCB11 does not transport bile salts from cytosol to extracellular region
|
BibTex
|
2015-02-24
|
R-HSA-5678418
|
Defective ABCC9 (in KCNJ11:ABCC9) does not transport K+ from extracellular region to cytosol
|
BibTex
|
2015-02-23
|
R-HSA-5678327
|
MIOX oxidises Ins to GlcA
|
BibTex
|
2015-02-23
|
R-HSA-5678261
|
KCNJ11:ABCC9 transports K+ from extracellular region to cytosol
|
BibTex
|
2015-02-20
|
R-HSA-5676637
|
PTPLs dehydrate VLC3HA-CoA to VLCTDA-CoA
|
BibTex
|
2015-02-16
|
R-HSA-5675656
|
EDA:EDAR binds EDARADD
|
BibTex
|
2015-02-02
|
R-HSA-5671707
|
Fe3+ dissociates from SLC22A17:LCN2:2,5DHBA
|
BibTex
|
2015-02-02
|
R-HSA-5671702
|
AP1G2 binds HGS and CHMP2A
|
BibTex
|
2015-01-30
|
R-HSA-5669097
|
LTA trimer binds TNFRSF1A,1B,14
|
BibTex
|
2015-01-30
|
R-HSA-5675947
|
TNFSF18 binds TNFRSF18
|
BibTex
|
2015-01-30
|
R-HSA-5669035
|
TNFSF11 binds TNFRSF11A, B
|
BibTex
|
2015-01-30
|
R-HSA-5675948
|
TNFRSF6B binds TNFSF6,14,15
|
BibTex
|
2015-01-30
|
R-HSA-5669023
|
TWEAK binds FN14
|
BibTex
|
2015-01-30
|
R-HSA-5669012
|
EDA binds EDAR
|
BibTex
|
2015-01-30
|
R-HSA-5669013
|
EDA-3 binds EDA2R
|
BibTex
|
2015-01-30
|
R-HSA-5669024
|
CD70 binds CD27
|
BibTex
|
2015-01-12
|
R-HSA-5661474
|
Defective NPC does not transport GCK1:GKRP from cytosol to nucleoplasm
|
BibTex
|
2015-01-09
|
R-HSA-5661184
|
Defective SLCO1B1 does not transport BIL from extracellular region (blood) to cytosol (hepatocyte)
|
BibTex
|
2015-01-09
|
R-HSA-5661188
|
Defective SLCO2A1 does not transport PGT substrates from extracellular region to cytosol
|
BibTex
|
2015-01-09
|
R-HSA-5661198
|
Defective SLCO1B3 does not transport BIL from extracellular region (blood) to cytosol (hepatocyte)
|
BibTex
|
2015-01-08
|
R-HSA-5661086
|
Defective SLC9A9 does not exchange Na+ for H+ across the late endosome membrane
|
BibTex
|
2015-01-08
|
R-HSA-5661039
|
Defective SLC9A6 does not exchange Na+ for H+ across the early endosome membrane
|
BibTex
|
2015-01-07
|
R-HSA-5660910
|
Defective SLC7A7 does not exchange L-Arg for L-Leu, Na+ across the plasma membrane
|
BibTex
|
2015-01-07
|
R-HSA-5660840
|
Defective SLC6A5 does not cotransport Gly, Cl-, Na+ from extracellular region to cytosol
|
BibTex
|
2015-01-07
|
R-HSA-5660890
|
Defective SLC7A9 (in SLC7A9:SLC3A1) does not exchange L-Arg, CySS-, L-Lys for L-Leu
|
BibTex
|
2015-01-06
|
R-HSA-5660694
|
Variant SLC6A20 does not cotransport L-Pro, Na+ from extracellulare region to cytosol
|
BibTex
|
2015-01-06
|
R-HSA-5660706
|
Defective SLC6A3 does not cotransport DA, Na+ from extracellular region to cytosol
|
BibTex
|
2014-12-23
|
R-HSA-5659764
|
Defective SLC6A2 does not cotransport NAd, Na+ from extracellular region to cytosol
|
BibTex
|
2014-12-23
|
R-HSA-5659755
|
Defective SLC6A18 does not transport Gly from extracellular region to cytosol
|
BibTex
|
2014-12-23
|
R-HSA-5659734
|
Defective SLC6A19 does not cotransport neutral amino acids, Na+ from extracellular region to cytosol
|
BibTex
|
2014-12-22
|
R-HSA-5659674
|
Variant SLC6A14 cotransports SLC6A14 ligands, Cl-, 2Na+ from extracellular region to cytosol
|
BibTex
|
2014-12-19
|
R-HSA-5658483
|
Defective SLC5A7 does not cotransport Cho, Cl-, Na+ from extracellular region to cytosol
|
BibTex
|
2014-12-18
|
R-HSA-5658195
|
Defective SLC5A5 does not cotransport Na+ with I- from extracellular region to cytosol
|
BibTex
|
2014-12-18
|
R-HSA-5658163
|
Defective SLC5A2 does not cotransport Glc and Na+ from extracellular region to cytosol
|
BibTex
|
2014-12-12
|
R-HSA-5656356
|
Defective SLC5A1 does not cotransport Glc and Na+
|
BibTex
|
2014-12-11
|
R-HSA-5656248
|
Defective SLC4A1 does not exchange Cl- for HCO3- (in erythrocytes)
|
BibTex
|
2014-12-11
|
R-HSA-5656219
|
Defective SLC4A4 does not cotransport Na+ with 3HCO3-
|
BibTex
|
2014-12-09
|
R-HSA-5655702
|
Defective SLC3A1 (in SLC7A9:SLC3A1) does not exchange L-Arg, CySS-, L-Lys for L-Leu
|
BibTex
|
2014-12-09
|
R-HSA-5655733
|
Defective SLC40A1 does not transport Fe2+ from cytosol to extracellular region
|
BibTex
|
2014-12-09
|
R-HSA-5655760
|
Defective SLC40A1 does not transport Fe3+ from extracellular region to cytosol
|
BibTex
|
2014-12-08
|
R-HSA-5649483
|
Defective PAH does not hydroxylate L-Phe to L-Tyr
|
BibTex
|
2014-12-03
|
R-HSA-5654125
|
Defective SLC39A4 does not transport Zn2+ from extracellular region to cytosol
|
BibTex
|
2014-12-02
|
R-HSA-5653850
|
Defective SLC36A2 does not cotransport Gly, L-Pro with H+ from extracellular region to cytosol
|
BibTex
|
2014-12-01
|
R-HSA-5653622
|
Defective SLC35A3 does not exchange UDP-GlcNAc for UMP
|
BibTex
|
2014-12-01
|
R-HSA-5653596
|
Defective SLC35C1 does not transport UDP-Fuc from cytosol to Golgi lumen
|
BibTex
|
2014-11-26
|
R-HSA-5651971
|
Defective SLC34A3 does not cotransport Pi, 2Na+
|
BibTex
|
2014-11-26
|
R-HSA-5651942
|
Defective SLC35A1 does not exchange CMP-Neu5Ac for CMP
|
BibTex
|
2014-11-24
|
R-HSA-5651685
|
Defective SLC34A1 does not cotransport Pi, 3Na+
|
BibTex
|
2014-11-24
|
R-HSA-5651697
|
Defective SLC34A2 does not cotransport Pi, 3Na+
|
BibTex
|
2014-11-21
|
R-HSA-5649742
|
Defective SLC33A1 does not transport Ac-CoA from cytosol to Golgi lumen
|
BibTex
|
2014-11-13
|
R-HSA-5638222
|
Defective SLC2A2 does not transport Fru, Gal, Glc from cytosol to extracellular region
|
BibTex
|
2014-11-13
|
R-HSA-5638209
|
Defective SLC2A9 does not transport Fru, Glc, urate
|
BibTex
|
2014-11-03
|
R-HSA-5634103
|
SUMO-CRABP2 dissociates from atRA:RAR:RXR
|
BibTex
|
2014-10-31
|
R-HSA-5633256
|
FABP5:atRA translocates from cytosol to nucleoplasm
|
BibTex
|
2014-10-31
|
R-HSA-5633241
|
Defective ALG14 does not transfer GlcNAc from UDP-GlcNAc to GlcNAcDOLP
|
BibTex
|
2014-10-29
|
R-HSA-5632804
|
SLC2A1 tetramer does not transport Glc from extracellular region to cytosol
|
BibTex
|
2014-10-29
|
R-HSA-5632871
|
Defective SLC2A10 does not transport Glc from extracellular region to cytosol
|
BibTex
|
2014-10-23
|
R-HSA-5628807
|
Defective SLC29A3 does not transport nucleosides from lysosomal lumen to cytosol
|
BibTex
|
2014-10-23
|
R-HSA-5627891
|
Defective SLC27A4 does not transport LCFAs from extracellular region to cytosol
|
BibTex
|
2014-10-23
|
R-HSA-5627870
|
SLC26A4 does not transport I- from cytosol to extracellular region
|
BibTex
|
2014-10-22
|
R-HSA-5627802
|
SLC26A4 transports I- from cytosol to extracellular region
|
BibTex
|
2014-10-20
|
R-HSA-5627737
|
SLC26A3 does not exchange Cl- for HCO3-
|
BibTex
|
2014-10-09
|
R-HSA-5626356
|
Defective SLC24A5 does not exchange cytosolic 4Na+ for Golgi luminal Ca2+, K+
|
BibTex
|
2014-10-09
|
R-HSA-5626316
|
SLC24A5 exchanges cytosolic 4Na+ for Golgi luminal Ca2+, K+
|
BibTex
|
2014-10-09
|
R-HSA-5626270
|
Defective SLC24A4 does not exchange extracellular 4Na+ for cytosolic Ca2+, K+
|
BibTex
|
2014-10-08
|
R-HSA-5625841
|
Defective SLC24A1 does not exchange extracellular 4Na+ for cytosolic Ca2+, K+
|
BibTex
|
2014-10-06
|
R-HSA-5625674
|
Defective SLC22A5 does not cotransport CAR, Na+ from extracellular region to cytosol
|
BibTex
|
2014-10-06
|
R-HSA-5625574
|
Defective SLC22A18 does not exchange extracellular organic cations for cytosolic H+
|
BibTex
|
2014-10-03
|
R-HSA-5625210
|
Defective SLC22A12 does not exchange extracellular urate for cytosolic LACT
|
BibTex
|
2014-10-02
|
R-HSA-5625123
|
Defective SLC20A2 does not cotransport Pi, Na+ from extracellular region to cytosol
|
BibTex
|
2014-10-01
|
R-HSA-5625015
|
Defective SLC1A3 does not cotransport L-Glu,L-Asp,D-Asp,H+,3Na+ from extracellular region to cytosol
|
BibTex
|
2014-10-01
|
R-HSA-5625029
|
SLC1A1 does not cotransport L-Glu,L-Asp,D-Asp,H+,3Na+ from extracellular region to cytosol
|
BibTex
|
2014-09-22
|
R-HSA-5624239
|
Defective SLC17A5 does not cotransport Neu5Ac, H+ from lysosomal lumen to cytosol
|
BibTex
|
2014-09-22
|
R-HSA-5624256
|
Defective SLC17A8 does not exchange cytosolic L-Glu for synaptic vesicle H+
|
BibTex
|
2014-09-22
|
R-HSA-5624211
|
Defective SLC16A1 does not cotransport monocarboxylates, H+ from extracellular region to cytosol
|
BibTex
|
2014-09-19
|
R-HSA-5623705
|
Defective SLC12A3 does not cotransport Cl-, Na+ from extracellular region to cytosol
|
BibTex
|
2014-09-19
|
R-HSA-5623806
|
Defective SLC12A6 does not cotransport K+, Cl- from cytosol to extracellular region
|
BibTex
|
2014-09-18
|
R-HSA-5623643
|
RDH13 reduces atRAL to atROL
|
BibTex
|
2014-09-17
|
R-HSA-5623558
|
Defective SLC11A2 does not cotransport Fe2+, H+ from extracellular region to cytosol
|
BibTex
|
2014-09-17
|
R-HSA-5623588
|
Defective SLC12A1 does not cotransport Na+, K+, 2Cl- from extracellular region to cytosol
|
BibTex
|
2014-09-12
|
R-HSA-5623051
|
Defective RHAG does not transport NH4+ from cytosol to extracellular region (rbc)
|
BibTex
|
2014-09-11
|
R-HSA-5622134
|
CRABP1 binds atRA
|
BibTex
|
2014-09-11
|
R-HSA-5622129
|
FABP5 binds atRA
|
BibTex
|
2014-09-11
|
R-HSA-5652099
|
Defective SLC35A2 does not exchange UDP-Gal, UDP-GalNAc for UMP
|
BibTex
|
2014-09-05
|
R-HSA-5621888
|
Defective HK1 does not phosphorylate Glc to form G6P
|
BibTex
|
2014-09-05
|
R-HSA-5621918
|
Defective GCK does not phosphorylate Glc to form G6P
|
BibTex
|
2014-08-29
|
R-HSA-5621425
|
Defective AVP mutants do not bind AVPR1A,B
|
BibTex
|
2014-08-29
|
R-HSA-9035517
|
Defective AVP mutants do not bind AVPR2
|
BibTex
|
2014-08-29
|
R-HSA-5621402
|
Defective CP does not oxidise Fe2+ to Fe3+
|
BibTex
|
2014-08-05
|
R-HSA-5617178
|
ATP2B4 binds to NOS1, inhibiting it
|
BibTex
|
2014-08-05
|
R-HSA-5617179
|
PRKACA phosphorylates TNNI3
|
BibTex
|
2014-08-05
|
R-HSA-5617182
|
PRKACA phosphorylates PLN
|
BibTex
|
2014-07-31
|
R-HSA-9638090
|
B4GAT1:LARGE transfers Xyl from UDP-Xyl to GlcA-Xyl-GlcA
|
BibTex
|
2014-07-31
|
R-HSA-5617138
|
B4GAT1:GYLTL1B transfers Xyl from UDP-Xyl to GlcA-Xyl-GlcA
|
BibTex
|
2014-07-31
|
R-HSA-9638097
|
B4GAT1:LARGE transfers GlcA from UDP-GlcA to Xyl-GlcA
|
BibTex
|
2014-07-31
|
R-HSA-5617143
|
B4GAT1:GYLTL1B transfers GlcA from UDP-GlcA to Xyl-GlcA
|
BibTex
|
2014-07-30
|
R-HSA-5617096
|
Defective POMGNT1 does not transfer GlcNAc from UDP-GlcNAc to Man-O-Ser-DAG1
|
BibTex
|
2014-07-30
|
R-HSA-5617037
|
POMGNT1 transfers GlcNAc from UDP-GlcNAc to Man-O-Ser-DAG1
|
BibTex
|
2014-07-25
|
R-HSA-5615604
|
Defective POMT1 does not transfer Man from Dol-P-Man to DAG1
|
BibTex
|
2014-07-25
|
R-HSA-5615637
|
POMT1:POMT2 transfers Man from Dol-P-Man to DAG1(30-653)
|
BibTex
|
2014-07-25
|
R-HSA-5615556
|
Defective POMT2 does not transfer Man from Dol-P-Man to DAG1
|
BibTex
|
2014-07-21
|
R-HSA-5610038
|
Defective GALT does not transfer UMP to Gal1P
|
BibTex
|
2014-07-21
|
R-HSA-5610026
|
Defective GALK1 does not phosphorylate Gal
|
BibTex
|
2014-07-21
|
R-HSA-5610036
|
Defective GALE does not epimerise UDP-Gal to UDP-Glc
|
BibTex
|
2014-07-18
|
R-HSA-5609939
|
Defective PGM1 does not isomerise G6P to G1P
|
BibTex
|
2014-07-04
|
R-HSA-5605147
|
Defective CYP1B1 does not 4-hydroxylate EST17b
|
BibTex
|
2014-07-03
|
R-HSA-9036102
|
Defective UGT1A1 does not transfer GlcA from UDP-GlcA to BMG
|
BibTex
|
2014-07-03
|
R-HSA-5604975
|
Defective UGT1A1 does not transfer GlcA from UDP-GlcA to BIL
|
BibTex
|
2014-07-03
|
R-HSA-9036104
|
Defective UGT1A4 does not transfer GlcA from UDP-GlcA to BMG
|
BibTex
|
2014-07-03
|
R-HSA-5604954
|
Defective UGT1A4 does not transfer GlcA from UDP-GlcA to BIL
|
BibTex
|
2014-07-01
|
R-HSA-5603379
|
TPMT does not transfer CH3 from AdoMet to 6MP
|
BibTex
|
2014-07-01
|
R-HSA-5603297
|
Defective SLC35D1 does not transport UDP-GlcA, UDPGlcNAc
|
BibTex
|
2014-07-01
|
R-HSA-5603275
|
Defective TBXAS1 does not isomerise PGH2 to TXA2
|
BibTex
|
2014-06-30
|
R-HSA-5603251
|
Defective ACTH does not bind MCR2
|
BibTex
|
2014-06-30
|
R-HSA-5603208
|
Defective OPLAH does not hydrolyse OPRO
|
BibTex
|
2014-06-27
|
R-HSA-5603108
|
Defective MAOA does not oxidatively deaminate 5HT
|
BibTex
|
2014-06-27
|
R-HSA-5603114
|
MAT2B:MAT2A:K+:2Mg2+ transfers Ado from ATP to L-Met
|
BibTex
|
2014-06-27
|
R-HSA-5603087
|
Defective MAT1A does not transfer Ado from ATP to L-Met
|
BibTex
|
2014-06-25
|
R-HSA-5602901
|
Defective GSS does not synthesize GSH
|
BibTex
|
2014-06-25
|
R-HSA-5602892
|
Defective GCLC does not ligate L-Glu to L-Cys
|
BibTex
|
2014-06-25
|
R-HSA-5602966
|
Defective FMO3 does not N-oxidise TMA
|
BibTex
|
2014-06-25
|
R-HSA-9035966
|
Defective GGT1 does not hydrolyse GSH
|
BibTex
|
2014-06-25
|
R-HSA-5602885
|
Defective CYP7B1 does not 7-hydroxylate 25OH-CHOL
|
BibTex
|
2014-06-25
|
R-HSA-5602984
|
Defective GGT1 does not hydrolyse glutamate from AFXBO-SG, AFNBO-SG
|
BibTex
|
2014-06-23
|
R-HSA-5602272
|
Defective CYP4F22 does not 20-hydroxylate TrXA3
|
BibTex
|
2014-06-23
|
R-HSA-5602295
|
CYP4F22 20-hydroxylates TrXA3
|
BibTex
|
2014-06-20
|
R-HSA-5602170
|
CYP27A1 does not 27-hydroxylate 5bCHOL3a,7a,12a-triol
|
BibTex
|
2014-06-20
|
R-HSA-9035960
|
Defective CYP27A1 does not 27-hydroxylate 5?-CHOL3?,7?,24(s)-triol
|
BibTex
|
2014-06-20
|
R-HSA-5602242
|
Defective CYP2U1 does not omega-hydroxylate ARA
|
BibTex
|
2014-06-20
|
R-HSA-5602147
|
Defective CYP2R1 does not 25-hydroxylate vitamin D
|
BibTex
|
2014-06-20
|
R-HSA-5602186
|
Defective CYP27B1 does not hydroxylate CDL
|
BibTex
|
2014-06-17
|
R-HSA-5602050
|
Defective CYP26C1 does not 4-hydroxylate 9cRA
|
BibTex
|
2014-06-17
|
R-HSA-5602063
|
Defective CYP26B1 does not 4-hydroxylate atRA
|
BibTex
|
2014-06-16
|
R-HSA-5602004
|
Defective CYP24A1 does not 24-hydroxylate CALTOL
|
BibTex
|
2014-06-16
|
R-HSA-5601976
|
Defective CYP21A2 does not 21-hydroxylate PROG
|
BibTex
|
2014-06-13
|
R-HSA-5601849
|
Defective CYP19A1 does not convert ANDST to E1
|
BibTex
|
2014-06-13
|
R-HSA-9035956
|
Defective CYP17A1 does not cleave 17aHPROG
|
BibTex
|
2014-06-13
|
R-HSA-9035954
|
Defective CYP17A1 does not 17-hydroxylate P4
|
BibTex
|
2014-06-13
|
R-HSA-5601843
|
Defective CYP17A1 does not 17-hydroxylate PREG
|
BibTex
|
2014-06-12
|
R-HSA-6785244
|
Defective CYP11B2 does not oxidise 18HCORST
|
BibTex
|
2014-06-12
|
R-HSA-6785245
|
Defective CYP11B2 does not oxidise CORST
|
BibTex
|
2014-06-12
|
R-HSA-5600598
|
Defective CYP11B2 does not oxidise 11DCORST
|
BibTex
|
2014-06-10
|
R-HSA-5580292
|
Defective CYP11B1 does not oxidise 11DCORT
|
BibTex
|
2014-06-06
|
R-HSA-5579081
|
Defective ACY1 does not hydrolyse mercapturic acids
|
BibTex
|
2014-06-06
|
R-HSA-5580269
|
Defective CYP11A1 does not cleave 20a,22b-DHCHOL
|
BibTex
|
2014-06-06
|
R-HSA-5579084
|
Defective AHCY does not hydrolyse AdoHcy
|
BibTex
|
2014-06-06
|
R-HSA-5579023
|
NCOA2(869-1464) binds KAT6A(1-1118)
|
BibTex
|
2014-06-06
|
R-HSA-5579018
|
NCOA1(868-1441) binds PAX3(1-319)
|
BibTex
|
2014-06-05
|
R-HSA-5576895
|
SCNAs:SNCBs transport Na+ from extracellular region to cytosol
|
BibTex
|
2014-06-05
|
R-HSA-5577234
|
KCND tetramer:KCNIP tetramer transport K+ from cytosol to extracellular region
|
BibTex
|
2014-06-05
|
R-HSA-5577213
|
LTCC multimer transports Ca2+ from extracellular region to cytosol
|
BibTex
|
2014-06-05
|
R-HSA-5577050
|
AKAP9:KCNQ1 tetramer:KCNE dimer transports K+ from cytosol to extracellular region
|
BibTex
|
2014-06-05
|
R-HSA-5577237
|
KCNH2:KCNE transport K+ from cytosol to extracellular region
|
BibTex
|
2014-06-05
|
R-HSA-5578910
|
KCNK dimers transport K+ from cytosol to extracellular region
|
BibTex
|
2014-06-02
|
R-HSA-5578783
|
CORIN(802-1042) hydrolyses NPPA to form NPPA(124-151)
|
BibTex
|
2014-06-02
|
R-HSA-5578777
|
DMPK phosphorylates PLN
|
BibTex
|
2014-05-19
|
R-HSA-5490269
|
AFXBO-C, AFNBO-C translocate from extracellular region to cytosol
|
BibTex
|
2014-05-19
|
R-HSA-5490230
|
AFXBO-SG, AFNBO-SG translocate from cytosol to extracellular region
|
BibTex
|
2014-05-12
|
R-HSA-9638046
|
ACY3:Zn2+ dimer hydrolyses mercapturic acids
|
BibTex
|
2014-05-12
|
R-HSA-5433067
|
DPEPs hydrolyse glycine from AFXBO-CG, AFNBO-CG
|
BibTex
|
2014-05-12
|
R-HSA-5433066
|
Unknown NAT transfers COCH3 to AFXBO-C, AFNBO-C
|
BibTex
|
2014-05-12
|
R-HSA-5433074
|
ACY1:Zn2+ dimer hydrolyses mercapturic acids
|
BibTex
|
2014-05-12
|
R-HSA-5433072
|
GGTs hydrolyse glutamate from AFXBO-SG, AFNBO-SG
|
BibTex
|
2014-05-09
|
R-HSA-5423647
|
CYP2A13 oxidises AFM1 to AFM1E
|
BibTex
|
2014-05-09
|
R-HSA-5423678
|
CYP1A2 hydroxylates AFB1 to AFM1
|
BibTex
|
2014-05-09
|
R-HSA-5423656
|
AFXBO hydrolyses non-enzymatically to AFBDHD
|
BibTex
|
2014-05-09
|
R-HSA-5423694
|
AFBDHD hydrolyses non-enzymatically to AFBDHO
|
BibTex
|
2014-05-09
|
R-HSA-5423637
|
AKR dimers reduce AFBDHO to AFBDOH
|
BibTex
|
2014-05-09
|
R-HSA-5423632
|
AFXBO binds DNA
|
BibTex
|
2014-05-09
|
R-HSA-156526
|
CYP1A2,3A4,3A5,2A13 oxidise AFB1 to AFXBO
|
BibTex
|
2014-05-09
|
R-HSA-5423653
|
MGST trimers transfer GS from GSH to AFXBO and AFNBO
|
BibTex
|
2014-05-09
|
R-HSA-5423672
|
CYP1A2, 3A4 oxidise AFB1 to AFNBO
|
BibTex
|
2014-05-09
|
R-HSA-5423664
|
CYP3A4,5 hydroxylates AFB1 to AFQ1
|
BibTex
|
2014-05-09
|
R-HSA-5423728
|
AFXBO translocates from cytosol to nucleoplasm
|
BibTex
|
2014-05-07
|
R-HSA-5422942
|
RXRA:PPARD binds FABP5:atRA
|
BibTex
|
2014-05-07
|
R-HSA-5634100
|
FABP5 dissociates from RXRA:PPARD:atRA
|
BibTex
|
2014-04-16
|
R-HSA-5419165
|
RDH11,14,DHRS3,DRHS4 reduce atRAL to atROL
|
BibTex
|
2014-04-16
|
R-HSA-5362525
|
CYP26A1,B1,C1 4-hydroxylate atRA
|
BibTex
|
2014-04-16
|
R-HSA-5615668
|
AKR1C3 reduces atRAL to atROL
|
BibTex
|
2014-04-16
|
R-HSA-5362721
|
RDH5,RDH11 oxidise 11cROL to 11cRAL
|
BibTex
|
2014-04-16
|
R-HSA-5362518
|
RDH10,16,DHRS9,RDHE2 oxidise atROL to atRAL
|
BibTex
|
2014-04-16
|
R-HSA-5362564
|
ADH1A,1C,4 oxidise atROL to atRAL in vitro
|
BibTex
|
2014-04-16
|
R-HSA-5362522
|
ALDHs oxidise atRAL to atRA
|
BibTex
|
2014-04-16
|
R-HSA-211923
|
CYP26C1 4-hydroxylates 9cRA
|
BibTex
|
2014-04-11
|
R-HSA-5359451
|
NNMT transfers CH3 from SAM to NAM to form MNA
|
BibTex
|
2014-03-17
|
R-MMU-5340404
|
Havcr2 binds Lgals9
|
BibTex
|
2014-03-17
|
R-HSA-5340385
|
HAVCR2 binds LGALS9
|
BibTex
|
2014-03-13
|
R-HSA-5340320
|
GLTP transports GSL from plasma membrane to ER membrane
|
BibTex
|
2014-03-13
|
R-HSA-5340251
|
NR1H4:DCA,CDCA,LCHA binds RXRA and NCOA1,2
|
BibTex
|
2014-03-12
|
R-HSA-5340214
|
CYGB binds O2
|
BibTex
|
2014-03-12
|
R-HSA-5340226
|
CYGB dioxygenates NO
|
BibTex
|
2014-03-12
|
R-HSA-5340195
|
NR1H4 binds DCA, CDCA, LCHA
|
BibTex
|
2014-03-10
|
R-HSA-5340124
|
CSN polymer binds CaPO4
|
BibTex
|
2014-03-10
|
R-HSA-5340130
|
CTNS cotransports CySS-, H+ from lysosomal lumen to cytosol
|
BibTex
|
2014-03-04
|
R-HSA-5339528
|
TUSC3 transports Mg2+ from extracellular region to cytosol
|
BibTex
|
2014-03-04
|
R-HSA-5339538
|
MAGT1 transports Mg2+ from extracellular region to cytosol
|
BibTex
|
2014-03-04
|
R-HSA-5339524
|
GLUT1 (SLC2A1) tetramer transports Glc from extracellular region to cytosol
|
BibTex
|
2014-03-04
|
R-HSA-5339535
|
CPTP transports C1P from plasma membrane to Golgi membrane
|
BibTex
|
2014-03-03
|
R-MMU-5336430
|
Mmgt1,2 transport Mg2+ from cytosol to Golgi lumen
|
BibTex
|
2014-03-03
|
R-HSA-5336454
|
MMGT1 transports Mg2+ from cytosol to Golgi lumen
|
BibTex
|
2014-03-03
|
R-HSA-5336443
|
LIN7, CASK and APBA1 bind
|
BibTex
|
2014-03-03
|
R-HSA-5336466
|
MRS2 transports Mg2+ from cytosol to mitochondrial matrix
|
BibTex
|
2014-03-03
|
R-HSA-5336453
|
NIPAs transport Mg2+ from extracellular region to cytosol
|
BibTex
|
2014-02-28
|
R-CEL-5336199
|
cutc-1 binds Cu+
|
BibTex
|
2014-02-27
|
R-HSA-5334788
|
CUTC binds Cu+
|
BibTex
|
2014-02-27
|
R-HSA-5334794
|
FABPs bind LCFAs
|
BibTex
|
2014-02-27
|
R-HSA-5334854
|
RAR:RXR binds SUMO-CRABP2:atRA
|
BibTex
|
2014-02-27
|
R-HSA-5634104
|
SUMO-CRABP2:atRA translocates from cytosol to nucleus
|
BibTex
|
2014-02-27
|
R-HSA-5334827
|
SUMO-CRABP2 binds atRA
|
BibTex
|
2014-02-20
|
R-HSA-5333658
|
CLAT:AP1:CLVS bind PI(3,5)P2
|
BibTex
|
2014-02-20
|
R-HSA-5333678
|
CPNEs bind PL
|
BibTex
|
2014-02-20
|
R-HSA-5333671
|
CLCAs self cleave
|
BibTex
|
2014-02-18
|
R-MMU-5332993
|
Cav3:Trim72:Dysf binds Anxas
|
BibTex
|
2014-02-12
|
R-MMU-5263624
|
p-Akt2 phosphorylates C2cd5
|
BibTex
|
2014-02-12
|
R-HSA-5263628
|
CAV3:TRIM72:DYSF binds ANXAs
|
BibTex
|
2014-02-12
|
R-HSA-5263633
|
DYSF, CAV3 and TRIM72 bind
|
BibTex
|
2014-02-07
|
R-HSA-5260201
|
p-AKT2 phosphorylates C2CD5
|
BibTex
|
2014-02-05
|
R-HSA-5251989
|
ATP13A4,5 transport divalent ions from extracellular region to cytosol
|
BibTex
|
2014-02-05
|
R-HSA-5252072
|
AZGP1 binds PIP
|
BibTex
|
2014-02-05
|
R-HSA-5252041
|
NPC transports Hikeshi:HSP70s:ATP from cytosol to nucleoplasm
|
BibTex
|
2014-02-05
|
R-HSA-5251942
|
Hikeshi binds HSP70s:ATP
|
BibTex
|
2014-02-05
|
R-HSA-5252079
|
HSP110s exchange ATP for ADP on HSP70s:ADP
|
BibTex
|
2014-02-05
|
R-HSA-5251959
|
HSP40s activate intrinsic ATPase activity of HSP70s in the cytosol
|
BibTex
|
2014-02-05
|
R-HSA-5251955
|
HSP40s activate intrinsic ATPase activity of HSP70s in the nucleoplasm
|
BibTex
|
2014-02-05
|
R-HSA-5252133
|
ATP6AP1 binds V-ATPase
|
BibTex
|
2014-02-05
|
R-HSA-5252001
|
ATP1B4 binds SNW1
|
BibTex
|
2014-01-27
|
R-HSA-5250531
|
ARV1 transports CHOL from ER membrane to plasma membrane
|
BibTex
|
2014-01-24
|
R-HSA-5250209
|
ARL2:GTP:ARL2BP binds SLC25A4
|
BibTex
|
2014-01-24
|
R-HSA-5250210
|
ARL2:GTP:ARL2BP translocates from cytosol to the mitochondrial matrix
|
BibTex
|
2014-01-24
|
R-HSA-5250217
|
ARL2:GTP binds ARL2BP
|
BibTex
|
2014-01-21
|
R-HSA-5246444
|
SLC22A17 binds LCN2:2,5DHBA:Fe3+
|
BibTex
|
2014-01-21
|
R-MMU-5246466
|
Slc22a17 binds Lcn2, internalising it, releasing Fe3+
|
BibTex
|
2014-01-21
|
R-HSA-5246478
|
APOM binds retinoids
|
BibTex
|
2014-01-17
|
R-HSA-5229273
|
LCN2:2,5DHBA binds Fe3+
|
BibTex
|
2014-01-17
|
R-HSA-5229283
|
LCNs bind lipids
|
BibTex
|
2014-01-16
|
R-HSA-5229111
|
AP4 transports APP from trans-Golgi network to endosome lumen
|
BibTex
|
2014-01-16
|
R-HSA-5229132
|
AP4 binds APP
|
BibTex
|
2014-01-09
|
R-HSA-5226904
|
AHCYL1:NAD+ binds ITPR1:I(1,3,5)P3 tetramer, inhibiting it
|
BibTex
|
2014-01-09
|
R-HSA-5226964
|
ANKH transports PPi from cytosol to extracellular region
|
BibTex
|
2014-01-09
|
R-HSA-5226999
|
ADD1:ADD3 binds DMTN
|
BibTex
|
2014-01-09
|
R-HSA-5227009
|
ABCF1 binds EIF2
|
BibTex
|
2014-01-09
|
R-HSA-5226979
|
ADD1:ADD2 binds DMTN
|
BibTex
|
2014-01-06
|
R-HSA-5223313
|
ABCD4:LMBRD1 transports RCbl from lysosomal lumen to cytosol (gut mucosal cells)
|
BibTex
|
2014-01-06
|
R-HSA-5223305
|
ABCE1 binds RNASEL, inhibiting it
|
BibTex
|
2014-01-06
|
R-HSA-5223317
|
ABCB9 transports peptides from cytosol to lysosomal lumen
|
BibTex
|
2013-11-25
|
R-HSA-5173192
|
POFUT2 transfers fucose to TSR domain-containing proteins
|
BibTex
|
2013-11-25
|
R-HSA-5173005
|
B3GALTL transfers glucose to O-fucosyl-proteins
|
BibTex
|
2013-11-25
|
R-HSA-5164399
|
BCO2:Fe2+ cleaves betaC to APO10al and bION
|
BibTex
|
2013-11-11
|
R-HSA-5096532
|
Defective GALNT12 does not transfer GalNAc to mucins
|
BibTex
|
2013-11-11
|
R-HSA-5096537
|
Defective GALNT3 does not transfer GalNAc to mucins
|
BibTex
|
2013-11-11
|
R-HSA-5096538
|
Defective LFNG does not transfer GlcNAc to Pre-NOTCH
|
BibTex
|
2013-10-29
|
R-HSA-4793955
|
Defective MGAT2 does not transfer GlcNAc to N-glycans
|
BibTex
|
2013-10-25
|
R-HSA-4755600
|
Defective DOLK does not phosphorylate DCHOL
|
BibTex
|
2013-10-25
|
R-HSA-4755545
|
Defective DHDDS does not elongate E,E-FPP
|
BibTex
|
2013-10-25
|
R-HSA-4755572
|
Defective SRD5A3 does not reduce pPNOL to DCHOL
|
BibTex
|
2013-10-23
|
R-HSA-4724330
|
Defective ALG8 does not add glucose to the N-glycan precursor
|
BibTex
|
2013-10-23
|
R-HSA-4724291
|
Defective ALG6 does not add glucose to the N-glycan precursor
|
BibTex
|
2013-10-21
|
R-HSA-4720497
|
Defective ALG12 does not add mannose to the N-glycan precursor
|
BibTex
|
2013-10-21
|
R-HSA-9035514
|
Defective ALG9 does not add the last mannose to the N-glycan precursor
|
BibTex
|
2013-10-21
|
R-HSA-4720478
|
Defective ALG9 does not add the seventh mannose to the N-glycan precursor
|
BibTex
|
2013-10-21
|
R-HSA-4720473
|
Defective ALG3 does not add mannose to the N-glycan precursor
|
BibTex
|
2013-10-18
|
R-HSA-4719375
|
Defective DPM2 does not transfer mannose to DOLP to form DOLPman
|
BibTex
|
2013-10-18
|
R-HSA-4719354
|
Defective DPM3 does not transfer mannose to DOLP to form DOLPman
|
BibTex
|
2013-10-17
|
R-HSA-4717406
|
Defective DPM1 does not transfer mannose to DOLP to form DOLPman
|
BibTex
|
2013-10-15
|
R-HSA-9036020
|
Defective MPDU1 does not promote transfer of Man to (GlcNAc)2 (Man)8 (PP-Dol)1 by ALG9
|
BibTex
|
2013-10-15
|
R-HSA-9036021
|
Defective MPDU1 does not promote transfer of Man to (GlcNAc)2 (Man)6 (PP-Dol)1 by ALG9
|
BibTex
|
2013-10-15
|
R-HSA-4686998
|
Defective MPDU1 does not promote transfer of Man to N-glycan precursor (GlcNAc)2 (Man)7 (PP-Dol)1 by ALG12
|
BibTex
|
2013-10-15
|
R-HSA-9036025
|
Defective MPDU1 does not promote transfer of Man to (GlcNAc)2 (Man)5 (PP-Dol)1 by ALG3
|
BibTex
|
2013-09-23
|
R-HSA-4570573
|
Defective RFT1 does not flip the N-glycan precursor
|
BibTex
|
2013-09-13
|
R-HSA-4551297
|
Defective ALG11 does not transfer Man to the N-glycan precursor
|
BibTex
|
2013-09-12
|
R-HSA-4549334
|
Defective DPAGT1 does not transfer GlcNAc to DOLP
|
BibTex
|
2013-09-12
|
R-HSA-4549382
|
Defective ALG1 does not transfer the first Man to the N-glycan precursor
|
BibTex
|
2013-09-12
|
R-HSA-4549368
|
Defective ALG2 does not transfer a second Man to N-glycan precursor
|
BibTex
|
2013-09-03
|
R-HSA-4420365
|
Defective B3GALT6 does not transfer Gal to the tetrasaccharide linker
|
BibTex
|
2013-08-29
|
R-HSA-4419978
|
DHDDS:NUS1 elongates E,E-FPP with (n)IPPP to form pPPP
|
BibTex
|
2013-08-29
|
R-HSA-4419986
|
Unknown pPPP phosphatase dephosphorylates pPPP to pPNOL
|
BibTex
|
2013-08-29
|
R-HSA-4419979
|
SRD5A3 reduces pPNOL to DCHOL
|
BibTex
|
2013-08-21
|
R-HSA-4341669
|
Defective NEU1 does not hydrolyse Neu5Ac from glycoconjugates
|
BibTex
|
2013-08-13
|
R-HSA-4088322
|
Defective GNE does not phosphorylate ManNAc to ManNAc-6-P
|
BibTex
|
2013-08-13
|
R-HSA-4088338
|
Defective GNE does not hydrolyse UDP-GlcNAc
|
BibTex
|
2013-08-12
|
R-HSA-4088210
|
Cytosolic glycoconjugates translocate to the lysosome
|
BibTex
|
2013-08-12
|
R-HSA-4088207
|
Golgi lumen glycoconjugates translocate to the plasma membrane
|
BibTex
|
2013-08-12
|
R-HSA-4088205
|
Plasma membrane glycoconjugates translocate to the cytosol
|
BibTex
|
2013-08-02
|
R-HSA-4085217
|
NPL cleaves Neu5Ac,Neu5Gc to ManNAc,ManNGc and pyruvate
|
BibTex
|
2013-08-01
|
R-HSA-4085027
|
Defective GFPT1 does not transfer an amino group from L-Gln to F6P to form GlcN6P
|
BibTex
|
2013-08-01
|
R-HSA-9638120
|
NEU4 hydrolyses Neu5Ac from glycoconjugates
|
BibTex
|
2013-08-01
|
R-HSA-4084978
|
ST8SIA1-6 transfer Neu5Ac to terminal Neu5Ac residues
|
BibTex
|
2013-08-01
|
R-HSA-4084999
|
NEU1 hydrolyses Neu5Ac from glycoconjugates
|
BibTex
|
2013-08-01
|
R-HSA-4085029
|
NEU2 hydrolyzes Neu5Ac from glycoconjugates
|
BibTex
|
2013-08-01
|
R-HSA-4084984
|
ST3GAL1-6 transfer Neu5Ac to terminal Gal (alpha-2,3 link)
|
BibTex
|
2013-08-01
|
R-HSA-4084990
|
Nuclear CMP-Neu5Ac translocates to cytosol
|
BibTex
|
2013-08-01
|
R-HSA-4084982
|
CMAS transfers CMP from CTP to Neu5Ac, forming CMP-Neu5Ac
|
BibTex
|
2013-08-01
|
R-HSA-4085020
|
Cytosolic Neu5Ac translocates to nucleus
|
BibTex
|
2013-08-01
|
R-HSA-4084989
|
NANP dephosphorylates Neu5Ac-9-P to Neu5Ac
|
BibTex
|
2013-08-01
|
R-HSA-4084976
|
NANS converts ManNAc-6-P to Neu5Ac-9-P
|
BibTex
|
2013-08-01
|
R-HSA-4085028
|
GNE phosphorylates ManNAc to ManNAc-6-P
|
BibTex
|
2013-08-01
|
R-HSA-4085021
|
GNE hydrolyzes/epimerises UDP-GlcNAc to ManNAc and UDP
|
BibTex
|
2013-08-01
|
R-HSA-4084994
|
NEU3 hydrolyzes Neu5Ac from glycoconjugates
|
BibTex
|
2013-08-01
|
R-HSA-4085033
|
ST6GAL1,2 transfer Neu5Ac to terminal Gal (alpha-2,6 link)
|
BibTex
|
2013-08-01
|
R-HSA-4084980
|
ST6GALNAC1-6 transfer Neu5Ac to terminal GalNAc (alpha-2,6 link)
|
BibTex
|
2013-07-29
|
R-HSA-9036012
|
Defective MAN1B1 does not hydrolyse 1,2-linked mannose (c branch)
|
BibTex
|
2013-07-29
|
R-HSA-4793949
|
Defective MAN1B1 does not hydrolyse 1,2-linked mannose (a branch)
|
BibTex
|
2013-07-29
|
R-HSA-9036011
|
Defective MAN1B1 does not hydrolyse 1,2-linked mannose (b branch)
|
BibTex
|
2013-07-29
|
R-HSA-9036008
|
Defective MAN1B1 does not hydrolyse a second 1,2-linked mannose (a branch)
|
BibTex
|
2013-07-29
|
R-HSA-4793947
|
Defective MOGS does not cleave glucose from an N-glycosylated protein
|
BibTex
|
2013-07-29
|
R-HSA-4793956
|
Defective B4GALT1 does not add Gal to N-glycan
|
BibTex
|
2013-06-28
|
R-HSA-3781926
|
Defective PMM2 does not isomerise Man6P to Man1P
|
BibTex
|
2013-06-28
|
R-HSA-3781832
|
Defective MPI does not isomerize Fru6P to Man6P
|
BibTex
|
2013-05-31
|
R-HSA-3656259
|
Defective HEXA does not cleave the terminal GalNAc from DS
|
BibTex
|
2013-05-31
|
R-HSA-9035978
|
Defective HEXA does not cleave the terminal GalNAc from keratan sulfate
|
BibTex
|
2013-05-31
|
R-HSA-9035976
|
Defective HEXA does not cleave the terminall GalNAc from small HA fragments
|
BibTex
|
2013-05-31
|
R-HSA-3656267
|
Defective EXT2 (in EXT1:EXT2) does not transfer GlcA to heparan
|
BibTex
|
2013-05-31
|
R-HSA-9036290
|
Defective EXT2 (in EXT1:EXT2) does not transfer GlcNAc to heparan
|
BibTex
|
2013-05-31
|
R-HSA-3656254
|
Defective EXT2 (in EXT1:EXT2) does not transfer GlcNAc to the heparan chain
|
BibTex
|
2013-05-31
|
R-HSA-9036289
|
Defective EXT2 (in EXT1:EXT2) does not transfer GlcA to heparan
|
BibTex
|
2013-05-31
|
R-HSA-3656269
|
Defective CHST6 does not transfer SO4(2-) to GlcNAc residues on keratan-PG
|
BibTex
|
2013-05-31
|
R-HSA-3662344
|
Defective HEXB does not cleave the terminal GalNAc from DS
|
BibTex
|
2013-05-31
|
R-HSA-9035982
|
Defective HEXB does not cleave the terminal GalNAc from HA fragments
|
BibTex
|
2013-05-31
|
R-HSA-9035983
|
Defective HEXB does not cleave the terminal GalNAc from keratan sulfate
|
BibTex
|
2013-05-31
|
R-HSA-3656257
|
Defective EXT1 (in EXT1:EXT2) does not transfer GlcA to heparan
|
BibTex
|
2013-05-31
|
R-HSA-9036285
|
Defective EXT1 (in EXT1:EXT2) does not transfer GlcA to heparan
|
BibTex
|
2013-05-31
|
R-HSA-9036283
|
Defective EXT1 (in EXT1:EXT2) does not transfer GlcNAc to the terminal GlcA residue
|
BibTex
|
2013-05-31
|
R-HSA-3656261
|
Defective EXT1 (in EXT1:EXT2) does not transfer GlcNAc to the heparan chain
|
BibTex
|
2013-05-31
|
R-HSA-3656258
|
Defective ST3GAL3 does not transfer SA to keratan
|
BibTex
|
2013-05-31
|
R-HSA-9035950
|
Defective B4GALT1 does not transfer Gal to a branch of keratan
|
BibTex
|
2013-05-31
|
R-HSA-9035949
|
Defective B4GALT1 does not transfer Gal to the N-glycan precursor
|
BibTex
|
2013-05-31
|
R-HSA-3656230
|
Defective B4GALT1 does not transfer Gal to the keratan chain
|
BibTex
|
2013-05-29
|
R-HSA-3636919
|
Defective CHST14 does not transfer SO4(2-) to GalNAc in dermatan or DS
|
BibTex
|
2013-05-21
|
R-HSA-3595176
|
Defective CHSY1 does not transfer GalNAc to chondroitin
|
BibTex
|
2013-05-21
|
R-HSA-3595178
|
Defective CHSY1 does not transfer GlcA to chondroitin
|
BibTex
|
2013-05-21
|
R-HSA-3560804
|
Defective B4GALT7 does not transfer Gal to xylosyl-unit of the tetrasaccharide linker
|
BibTex
|
2013-05-21
|
R-HSA-3560802
|
Defective B3GAT3 does not transfer GlcA to tetrasaccharide linker
|
BibTex
|
2013-05-21
|
R-HSA-3595175
|
Defective CHST3 does not transfer SO4(2-) to chondroitin
|
BibTex
|
2013-05-21
|
R-HSA-3560789
|
Defective SLC26A2 does not cotransport extracellular SO4(2-), H+ to cytosol
|
BibTex
|
2013-05-21
|
R-HSA-3560794
|
Defective PAPSS2 does not transfer SO4(2-) group to ATP to form APS
|
BibTex
|
2013-05-21
|
R-HSA-3560785
|
Defective PAPSS2 does not transfer PO4(2-) group from ATP to APS to form PAPS
|
BibTex
|
2013-05-10
|
R-HSA-3325546
|
Defective CD320 does not transport extracellular TCII:Cbl to endosome
|
BibTex
|
2013-05-10
|
R-HSA-4225086
|
Defective mitochondrial BTD does not hydrolyse BCTN
|
BibTex
|
2013-05-10
|
R-HSA-3325540
|
Defective extracellular BTD does not hydrolyse BCTN
|
BibTex
|
2013-05-09
|
R-HSA-3323111
|
Cytoslic carboxylases translocate to mitochondrial matrix
|
BibTex
|
2013-05-09
|
R-HSA-3323184
|
Defective HLCS does not biotinylate ACACA:Mn2+
|
BibTex
|
2013-05-09
|
R-HSA-9035987
|
Defective HLCS does not biotinylate 6xMCCC1:6xMCCC2
|
BibTex
|
2013-05-09
|
R-HSA-9035988
|
Defective HLCS does not biotinylate PC:Mn2+
|
BibTex
|
2013-05-09
|
R-HSA-9035990
|
Defective HLCS does not biotinylate 6x(PCCA:PCCB)
|
BibTex
|
2013-05-08
|
R-HSA-3322971
|
Defective MUT does not isomerise L-MM-CoA to SUCC-CoA
|
BibTex
|
2013-05-03
|
R-HSA-3322135
|
Defective MMAA does not protect MUT
|
BibTex
|
2013-05-03
|
R-HSA-3322125
|
Defective MMAB does not transfer adenosyl group from ATP to B12s
|
BibTex
|
2013-05-03
|
R-HSA-3322140
|
Defective MTR does not transfer CH3 group from MeCbl to HCYS
|
BibTex
|
2013-05-02
|
R-HSA-3321918
|
Defective MTR does not transfer CH3 group from MTHF to cob(I)alamin
|
BibTex
|
2013-04-29
|
R-HSA-3318563
|
Defective MTRR does not convert cob(II)alamin to MeCbl
|
BibTex
|
2013-04-29
|
R-HSA-3318571
|
Defective MMADHC does not bind MMACHC:B12r
|
BibTex
|
2013-04-29
|
R-HSA-3318576
|
Defective MMACHC does not reduce Cbl
|
BibTex
|
2013-04-29
|
R-HSA-3318590
|
Defective MMACHC does not decyanate CNCbl
|
BibTex
|
2013-04-25
|
R-HSA-3315455
|
Defective CBLIF does not bind Cbl
|
BibTex
|
2013-04-23
|
R-HSA-3301943
|
GSTK1 dimer transfers GS from GSH to CDNB
|
BibTex
|
2013-04-19
|
R-HSA-3299657
|
Defective TCII does not bind Cbl in the circulation
|
BibTex
|
2013-04-18
|
R-HSA-3296477
|
Defective AMN does not transport GIF:Cbl
|
BibTex
|
2013-04-18
|
R-HSA-3296462
|
Defective CUBN does not transport GIF:Cbl
|
BibTex
|
2013-04-17
|
R-HSA-3295580
|
TRPM4,5 transport extracellular Na+ to cytosol
|
BibTex
|
2013-04-17
|
R-HSA-9701055
|
TRPA1 tetramer transports Ca2+ from extracellular region to cytosol
|
BibTex
|
2013-04-17
|
R-HSA-3295579
|
TRPs transport extracellular Ca2+ to cytosol
|
BibTex
|
2013-04-17
|
R-HSA-9701141
|
TRPV1 transports Ca2+ from extracellular region to cytosol
|
BibTex
|
2013-04-11
|
R-BTA-3270622
|
Rcvrn:Ca2+ binds to and inhibits Grk1
|
BibTex
|
2013-03-26
|
R-HSA-3229213
|
RCVRN:Ca2+ binds to and inhibits GRK1
|
BibTex
|
2013-03-26
|
R-BTA-3229197
|
Gnat1-GDP binds to Gnb1:Gngt1
|
BibTex
|
2013-03-26
|
R-HSA-3229181
|
CALM1:Ca2+ binds CNG channel
|
BibTex
|
2013-03-01
|
R-HSA-3204311
|
AOX1 oxidises PXL to PDXate
|
BibTex
|
2013-02-22
|
R-HSA-3165230
|
SLC52A1,2,3 transport RIB from extracellular region to cytosol
|
BibTex
|
2013-02-20
|
R-HSA-71010
|
MUT isomerises L-MM-CoA to SUCC-CoA
|
BibTex
|
2013-02-13
|
R-HSA-3245898
|
TCN1 binds correnoids in the circulation
|
BibTex
|
2013-02-13
|
R-HSA-3132759
|
TCN1 binds RCbl
|
BibTex
|
2013-02-13
|
R-HSA-3132753
|
Pancreatic proteases degrade TCN1:RCbl
|
BibTex
|
2013-02-08
|
R-HSA-3095901
|
ABCC1 transports cytosolic RCbl to extracellular region
|
BibTex
|
2013-02-07
|
R-HSA-4167509
|
Mitochondrial BTD hydrolyses BCTN
|
BibTex
|
2013-02-07
|
R-HSA-3076881
|
BCTN translocates to extracellular region
|
BibTex
|
2013-02-07
|
R-HSA-3076905
|
Extracellular BTD hydrolyses BCTN
|
BibTex
|
2013-02-06
|
R-HSA-4167501
|
An unknown protease degrades ACACB
|
BibTex
|
2013-02-06
|
R-HSA-3065959
|
An unknown protease degrades hCBXs
|
BibTex
|
2013-02-06
|
R-HSA-3065958
|
An unknown protease degrades ACACA
|
BibTex
|
2013-01-24
|
R-HSA-3000263
|
TCN2:RCbl is degraded to release RCbl
|
BibTex
|
2013-01-24
|
R-HSA-3000243
|
Unknown lysosomal protease degrades CBLIF:RCbl to release Cbl
|
BibTex
|
2013-01-24
|
R-HSA-3000137
|
CUBN:AMN-mediated CBLIF:RCbl uptake and delivery to lysosome
|
BibTex
|
2013-01-24
|
R-HSA-3000074
|
TCN2 binds RCbl in the circulation
|
BibTex
|
2013-01-24
|
R-HSA-3000103
|
CUBN:AMN binds CBLIF:RCbl
|
BibTex
|
2013-01-24
|
R-HSA-3000120
|
CBLIF binds RCbl
|
BibTex
|
2013-01-24
|
R-HSA-3000112
|
CD320-mediated TCN2:RCbl uptake and delivery to lysosome
|
BibTex
|
2013-01-24
|
R-HSA-3000122
|
CD320 binds extracellular TCN2:RCbl
|
BibTex
|
2013-01-22
|
R-HSA-2995334
|
COX15 transforms heme O to heme A
|
BibTex
|
2013-01-22
|
R-HSA-2995330
|
COX10 transforms heme to heme O
|
BibTex
|
2013-01-21
|
R-HSA-4167511
|
HLCS biotinylates ACACB
|
BibTex
|
2013-01-21
|
R-HSA-2993814
|
HLCS biotinylates ACACA:Mn2+
|
BibTex
|
2013-01-21
|
R-HSA-2993802
|
HLCS biotinylates PC:Mn2+
|
BibTex
|
2013-01-21
|
R-HSA-2993799
|
HLCS biotinylates 6xMCCC1:6xMCCC2
|
BibTex
|
2013-01-18
|
R-HSA-2993447
|
HLCS biotinylates 6x(PCCA:PCCB)
|
BibTex
|
2012-12-31
|
R-HSA-2889070
|
SLC9B2 exchanges Na+ for H+
|
BibTex
|
2012-12-21
|
R-MMU-2872452
|
Slc9c1 exchanges Na+ for H+
|
BibTex
|
2012-12-21
|
R-HSA-2872498
|
SLC17A3-1 cotransports extracellular Na+ and Pi to cytosol
|
BibTex
|
2012-12-21
|
R-HSA-2872497
|
SLC17A3-2 transports cytosolic urate to extracellular region
|
BibTex
|
2012-12-21
|
R-HSA-2872463
|
SLC9C1 exchanges Na+ for H+
|
BibTex
|
2012-12-21
|
R-HSA-2872444
|
SLC9B1/C2 exchange Na+ for H+
|
BibTex
|
2012-12-18
|
R-HSA-2855252
|
AKRs reduce RBP2:atRAL to RBP2:atROL
|
BibTex
|
2012-12-14
|
R-HSA-2855020
|
RYR tetramers transport Ca2+ from sarcoplasmic reticulum lumen to cytosol
|
BibTex
|
2012-12-07
|
R-HSA-2752067
|
BESTs transport cytosolic HCO3- to extracellular region
|
BibTex
|
2012-12-06
|
R-HSA-2744361
|
BESTs transport cytosolic Cl- to extracellular region
|
BibTex
|
2012-12-06
|
R-HSA-2744349
|
TTYH1 transports cytosolic Cl- to extracellular region
|
BibTex
|
2012-12-06
|
R-HSA-2744242
|
TTYH2/3 transport cytosolic Cl- to extracellular region
|
BibTex
|
2012-12-06
|
R-HSA-2744228
|
CLCN1/2/KA/KB transport cytosolic Cl- to extracellular region
|
BibTex
|
2012-12-05
|
R-HSA-2730959
|
CLCN7:OSTM1 exchanges Cl- for H+
|
BibTex
|
2012-12-05
|
R-HSA-2731002
|
CLCN3 exchanges Cl- for H+
|
BibTex
|
2012-12-05
|
R-MMU-2730951
|
Clcn3 exchanges Cl- for H+
|
BibTex
|
2012-12-04
|
R-HSA-2730692
|
CLCN4/5/6 exchange Cl- for H+
|
BibTex
|
2012-12-04
|
R-HSA-2730664
|
UNC79:UNC80:NALCN transports Na+ extracellular region to cytosol
|
BibTex
|
2012-12-03
|
R-HSA-2685505
|
TPCN1/2 transport lysosomal Ca2+ to cytosol
|
BibTex
|
2012-12-03
|
R-HSA-9659568
|
ANO1 transports cytosolic Cl- to extracellular region
|
BibTex
|
2012-12-03
|
R-HSA-2684901
|
ANOs transport cytosolic Cl- to extracellular region
|
BibTex
|
2012-11-29
|
R-HSA-2682349
|
RAF1:SGK:TSC22D3:WPP ubiquitinates SCNN channels
|
BibTex
|
2012-11-27
|
R-HSA-2672334
|
SCNN channels transport extracellular Na+ to cytosol
|
BibTex
|
2012-11-26
|
R-HSA-9650165
|
ASIC trimers bind H+
|
BibTex
|
2012-11-26
|
R-HSA-2671885
|
ASIC trimers:H+ transport extracellular Na+ to cytosol
|
BibTex
|
2012-11-21
|
R-HSA-2632521
|
at-retinyl is hydrolysed from p-MII:SAG to release atRAL
|
BibTex
|
2012-11-16
|
R-HSA-2586748
|
GUCA binds Ca2+ to form GUCA:Ca2+
|
BibTex
|
2012-11-14
|
R-HSA-2584246
|
GNAT1-GTP hydrolyses its bound GTP to GDP
|
BibTex
|
2012-11-13
|
R-BTA-2581495
|
Sag binds p-MII to form p-MII:Sag
|
BibTex
|
2012-11-13
|
R-HSA-2581474
|
GRK1,4,7 phosphorylate MII to p-MII
|
BibTex
|
2012-11-13
|
R-HSA-2581488
|
SAG binds p-MII to form p-MII:SAG
|
BibTex
|
2012-10-24
|
R-BTA-2534148
|
Nckx1 exchanges Na+ for Ca2+/K+
|
BibTex
|
2012-10-23
|
R-BTA-2534076
|
Unknown Nat N-acylates Gly in Gnat1
|
BibTex
|
2012-10-23
|
R-HSA-2534040
|
Unknown NAT N-acylates Gly in GNAT1
|
BibTex
|
2012-10-23
|
R-HSA-2534087
|
NMT1/2 transfer MYS to GNAT1
|
BibTex
|
2012-10-23
|
R-HSA-2534096
|
METAP1/2 demethylates GNAT1
|
BibTex
|
2012-10-17
|
R-BTA-2530504
|
MII catalyses GDP/GTP exchange on Gt
|
BibTex
|
2012-10-17
|
R-HSA-2530501
|
FNTA:FNTB transfers FARN to GNGT1
|
BibTex
|
2012-10-11
|
R-HSA-2514865
|
cGMP dissociates from CNG channels
|
BibTex
|
2012-10-11
|
R-HSA-2514867
|
cGMP:CNG transports Na+ and Ca2+ into the rod outer segment
|
BibTex
|
2012-10-11
|
R-HSA-2514891
|
SLC24A1 exchanges 4Na+ for Ca2+, K+
|
BibTex
|
2012-10-01
|
R-HSA-2485180
|
MII catalyses GDP/GTP exchange on Gt
|
BibTex
|
2012-10-01
|
R-HSA-2485182
|
Gt-GTP dissociates to GNAT1-GTP and GNB1:GNGT1
|
BibTex
|
2012-09-21
|
R-HSA-2471641
|
Defective OPN1MW causes COD5
|
BibTex
|
2012-09-21
|
R-HSA-2471660
|
Defective OPN1LW causes CBP
|
BibTex
|
2012-09-21
|
R-HSA-2471670
|
Defective RDH12 does not reduce atRAL to atROL
|
BibTex
|
2012-09-13
|
R-HSA-2467738
|
A2E translocates to RPE cells
|
BibTex
|
2012-09-13
|
R-HSA-2467761
|
A2E is phagocytosed
|
BibTex
|
2012-09-12
|
R-HSA-2466861
|
Defective RDH12 does not reduce atRAL to atROL and causes LCA13
|
BibTex
|
2012-09-12
|
R-HSA-2466706
|
Defective OPN1MW causes DCB and BCM
|
BibTex
|
2012-09-12
|
R-HSA-2466834
|
Defective OPN1SW causes tritanopia
|
BibTex
|
2012-09-12
|
R-HSA-2466802
|
Defective ABCA4 does not transport NRPE from disc membranes
|
BibTex
|
2012-09-12
|
R-HSA-2466832
|
Defective RDH5 does not oxidise 11cROL to 11cRAL and causes RPA
|
BibTex
|
2012-09-12
|
R-HSA-2466822
|
Defective OPN1LW causes BCM
|
BibTex
|
2012-09-12
|
R-HSA-2466710
|
Defective LRAT does not esterify RBP1:atROL and FACYLs to atREs
|
BibTex
|
2012-09-12
|
R-HSA-2466764
|
NRPE condenses with atRAL to form A2PE
|
BibTex
|
2012-09-12
|
R-HSA-2466831
|
A2PE hydrolyses to A2E
|
BibTex
|
2012-09-12
|
R-HSA-2466828
|
Defective RBP4 does not bind atROL
|
BibTex
|
2012-09-12
|
R-HSA-2466718
|
NRPE dissociates to atRAL and PE
|
BibTex
|
2012-09-12
|
R-HSA-2466749
|
ABCA4 transports NRPE from photoreceptor outer segment membrane to cytosol
|
BibTex
|
2012-09-12
|
R-HSA-2466846
|
atRAL can spontaneously react with PE to form NRPE
|
BibTex
|
2012-09-06
|
R-HSA-2466085
|
at-retinyl is hydrolysed from R* to release atRAL
|
BibTex
|
2012-09-05
|
R-HSA-2465971
|
RLBP1 binds atROL to form RLBP1:atROL
|
BibTex
|
2012-09-04
|
R-HSA-2465917
|
Photons induce isomerisation of 11c-retinyl to at-retinyl
|
BibTex
|
2012-09-04
|
R-HSA-2465924
|
OPN1LW binds 11cRAL
|
BibTex
|
2012-09-04
|
R-HSA-2465921
|
11cRDH oxidises 11cROL to 11cRAL
|
BibTex
|
2012-09-04
|
R-HSA-2465934
|
11cROL translocates from Muller cells to cone photoreceptor cells
|
BibTex
|
2012-09-04
|
R-HSA-2465941
|
A REH hydrolyses 11cRE to 11cROL
|
BibTex
|
2012-09-04
|
R-HSA-9656891
|
OPN1SW binds 11cRAL
|
BibTex
|
2012-09-04
|
R-HSA-9656893
|
OPN1MW binds 11cRAL
|
BibTex
|
2012-09-04
|
R-HSA-2465926
|
An atROL isomerase isomerises atROL to 11cROL
|
BibTex
|
2012-09-04
|
R-HSA-2465938
|
RBP3 regulates atROL taken up by Muller cells
|
BibTex
|
2012-09-04
|
R-HSA-2465940
|
atRAL is reduced to atROL
|
BibTex
|
2012-09-04
|
R-GGA-2465929
|
Isomerase II isomerises atROL to 11cROL
|
BibTex
|
2012-09-04
|
R-HSA-2465919
|
AWAT2 transfers PALM to 11cROL forming 11cRPALM
|
BibTex
|
2012-09-03
|
R-HSA-2464809
|
RBP3 regulates the transport of atROL from ROS to RPE
|
BibTex
|
2012-09-03
|
R-HSA-2464822
|
RDH12 reduces atRAL to atROL
|
BibTex
|
2012-09-03
|
R-HSA-2464810
|
atRAL(membrane) diffuses to atRAL(cytosol)
|
BibTex
|
2012-09-03
|
R-HSA-2464803
|
RDH8 reduces atRAL to atROL
|
BibTex
|
2012-08-22
|
R-HSA-2454264
|
11cROL binds to RLBP1 to form RLBP1:11cROL
|
BibTex
|
2012-08-21
|
R-HSA-2454113
|
RBP3 transports 11cRAL to rod photoreceptor outer segment
|
BibTex
|
2012-08-21
|
R-HSA-2454118
|
11cRAL binds to opsin to form 11c-retinyl:RHO
|
BibTex
|
2012-08-21
|
R-HSA-74101
|
Photons induce isomerization of 11c-retinyl to at-retinyl
|
BibTex
|
2012-08-20
|
R-HSA-2454081
|
RDH5 oxidises 11cROL to 11cRAL
|
BibTex
|
2012-08-17
|
R-HSA-2453818
|
Defective STRA6 does not transport atROL
|
BibTex
|
2012-08-17
|
R-HSA-74872
|
RDH10,11 oxidise 11cROL to 11cRAL
|
BibTex
|
2012-08-17
|
R-HSA-2453833
|
RPE65 isomero-hydrolyses atREs to 11cROL
|
BibTex
|
2012-08-17
|
R-HSA-2453855
|
LRAT esterifies RBP1:atROL and FACYLs to atREs
|
BibTex
|
2012-08-17
|
R-HSA-74843
|
atROL binds RBP1 to form RBP1:atROL
|
BibTex
|
2012-08-17
|
R-HSA-2453863
|
STRA6 transports atROL from extracellular region to cytosol
|
BibTex
|
2012-08-17
|
R-HSA-2453876
|
TTR:RBP:atROL binds to STRA6 receptor
|
BibTex
|
2012-08-09
|
R-HSA-2429643
|
NREH hydrolyses atREs (HSPG:apoE) to atROL and FAs
|
BibTex
|
2012-07-25
|
R-MMU-2425403
|
Extracellular CR:atREs are transported to cytosol by Ldlr
|
BibTex
|
2012-07-23
|
R-HSA-2424254
|
LDLR transports extracellular CR:atREs to cytosol
|
BibTex
|
2012-07-20
|
R-HSA-2423785
|
CR:atREs binds apoE and HSPG
|
BibTex
|
2012-07-16
|
R-HSA-2404134
|
RBP4:atROL binds TTR
|
BibTex
|
2012-07-16
|
R-HSA-2404131
|
LRPs transport extracellular CR:atREs:HSPG:apoE to cytosol
|
BibTex
|
2012-07-16
|
R-HSA-2404140
|
NREH hydrolyses atREs to atROL and FAs
|
BibTex
|
2012-07-16
|
R-HSA-2855259
|
atROL binds RBP1 (parenchymal cell)
|
BibTex
|
2012-07-16
|
R-HSA-2404144
|
Parenchymal atROL translocates to HSCs
|
BibTex
|
2012-07-16
|
R-HSA-2404142
|
atROL binds RBP1
|
BibTex
|
2012-07-16
|
R-HSA-2404137
|
LRAT esterifies RBP1:atROL and FACYLs to atREs
|
BibTex
|
2012-07-16
|
R-HSA-2404133
|
A REH hydrolses atREs to atROL and FAs
|
BibTex
|
2012-07-16
|
R-HSA-2404139
|
HSC cytosolic atROL translocates to extracellular region
|
BibTex
|
2012-07-16
|
R-HSA-2404135
|
RBP4 binds atROL
|
BibTex
|
2012-07-13
|
R-HSA-2399913
|
atRAL binds to RBP2
|
BibTex
|
2012-07-02
|
R-HSA-2395764
|
atREs binds to nascent CM
|
BibTex
|
2012-07-02
|
R-HSA-2395784
|
Nascent CMs transform into mature CMs
|
BibTex
|
2012-07-02
|
R-HSA-2395768
|
LPL hydrolyses TGs from mature CMs
|
BibTex
|
2012-06-14
|
R-HSA-2318585
|
Defective HYAL1 does not hydrolyse Chondroitin chains
|
BibTex
|
2012-06-14
|
R-HSA-9036077
|
Defective HYAL1 does not hydrolyse (HA)50
|
BibTex
|
2012-06-13
|
R-HSA-9036070
|
Defective GUSB does not hydrolyse CS/HS precursor
|
BibTex
|
2012-06-13
|
R-HSA-9036068
|
Defective GUSB does not hydrolyse GlcA-?1,3-GlcNAc
|
BibTex
|
2012-06-13
|
R-HSA-2318373
|
Defective GUSB does not hydrolyse (HA)2
|
BibTex
|
2012-05-28
|
R-HSA-2282889
|
Defective ARSB does not hydrolyse C4S/C6S chains
|
BibTex
|
2012-05-28
|
R-HSA-9036065
|
Defective ARSB does not hydrolyse DS
|
BibTex
|
2012-05-21
|
R-HSA-2265534
|
Defective GLB1 does not hydrolyse a glycosaminoglycan
|
BibTex
|
2012-05-21
|
R-HSA-9036061
|
Defective GLB1 does not hydrolyse linker chain(2)
|
BibTex
|
2012-05-21
|
R-HSA-9036052
|
Defective NAGLU does not hydrolyse heparan chain(2)
|
BibTex
|
2012-05-21
|
R-HSA-2263496
|
Defective NAGLU does not hydrolyse Heparan sulfate chain(4)
|
BibTex
|
2012-05-21
|
R-HSA-2263490
|
Defective GALNS does not hydrolyse sulfate from Gal6S in keratan sulfate
|
BibTex
|
2012-05-21
|
R-HSA-2263492
|
Defective HGSNAT does not acetylate Heparan chain(1)
|
BibTex
|
2012-05-21
|
R-HSA-9036056
|
Defective HGSNAT does not acetylate Heparan sulfate chain(3)
|
BibTex
|
2012-05-21
|
R-HSA-2263495
|
Defective GNS does not hydrolyse 6-sulfate from GlcNAc6S
|
BibTex
|
2012-05-21
|
R-HSA-9036050
|
Defective SGSH does not hydrolyse Heparan sulfate chain(2)
|
BibTex
|
2012-05-21
|
R-HSA-2263444
|
Defective SGSH does not hydrolyse Heparan sulfate chain(7)
|
BibTex
|
2012-05-20
|
R-HSA-9036046
|
Defective IDS does not hydrolyse Heparan sulfate chain(5)
|
BibTex
|
2012-05-20
|
R-HSA-2262743
|
Defective IDS does not hydrolyse dermatan sulfate (Chebi:63517 chain)
|
BibTex
|
2012-05-15
|
R-HSA-2248891
|
M6PR transports activated ARSA to the lysosome
|
BibTex
|
2012-04-26
|
R-HSA-9036041
|
Defective IDUA does not hydrolyse the unsulfated alpha-L-iduronosidic link in DS
|
BibTex
|
2012-04-26
|
R-HSA-2206299
|
Defective IDUA does not hydrolyse Heparan sulfate chain(6)
|
BibTex
|
2012-04-26
|
R-HSA-9036037
|
Defective IDUA does not hydrolyse Heparan sulfate chain(1)
|
BibTex
|
2012-04-09
|
R-HSA-2187332
|
Cytosolic CMs translocate to extracellular region
|
BibTex
|
2012-04-04
|
R-HSA-2179407
|
SOS1-mediated nucleotide exchange of RAS (HB-EFG-initiated)
|
BibTex
|
2012-04-04
|
R-MMU-2203911
|
Active Mmp3 can cleave pro-Hbegf to form active Hbegf
|
BibTex
|
2012-04-04
|
R-HSA-2179413
|
Activated PKC-alpha activate MMP3
|
BibTex
|
2012-04-04
|
R-HSA-2179402
|
Active MMP3 can cleave pro-HBEGF to form active HBEGF
|
BibTex
|
2012-04-04
|
R-HSA-2179387
|
Mature HBEGF binds to EGFR, triggering dimerisation and autophosphorylation of the receptor
|
BibTex
|
2012-04-04
|
R-HSA-2179415
|
GRB2:SOS1 binds to HBEGF:p-Y-EGFR
|
BibTex
|
2012-04-04
|
R-HSA-870269
|
Gastrin binds to CCK-B receptor
|
BibTex
|
2012-03-16
|
R-HSA-2162229
|
The single sugars GlcA and GlcNAc translocate from the lysosome to the cytosol
|
BibTex
|
2012-03-16
|
R-HSA-9638076
|
HEXB cleaves the terminal GalNAc from small HA fragments
|
BibTex
|
2012-03-16
|
R-HSA-2162226
|
GUSB tetramer hydrolyses GlcA-?1,3-GlcNAc
|
BibTex
|
2012-03-16
|
R-HSA-2162227
|
GUSB tetramer hydrolyses (HA)2
|
BibTex
|
2012-03-16
|
R-HSA-2162225
|
HEXA cleaves the terminal GalNAc from small HA fragments
|
BibTex
|
2012-03-05
|
R-HSA-2160851
|
HAS1,2,3 mediate the polymerization of HA
|
BibTex
|
2012-03-05
|
R-HSA-2160874
|
HYAL1 hydrolyses (HA)50
|
BibTex
|
2012-03-05
|
R-HSA-2160906
|
20kDa HA fragments are translocated to lysosomes
|
BibTex
|
2012-03-05
|
R-HSA-2160892
|
Hyaluronidase 2 (HYAL2) hydrolyses HA into 20kDa fragments
|
BibTex
|
2012-03-05
|
R-HSA-2160884
|
HA:HAR:HYAL2 binds to SLC9A1:p-CHP:Ca2+
|
BibTex
|
2012-03-05
|
R-HSA-2160915
|
Receptor-mediated uptake of HA
|
BibTex
|
2012-02-24
|
R-HSA-2142859
|
Growing HA is extruded from the cell by ABCC5
|
BibTex
|
2012-02-09
|
R-HSA-2105001
|
HEXA cleaves the terminal GalNAc from DS
|
BibTex
|
2012-02-09
|
R-HSA-9638075
|
HEXB cleaves the terminal GalNAc from DS
|
BibTex
|
2012-02-06
|
R-HSA-2090079
|
GLB1 hydrolyses linker chain(2)
|
BibTex
|
2012-02-06
|
R-HSA-2090038
|
NAGLU hydrolyses heparan chain(2)
|
BibTex
|
2012-02-06
|
R-HSA-2090085
|
HGSNAT oligomer acetylates Heparan chain(1)
|
BibTex
|
2012-02-06
|
R-HSA-2090043
|
SGSH hydrolyses Heparan sulfate chain(7)
|
BibTex
|
2012-02-06
|
R-HSA-2090037
|
IDUA hydrolyses Heparan sulfate chain(6)
|
BibTex
|
2012-01-27
|
R-HSA-2076419
|
HS6STs sulfate GlcN at C6 in heparan sulfate/heparin
|
BibTex
|
2012-01-27
|
R-HSA-2076611
|
HS3STs sulfate GlcN at C3 in heparan sulfate
|
BibTex
|
2012-01-27
|
R-HSA-2076371
|
GLCE epimerises more GlcA to IdoA as sulfate content rises
|
BibTex
|
2012-01-27
|
R-HSA-2076392
|
EXT1:EXT2 transfers GlcA to heparan
|
BibTex
|
2012-01-27
|
R-HSA-2076508
|
HS2ST1 sulfates IdoA at C2 in heparan sulfate
|
BibTex
|
2012-01-27
|
R-HSA-2076383
|
HS3ST1 sulfates GlcN at C3 in heparan sulfate
|
BibTex
|
2012-01-20
|
R-HSA-2065233
|
CS is cleaved from its proteoglycan
|
BibTex
|
2012-01-11
|
R-HSA-2046239
|
Extracellular KSPG translocates to the lysosome for degradation
|
BibTex
|
2011-12-15
|
R-HSA-2025723
|
B4GALTs transfer Gal to the N-glycan precursor
|
BibTex
|
2011-12-15
|
R-HSA-2025724
|
B3GNT1,2,3,4,7 add GlcNAc to form Keratan-PG
|
BibTex
|
2011-12-14
|
R-HSA-2024084
|
HS-GAGs translocate to the lysosome for degradation
|
BibTex
|
2011-12-14
|
R-HSA-1667005
|
Heparanase (HPSE) cleaves heparan sulfate from its proteoglycan (lysosome)
|
BibTex
|
2011-12-14
|
R-HSA-2024108
|
Some HSPGs are secreted to the plasma membrane
|
BibTex
|
2011-12-14
|
R-MMU-2024090
|
Glce epimerises GlcA to IdoA
|
BibTex
|
2011-12-14
|
R-HSA-2024100
|
GLCE epimerises GlcA to IdoA
|
BibTex
|
2011-12-01
|
R-HSA-2022911
|
CSPG is secreted
|
BibTex
|
2011-12-01
|
R-HSA-2046175
|
Further sulfation on galactose residues produces KSPG
|
BibTex
|
2011-12-01
|
R-HSA-2046222
|
CHST2,5,6 transfer SO4(2-) to GlcNAc residues on keratan-PG to form KSPG
|
BibTex
|
2011-12-01
|
R-HSA-2046285
|
The keratan chain can be capped by N-acetylneuraminic acid
|
BibTex
|
2011-12-01
|
R-HSA-2046298
|
B4GALTs transfer Gal to a branch of keratan
|
BibTex
|
2011-12-01
|
R-HSA-2046265
|
B4GALTs transfer Gal to the keratan chain
|
BibTex
|
2011-12-01
|
R-HSA-2046180
|
KSPG is secreted from the cell
|
BibTex
|
2011-12-01
|
R-HSA-2022860
|
NDST1-4 can sulfate a glucosamine residue in heparan to form heparan sulfate (HS)
|
BibTex
|
2011-12-01
|
R-HSA-2022887
|
NDST1-4 N-deacetylates GlcNAc residues in heparan
|
BibTex
|
2011-12-01
|
R-HSA-2022851
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EXT1:EXT2 transfer GlcNAc to the heparan chain
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BibTex
|
2011-12-01
|
R-HSA-2022856
|
EXT1:EXT2 transfers GlcNAc to heparan
|
BibTex
|
2011-12-01
|
R-HSA-2022919
|
EXT1:EXT2 transfers GlcNAc to the terminal GlcA residue
|
BibTex
|
2011-11-25
|
R-HSA-2022056
|
DSPG and CSPG translocate to the lysosome for degradation
|
BibTex
|
2011-11-25
|
R-HSA-2022065
|
DSPGs are secreted
|
BibTex
|
2011-11-25
|
R-HSA-2022061
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Dermatan sulfate can be further sulfated on position 2 of iduronate
|
BibTex
|
2011-11-25
|
R-HSA-2022063
|
CHST14 transfers SO4(2-) to GalNAc in dermatan or DS
|
BibTex
|
2011-11-24
|
R-HSA-2022052
|
Dermatan-sulfate epimerase (DSE) converts chondroitin sulfate (CS) to dermatan sulfate (DS)
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BibTex
|
2011-11-24
|
R-HSA-2018659
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Chondroitin 4-sulfate (C4S) can be further sulfated on position 6 by CHST15
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BibTex
|
2011-11-24
|
R-HSA-2018682
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CHST3,7 transfer SO4(2-) to position 6 of GalNAc on chondroitin chains
|
BibTex
|
2011-11-04
|
R-HSA-9632033
|
CHSY1 transfers GalNAc to chondroitin
|
BibTex
|
2011-11-04
|
R-HSA-1971491
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CHPF,CHPF2,CHSY3 transfer GlcA to chondroitin
|
BibTex
|
2011-11-04
|
R-HSA-1971483
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Chondroitin can be sulfated on position 4 of GalNAc by CHST9, 11, 12 and 13
|
BibTex
|
2011-11-04
|
R-HSA-1971487
|
CHPF,CHSY3 transfer GalNAc to chondroitin
|
BibTex
|
2011-11-04
|
R-HSA-9632034
|
CHSY1 transfers GlcA to chondroitin
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BibTex
|
2011-11-04
|
R-HSA-1971482
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The addition of GalNAc to the terminal glucuronate residue forms chondroitin
|
BibTex
|
2011-11-01
|
R-HSA-1889981
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B4GALT7 transfers Gal group to xylosyl-unit of the tetrasaccharide linker
|
BibTex
|
2011-11-01
|
R-HSA-9638064
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B3GAT3 dimer transfers GlcA to tetrasaccharide linker
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BibTex
|
2011-11-01
|
R-HSA-1889978
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B3GALT6 transfers Gal to the tetrasaccharide linker
|
BibTex
|
2011-11-01
|
R-HSA-1889955
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B3GAT dimers transfer GlcA to tetrasaccharide linker
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BibTex
|
2011-10-31
|
R-HSA-1878002
|
XYLTs transfer Xyl to core protein
|
BibTex
|
2011-10-21
|
R-HSA-1793217
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Keratan sulfate is cleaved from its proteoglycan by an unknown galactosidase
|
BibTex
|
2011-10-21
|
R-HSA-1793186
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IDUA) hydrolyses the unsulfated alpha-L-iduronosidic link in DS
|
BibTex
|
2011-10-21
|
R-HSA-1793182
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IDS hydrolyses dermatan sulfate (Chebi:63517 chain)
|
BibTex
|
2011-10-21
|
R-HSA-1793176
|
DS is cleaved from its proteoglycan
|
BibTex
|
2011-10-21
|
R-HSA-1793207
|
ARSB hydrolyses C4S/C6S chains
|
BibTex
|
2011-10-21
|
R-HSA-1793209
|
HYAL1 hydrolyses Chondroitin chains
|
BibTex
|
2011-10-19
|
R-HSA-1678854
|
GUSB tetramer hydrolyses CS/HS precursor
|
BibTex
|
2011-10-19
|
R-HSA-1678694
|
Heparanase 2 (HPSE2) binds heparan sulfate proteoglycans
|
BibTex
|
2011-10-19
|
R-HSA-1678650
|
IDS hydrolyses Heparan sulfate chain(5)
|
BibTex
|
2011-10-19
|
R-HSA-1678742
|
NAGLU hydrolyses Heparan sulfate chain(4)
|
BibTex
|
2011-10-19
|
R-HSA-1678660
|
HGSNAT oligomer acetylates Heparan sulfate chain(3)
|
BibTex
|
2011-10-19
|
R-HSA-1678708
|
SGSH hydrolyses Heparan sulfate chain(2)
|
BibTex
|
2011-10-19
|
R-HSA-1678716
|
IDUA hydrolyses Heparan sulfate chain(1)
|
BibTex
|
2011-10-13
|
R-HSA-1655879
|
Thiosulfate can transfer its sulfur atom to glutathione
|
BibTex
|
2011-10-12
|
R-RNO-1655440
|
PXLP-K305-Csad decarboxylates 3-sulfinoalanine to hypotaurine
|
BibTex
|
2011-10-12
|
R-HSA-1655443
|
PXKLP-K305-CSAD decarboxylates 3-sulfinoalanine to hypotaurine
|
BibTex
|
2011-10-10
|
R-HSA-1640164
|
ENPP7 hydrolyzes sphingomyelin
|
BibTex
|
2011-10-10
|
R-HSA-1638845
|
CERK phosphorylates CERA to form C1P
|
BibTex
|
2011-10-07
|
R-HSA-1638104
|
UGCG transfers glucose to ceramide
|
BibTex
|
2011-10-05
|
R-HSA-9638078
|
HEXB cleaves the terminal GalNAc from keratan sulfate
|
BibTex
|
2011-10-05
|
R-HSA-1638053
|
HEXA cleaves the terminal GalNAc from keratan sulfate
|
BibTex
|
2011-10-05
|
R-HSA-1630306
|
GLB1 hydrolyses a glycosaminoglycan
|
BibTex
|
2011-10-05
|
R-HSA-1638032
|
N-acetylglucosamine 6-sulfatase (GNS) hydrolyses 6-sulfate groups of the N-acetyl-D-glucosamine 6-sulfate units of keratan sulfate
|
BibTex
|
2011-10-05
|
R-HSA-1630304
|
GALNS oligomer hydrolyses sulfate from Gal6S in keratan sulfate
|
BibTex
|
2011-09-28
|
R-HSA-1614336
|
SUMF2 binds SUMF1, inhibiting SUMF1-mediated activation of arylsulfatases
|
BibTex
|
2011-09-28
|
R-HSA-1614362
|
SUMF1 mediates the oxidation of cysteine to formylglycine, producing active arylsulfatases
|
BibTex
|
2011-09-27
|
R-HSA-1606839
|
ARSC hydrolyzes steroid sulfates
|
BibTex
|
2011-09-27
|
R-HSA-1606789
|
ARSB hydrolyses DS
|
BibTex
|
2011-09-27
|
R-HSA-1606807
|
ARSA removes sulfate from PSAP(195-273):Sulfatide
|
BibTex
|
2011-09-23
|
R-HSA-1606583
|
ASAH2 hydrolyzes ceramide (plasma membrane)
|
BibTex
|
2011-09-23
|
R-HSA-1606602
|
ASAH1 hydrolyzes ceramide
|
BibTex
|
2011-09-23
|
R-HSA-1606564
|
GALC hydrolyzes GalCer
|
BibTex
|
2011-09-21
|
R-HSA-1605797
|
SMPD1 hydrolyzes SPHM
|
BibTex
|
2011-09-21
|
R-HSA-1605768
|
NEU3 cleaves GM3 to form LacCer (plasma membrane)
|
BibTex
|
2011-09-21
|
R-HSA-1605632
|
bHEXA,bHEXB hydrolyze PSAP(195-273):Gb4Cer:PE
|
BibTex
|
2011-09-21
|
R-HSA-1605736
|
GLA hydrolyzes PSAP(195-273):Gb3Cer:PE
|
BibTex
|
2011-09-21
|
R-HSA-1606312
|
GLB1 hydrolyzes SapB/C:LacCer
|
BibTex
|
2011-09-21
|
R-HSA-1605591
|
GBA1:SAPC hydrolyzes GlcCer
|
BibTex
|
2011-09-21
|
R-HSA-1605724
|
NEU1,4 hydrolyze PSAP(195-273):GM3:PE
|
BibTex
|
2011-09-21
|
R-HSA-1605723
|
NEU2 cleaves GM3 to form LacCer (cytosol)
|
BibTex
|
2011-09-21
|
R-HSA-1605717
|
GM2A binds and mobilizes ligands
|
BibTex
|
2011-09-21
|
R-HSA-1605624
|
Beta-galactosidases hydrolyse mobilized GM1 to mobilized GM2
|
BibTex
|
2011-09-21
|
R-HSA-1605595
|
bHEXA hydrolyzes GM2A:GM2 to GM2A:GM3
|
BibTex
|
2011-09-21
|
R-HSA-1861789
|
GBA3 hydrolyzes GlcCer (cytosol)
|
BibTex
|
2011-09-21
|
R-HSA-1606273
|
SMPD2 and 3 hydrolyze sphingomyelin (plasma membrane)
|
BibTex
|
2011-09-21
|
R-HSA-1861788
|
GBA2 hydrolyzes GlcCer (plasma membrane)
|
BibTex
|
2011-09-21
|
R-HSA-1606288
|
SMPD4 hydrolyzes sphingomyelin (ER membrane)
|
BibTex
|
2011-08-17
|
R-HSA-1497866
|
Peroxynitrite can oxidise BH4 to the BH3 radical
|
BibTex
|
2011-08-17
|
R-HSA-1474158
|
GCHFR binds to GCH1 and negatively regulates its activity
|
BibTex
|
2011-08-17
|
R-HSA-1497794
|
Salvage - BH2 is reduced to BH4 by DHFR
|
BibTex
|
2011-08-17
|
R-HSA-1497878
|
Superoxide reacts rapidly with NO to form peroxynitrite (ONOO-)
|
BibTex
|
2011-08-17
|
R-HSA-1497810
|
Uncoupled eNOS favours the formation of superoxide
|
BibTex
|
2011-08-17
|
R-HSA-1497855
|
Ascorbate can reduce the BH3 radical back to BH4
|
BibTex
|
2011-08-17
|
R-HSA-1475422
|
PTPS is phosphorylated by cGMP-dependant protein kinase II
|
BibTex
|
2011-08-17
|
R-HSA-1474146
|
GCH1 reduces GTP to dihydroneopterin triphosphate
|
BibTex
|
2011-08-17
|
R-HSA-1474184
|
DHNTP is dephosphorylated by PTPS to PTHP
|
BibTex
|
2011-08-17
|
R-HSA-1497883
|
Ferrous iron reduces the BH3 radical back to BH4
|
BibTex
|
2011-08-17
|
R-HSA-1497853
|
Sepiapterin reductase (SPR) is phosphorylated by Ca2+/calmodulin-dependent protein kinase II
|
BibTex
|
2011-08-17
|
R-HSA-1475414
|
PTHP is reduced to BH4 by sepiapterin reductase (SPR)
|
BibTex
|
2011-08-17
|
R-HSA-1497824
|
BH4 is oxidised to the BH3 radical during the eNOS catalytic cycle
|
BibTex
|
2011-08-17
|
R-HSA-1497863
|
The BH3 radical can decay to dihydrobiopterin (BH2)
|
BibTex
|
2011-08-17
|
R-HSA-1497796
|
BH2 binding can lead to eNOS uncoupling
|
BibTex
|
2011-08-17
|
R-HSA-1497869
|
Salvage - Sepiapterin is reduced to BH2
|
BibTex
|
2011-08-17
|
R-HSA-1497784
|
The cofactor BH4 is required for electron transfer in the eNOS catalytic cycle
|
BibTex
|
2011-08-17
|
R-MMU-1497770
|
Salvage - BH2 is reduced to BH4 by Dhfr
|
BibTex
|
2011-08-01
|
R-HSA-1467466
|
ABCA4 mediates atRAL transport
|
BibTex
|
2011-08-01
|
R-HSA-1467457
|
ABCA8,B1,B5 transport xenobiotics from cytosol to extracellular region
|
BibTex
|
2011-07-19
|
R-HSA-1454916
|
The ABCC family mediates organic anion transport
|
BibTex
|
2011-07-19
|
R-HSA-1454928
|
ABCG4 may mediate cholesterol efflux
|
BibTex
|
2011-07-15
|
R-HSA-1449687
|
Corticosteroids bind to CBG in blood
|
BibTex
|
2011-07-04
|
R-HSA-1369065
|
ABCB6 transports porphyrin from cytosol to mitchondrial matrix
|
BibTex
|
2011-07-04
|
R-HSA-1369028
|
ABCAs mediate lipid efflux
|
BibTex
|
2011-05-23
|
R-HSA-1299507
|
Methylthio-ribulose-P = Methylthio-ribose-P
|
BibTex
|
2011-04-08
|
R-HSA-1247939
|
CysGly translocates from extracellular region to cytosol
|
BibTex
|
2011-04-08
|
R-HSA-8943279
|
GGT dimers hydrolyse GSH
|
BibTex
|
2011-04-08
|
R-HSA-1247915
|
GSH translocates from cytosol to extracellular region
|
BibTex
|
2011-04-08
|
R-HSA-1247910
|
CNDP2:2Mn2+ dimer hydrolyses CysGly
|
BibTex
|
2011-04-08
|
R-HSA-1247922
|
GGCT transforms gGluCys to OPRO
|
BibTex
|
2011-04-08
|
R-HSA-1247935
|
OPLAH hydrolyses OPRO to L-Glu
|
BibTex
|
2011-02-10
|
R-HSA-1183128
|
PADIs:Ca2+ deiminate L-Arg to L-Cit in proteins
|
BibTex
|
2010-11-17
|
R-HSA-8867288
|
OS9:SEL1:ERAD E3 ligase:DERL2 ubiquitinates unfolded protein:(GlcNAc)2 (Man)9-5
|
BibTex
|
2010-11-17
|
R-HSA-1022127
|
Ub-unfolded protein:(GlcNAc)2 (Man)9-5 translocates from ERQC to cytosol
|
BibTex
|
2010-11-09
|
R-HSA-997381
|
TDPK phosphorylates ThDP to ThTP
|
BibTex
|
2010-10-15
|
R-HSA-981809
|
ST6GALNAC3/4 transfers sialic acid to the sialyl T antigen to form the disialyl T antigen
|
BibTex
|
2010-10-15
|
R-HSA-981814
|
ST6GALNAC2 transfers sialic acid to Core 1 mucins
|
BibTex
|
2010-10-15
|
R-HSA-981497
|
ST3GAL1-4 transfers sialic acid to the T antigen at the alpha 3 position
|
BibTex
|
2010-10-15
|
R-HSA-977071
|
ST6GAL1 transfers sialic acid to Tn antigens to form sTn antigens
|
BibTex
|
2010-09-24
|
R-HSA-975449
|
GABRR pentamers:GABA transports extracellular Cl- to cytosol
|
BibTex
|
2010-09-24
|
R-HSA-975389
|
GLRA:GLRB:Gly transports extracellular Cl- to cytosol
|
BibTex
|
2010-09-23
|
R-HSA-975340
|
GABR heteropentamers:GABA transport Cl- from extracellular region to cytosol
|
BibTex
|
2010-09-23
|
R-HSA-9648983
|
HTR3A pentamer:5HT transports Na+,K+,Ca2+
|
BibTex
|
2010-09-23
|
R-HSA-975311
|
HTR3 pentamers:5HT transport Na+,K+,Ca2+
|
BibTex
|
2010-09-23
|
R-HSA-9649108
|
HTR3A pentamer binds 5HT
|
BibTex
|
2010-09-08
|
R-HSA-947591
|
P-type ATPases type IV transport internal-facing APLs to external side of the plasma membrane
|
BibTex
|
2010-09-01
|
R-HSA-939763
|
P-type ATPases type IV transport external-facing APLs to internal side of the plasma membrane
|
BibTex
|
2010-08-26
|
R-HSA-937311
|
ATP12A:ATP4B exchanges K+ for H+
|
BibTex
|
2010-08-26
|
R-HSA-9727198
|
ATP4A:ATP4B exchanges K+ for H+
|
BibTex
|
2010-08-24
|
R-HSA-936883
|
ATP2C1/2:Mg2+ transport cytosolic Ca2+ to Golgi lumen
|
BibTex
|
2010-08-24
|
R-HSA-936895
|
ATP7B transports cytosolic Cu2+ to Golgi lumen
|
BibTex
|
2010-08-24
|
R-HSA-936802
|
ATP7A transports cytosolic Cu2+ to extracellular region
|
BibTex
|
2010-08-24
|
R-HSA-936897
|
ATP1A:ATP1B:FXYD exchanges 3Na+ for 2K+
|
BibTex
|
2010-07-19
|
R-HSA-914006
|
Addition of galactose to the Tn antigen via an alpha-1,3 linkage forms a Core 8 glycoprotein
|
BibTex
|
2010-07-19
|
R-HSA-914005
|
Addition of GlcNAc to the Tn antigen via an alpha-1,3 linkage forms a Core 5 glycoprotein
|
BibTex
|
2010-07-19
|
R-HSA-914012
|
GCNTs transfer GlcNAc from UDP-GlcNAc to Core 1 mucins
|
BibTex
|
2010-07-19
|
R-HSA-914010
|
Addition of GlcNAc to the Tn antigen forms a Core 3 glycoprotein
|
BibTex
|
2010-07-19
|
R-HSA-914018
|
Addition of GlcNAc to Core 3 forms a Core 4 glycoprotein
|
BibTex
|
2010-07-19
|
R-HSA-914017
|
Addition of GalNAc to the Tn antigen via an alpha-1,6 linkage forms a Core 7 glycoprotein
|
BibTex
|
2010-07-19
|
R-HSA-914008
|
Addition of GlcNAc to the Tn antigen via a beta-1,6 linkage forms a Core 6 glycoprotein
|
BibTex
|
2010-07-19
|
R-HSA-913675
|
GALNTs transfer GalNAc to Mucins to form Tn antigens
|
BibTex
|
2010-07-19
|
R-HSA-1964505
|
C1GALT1 transfers Galactose to the Tn antigen forming Core 1 glycoproteins (T antigens)
|
BibTex
|
2010-06-18
|
R-HSA-879585
|
SLC27A1,4,6 transport LCFAs from extracellular region to cytosol
|
BibTex
|
2010-06-18
|
R-HSA-879584
|
SLCO3A1 isoform 1 has abroad substrate specificity
|
BibTex
|
2010-06-18
|
R-HSA-879575
|
SLCOs, SLC16A2 transport T3,T4 from extracellular region to cytosol
|
BibTex
|
2010-06-18
|
R-HSA-879594
|
SLCO4C1 mediates the transport of digoxin
|
BibTex
|
2010-06-18
|
R-HSA-879562
|
SLCO2B1 has a narrow substrate specificity
|
BibTex
|
2010-06-18
|
R-HSA-9631987
|
SLCO1B1 transports T3,T4 from extracellular region to cytosol
|
BibTex
|
2010-06-18
|
R-HSA-879528
|
SLCO2A1 transports PGT substrates from extracellular region to cytosol
|
BibTex
|
2010-05-17
|
R-HSA-744230
|
SLC35D2 mediates the antiport of GDP-mannose in exchange for GMP
|
BibTex
|
2010-05-17
|
R-HSA-744231
|
SLC35D2 exchanges UDP-GlcNAc for UMP
|
BibTex
|
2010-05-17
|
R-HSA-742373
|
SLC35B4 mediates the transport of UDP-xylose into the Golgi lumen
|
BibTex
|
2010-05-17
|
R-HSA-742354
|
SLC35B4 mediates the transport of UDP-N-acetylglucosamine into the Golgi lumen
|
BibTex
|
2010-05-17
|
R-HSA-742345
|
SLC35C1 transport UDP-Fuc from cytosol to Golgi lumen
|
BibTex
|
2010-05-14
|
R-HSA-741449
|
SLC35B2,3 transport cytosolic PAPS to Golgi lumen
|
BibTex
|
2010-05-14
|
R-HSA-741450
|
SLC35A3 exchanges UDP-GlcNAc for UMP
|
BibTex
|
2010-05-13
|
R-HSA-735702
|
SLC35A2 exchanges UDP-Gal, UDP-GalNAc for UMP
|
BibTex
|
2010-05-12
|
R-HSA-727807
|
SLC35A1 exchanges CMP-Neu5Ac for CMP
|
BibTex
|
2010-05-12
|
R-HSA-727759
|
SLC33A1 transports Ac-CoA from cytosol to Golgi lumen
|
BibTex
|
2010-05-12
|
R-HSA-727767
|
SLC29A3 transports nucleosides from cytosol to lysosomal lumen
|
BibTex
|
2010-05-12
|
R-HSA-727749
|
SLC29A3 transports nucleosides from lysosomal lumen to cytosol
|
BibTex
|
2010-05-12
|
R-HSA-727768
|
Equilibrative transport (export) of adenosine and biogenic amines by solute carrier family 29 (nucleoside transporters), member 4
|
BibTex
|
2010-05-12
|
R-HSA-727740
|
Equilibrative transport (import) of adenosine and biogenic amines by solute carrier family 29 (nucleoside transporters), member 4
|
BibTex
|
2010-04-14
|
R-HSA-597628
|
SLC22A18 exchanges extracellular organic cations for cytosolic H+
|
BibTex
|
2010-03-31
|
R-HSA-561253
|
SLC22A12 exchanges extracellular urate for cytosolic LACT
|
BibTex
|
2010-03-25
|
R-HSA-561054
|
OCT2 mediates tubular secretion of organic cations in the kidney
|
BibTex
|
2010-03-25
|
R-HSA-561072
|
OCT3 mediates renal uptake of organic cations
|
BibTex
|
2010-03-25
|
R-HSA-561041
|
OAT1-3 transport organic anions with antiport of dicarboxylic acids
|
BibTex
|
2010-03-25
|
R-HSA-561059
|
OAT2 and OAT4 mediate transport of sulphate conjugates
|
BibTex
|
2010-03-19
|
R-HSA-549297
|
SLC22A4, 5,15,16 cotransport CAR, Na+ from extracellular region to cytosol
|
BibTex
|
2010-03-19
|
R-HSA-549279
|
OCT2 mediates tubular uptake of organic cations in the kidney
|
BibTex
|
2010-03-19
|
R-HSA-549241
|
SLC22A4 cotransports ERGT, Na+ from extracellular region to cytosol
|
BibTex
|
2010-03-19
|
R-HSA-549304
|
OCT3 mediates renal clearance of organic cations
|
BibTex
|
2010-03-19
|
R-HSA-549322
|
OCT1 transports organic cations out of hepatic cells
|
BibTex
|
2010-03-17
|
R-HSA-549129
|
OCT1 transports organic cations into hepatic cells
|
BibTex
|
2010-01-25
|
R-HSA-469659
|
SRD5A1 dehydrogenates TEST to DHTEST
|
BibTex
|
2010-01-25
|
R-HSA-9705714
|
SRD5A3 dehydrogenates TEST to DHTEST
|
BibTex
|
2010-01-25
|
R-HSA-9705713
|
SRD5A2 dehydrogenates TEST to DHTEST
|
BibTex
|
2009-11-12
|
R-HSA-446277
|
RhCG mediates ammonium efflux out of kidney collecting duct cells
|
BibTex
|
2009-11-12
|
R-HSA-446278
|
RhBG mediates ammonium influx into kidney collecting duct cells
|
BibTex
|
2009-10-23
|
R-HSA-444433
|
Cho transports from the extracellular space to the cytosol
|
BibTex
|
2009-10-23
|
R-HSA-444416
|
RHAG transports NH4+ from cytosol to extracellular region (red blood cells)
|
BibTex
|
2009-10-23
|
R-HSA-444393
|
RhCG mediates ammonium influx into kidney collecting duct cells
|
BibTex
|
2009-10-23
|
R-HSA-444419
|
RhBG mediates ammonium effflux out of kidney collecting duct cells
|
BibTex
|
2009-10-22
|
R-HSA-444160
|
VMAT1/2 can mediate the transport of biogenic amines
|
BibTex
|
2009-10-22
|
R-HSA-444126
|
HUT2 and HUT11 mediate urea transport in kidney and erythrocytes respectively
|
BibTex
|
2009-10-22
|
R-HSA-444100
|
PROT mediates L-proline uptake
|
BibTex
|
2009-10-22
|
R-HSA-444120
|
SLC6A5,9 cotransport Gly, Cl-, Na+ from extracellular region to cytosol
|
BibTex
|
2009-10-20
|
R-HSA-444007
|
GAT1-3 mediate Na+/Cl- dependent GABA transport
|
BibTex
|
2009-10-20
|
R-HSA-443997
|
SLC6A2 cotransports NAd, Na+ from extracellular region to cytosol
|
BibTex
|
2009-10-20
|
R-HSA-444008
|
SLC6A4 co-transports 5HT, Cl-, Na+ from extracellular region to cytosol
|
BibTex
|
2009-09-29
|
R-HSA-442661
|
SLC41A1,2 transport Mg2+ from extracellular region to cytosol
|
BibTex
|
2009-09-25
|
R-RNO-442359
|
rZip10 mediates zinc influx into cells
|
BibTex
|
2009-09-25
|
R-HSA-442345
|
hZIP10 mediates zinc influx into cells
|
BibTex
|
2009-09-25
|
R-HSA-442393
|
ZIP7 mediates zinc efflux from the endoplasmic reticulum
|
BibTex
|
2009-09-25
|
R-HSA-442317
|
ZIP6 and ZIP14 mediate zinc influx into cells
|
BibTex
|
2009-09-25
|
R-HSA-442387
|
ZIP8 mediates zinc influx into cells
|
BibTex
|
2009-09-25
|
R-MMU-442319
|
mZIP5 mediates zinc uptake by cells
|
BibTex
|
2009-09-25
|
R-HSA-442405
|
hZIP5 mediates zinc uptake by cells
|
BibTex
|
2009-09-25
|
R-HSA-442368
|
SLC40A1:HEPH:6Cu2+ transports Fe2+ from cytosol to extracellular region
|
BibTex
|
2009-09-25
|
R-HSA-904830
|
SLC40A1:CP:6Cu2+ transports Fe2+ from cytosol to extracellular region
|
BibTex
|
2009-09-25
|
R-HSA-442422
|
SLC39A1-4 transports Zn2+ from extracellular region to cytosol
|
BibTex
|
2009-09-14
|
R-HSA-437300
|
SLC31A1 transports Cu2+ from extracellular region to cytosol
|
BibTex
|
2009-09-11
|
R-HSA-437136
|
SLC30A8 transports Zn2+ from cytosol to secretory granule
|
BibTex
|
2009-09-11
|
R-HSA-437139
|
ZnT8 transports zinc into the Golgi apparatus
|
BibTex
|
2009-09-11
|
R-RNO-437094
|
Znt2 facilitates zinc vesicular sequestration
|
BibTex
|
2009-09-11
|
R-HSA-437085
|
ZnT5 transports zinc into secretory granules in pancreatic beta cells
|
BibTex
|
2009-09-11
|
R-MMU-437092
|
Znt3 transports zinc into synaptic vesicles
|
BibTex
|
2009-09-11
|
R-HSA-437084
|
ZnT3 transports zinc into synaptic vesicles
|
BibTex
|
2009-09-09
|
R-HSA-435375
|
ZnT2 facilitates zinc vesicular sequestration
|
BibTex
|
2009-09-09
|
R-HSA-435366
|
ZnT1 mediates the efflux of zinc from the cell
|
BibTex
|
2009-09-09
|
R-HSA-435349
|
SLC11A2 cotransports Fe2+, H+ from extracellular region to cytosol
|
BibTex
|
2009-09-07
|
R-HSA-435171
|
NRAMP1 transports divalent metal ions across phagosomal membranes of macrophages
|
BibTex
|
2009-09-02
|
R-HSA-434650
|
MATEs mediate extrusion of xenobiotics
|
BibTex
|
2009-08-25
|
R-HSA-433698
|
SLC16A3,7,8 cotransport monocarboxylates, H+ from extracellular region to cytosol
|
BibTex
|
2009-08-25
|
R-HSA-9645220
|
SLC16A1:BSG cotransports monocarboxylates, H+ from extracellular region to cytosol
|
BibTex
|
2009-08-21
|
R-HSA-433131
|
NaDC1 co-transports dicarboxylic acids and a sodium ion
|
BibTex
|
2009-08-21
|
R-HSA-433099
|
NaS2 co-transports sulphate and two sodium ions
|
BibTex
|
2009-08-21
|
R-HSA-433114
|
NaS1 co-transports sulphate and a sodium ion
|
BibTex
|
2009-08-21
|
R-HSA-433101
|
NaDC3 co-transports the dicarboxylic acid succinate and three sodium ion
|
BibTex
|
2009-08-21
|
R-HSA-433089
|
SOAT can transport taurolithocholate-3-sulphate
|
BibTex
|
2009-08-21
|
R-HSA-433104
|
NACT co-transports trivalent citrate and a sodium ion
|
BibTex
|
2009-07-21
|
R-HSA-429749
|
SLC5A8 transports monocarboxylates from extracellular region to cytosol
|
BibTex
|
2009-07-21
|
R-HSA-429767
|
Passive I- efflux mediated by SMCT1
|
BibTex
|
2009-07-17
|
R-HSA-429581
|
SLC5A6 transports vitamins from extracellular region to cytosol
|
BibTex
|
2009-07-17
|
R-HSA-429567
|
Co-transport (influx) of glucose/mannose and Na+ ions by SGLT4
|
BibTex
|
2009-07-17
|
R-HSA-429613
|
SLC5As, NAGLT1 cotransport Glc and Na+ from extracellular region to cytosol
|
BibTex
|
2009-07-17
|
R-HSA-429663
|
SLC5A3 (SMIT1) transports myo-inositol (Ins) with Na+ from extracellular region to cytosol
|
BibTex
|
2009-07-17
|
R-HSA-429594
|
SLC5A7 cotransports Cho, Cl-, Na+ from extracellular region to cytosol
|
BibTex
|
2009-07-17
|
R-HSA-429591
|
SLC5A5 cotransports Na+ with I- from extracellular region to cytosol
|
BibTex
|
2009-07-17
|
R-HSA-429571
|
Co-transport (influx) of myo-inositol/D-chiro-inositol and two Na+ ions by SGLT6
|
BibTex
|
2009-07-14
|
R-HSA-429036
|
SLC2A9 transports Fru, Glc, urate
|
BibTex
|
2009-07-14
|
R-HSA-429101
|
HMIT co-transports myo-inositol with a proton
|
BibTex
|
2009-07-14
|
R-HSA-429094
|
SLC2A6,8,10,12 transport Glc from extracellular region to cytosol
|
BibTex
|
2009-07-10
|
R-HSA-428779
|
GLUT7 and GLUT11 transport glucose and fructose
|
BibTex
|
2009-07-06
|
R-HSA-428625
|
Vesicular inhibitory amino acid transport
|
BibTex
|
2009-07-06
|
R-HSA-428609
|
Type I Na+-coupled phosphate co-transport
|
BibTex
|
2009-07-06
|
R-HSA-428585
|
SLC17A5 cotransports Neu5Ac, H+ from lysosomal lumen to cytosol
|
BibTex
|
2009-06-30
|
R-HSA-428052
|
SLC17A6,7,8 exchange cytosolic L-Glu for synaptic vesicle H+
|
BibTex
|
2009-06-30
|
R-HSA-428015
|
SLC1A1,2,3,6,7 cotransport L-Glu,L-Asp,D-Asp,H+,3Na+ from extracellular region to cytosol
|
BibTex
|
2009-06-30
|
R-HSA-428007
|
Proton-coupled histidine and di-peptide cotransport
|
BibTex
|
2009-06-30
|
R-HSA-427998
|
Proton-coupled di- and tri-peptide cotransport
|
BibTex
|
2009-06-23
|
R-HSA-427555
|
SLC26A1,2 cotransport SO4(2-), H+ from extracellular region to cytosol
|
BibTex
|
2009-06-23
|
R-HSA-427570
|
Group 3 - Selective Cl- transport
|
BibTex
|
2009-06-23
|
R-HSA-427666
|
SLC26A3,6 exchange Cl- for HCO3-
|
BibTex
|
2009-06-23
|
R-HSA-427605
|
SLC20A1,2 cotransport Pi, Na+ from extracellular region to cytosol
|
BibTex
|
2009-06-23
|
R-HSA-427645
|
SLC34A3 cotransports Pi, 2Na+
|
BibTex
|
2009-06-23
|
R-HSA-427656
|
SLC34A1,2 cotransports Pi, 3Na+ from extracellular region to cytosol
|
BibTex
|
2009-06-12
|
R-HSA-426155
|
SLC12A4,5,6,7 cotransport K+, Cl- from cytosol to extracellular region
|
BibTex
|
2009-06-12
|
R-HSA-426086
|
SLC12A1,2 cotransports Na+, K+, 2Cl- from extracellular region to cytosol
|
BibTex
|
2009-06-12
|
R-HSA-426130
|
SLC12A3 cotransports Cl-, Na+ from extracellular region to cytosol
|
BibTex
|
2009-06-11
|
R-HSA-425983
|
SLC9A6,7 exchange Na+ for H+ across the early endosome membrane
|
BibTex
|
2009-06-11
|
R-HSA-426015
|
Na+/H+ exchanger transport (at trans-golgi membrane)
|
BibTex
|
2009-06-11
|
R-HSA-425965
|
SLC9A9 exchanges Na+ for H+ across the late endosome membrane
|
BibTex
|
2009-06-11
|
R-HSA-425994
|
Na+/H+ exchanger transport (at cell membrane)
|
BibTex
|
2009-06-08
|
R-HSA-425822
|
K+-independent Li+/Ca2+ exchanger transport
|
BibTex
|
2009-06-05
|
R-HSA-425661
|
SLC8A1,2,3 exchange 3Na+ for Ca2+
|
BibTex
|
2009-06-05
|
R-HSA-425678
|
SLC24A1-4 exchange extracellular 4Na+ for cytosolic Ca2+, K+
|
BibTex
|
2009-06-05
|
R-HSA-425577
|
Na+-driven Cl-/HCO3- exchanger transport
|
BibTex
|
2009-06-04
|
R-HSA-425483
|
SLC4A5,7,9 cotransport Na+ with 3HCO3-
|
BibTex
|
2009-06-04
|
R-HSA-425482
|
SLC4A1,2,3 exchanges HCO3- for Cl-
|
BibTex
|
2009-05-14
|
R-HSA-8982640
|
G-alpha(t):G-beta-gamma:Opsins complex dissociates to active G-alpha(t)
|
BibTex
|
2009-05-14
|
R-HSA-420883
|
Opsins act as GEFs for G alpha-t
|
BibTex
|
2009-05-14
|
R-HSA-8982637
|
Opsins binds G alpha-t
|
BibTex
|
2009-05-13
|
R-HSA-420739
|
GPRC6A can bind L-alpha amino acids and calcium
|
BibTex
|
2009-05-13
|
R-HSA-420688
|
GABAB heterodimeric receptor binds GABA
|
BibTex
|
2009-05-13
|
R-HSA-420724
|
CASR binds Ca2+
|
BibTex
|
2009-05-12
|
R-HSA-420489
|
Parathyroid hormone receptor can bind parathyroid hormone
|
BibTex
|
2009-05-11
|
R-HSA-420274
|
GIP receptor binds gastric inhibitory peptide
|
BibTex
|
2009-05-11
|
R-HSA-420214
|
The adrenomedullin receptor can bind adrenomedullin and intermedin
|
BibTex
|
2009-05-11
|
R-HSA-420265
|
AMY1-3 bind IAPP(34-70)
|
BibTex
|
2009-05-11
|
R-HSA-420202
|
Secretin receptor binds secretin
|
BibTex
|
2009-05-11
|
R-HSA-420131
|
The PACAP receptor binds PACAP
|
BibTex
|
2009-05-11
|
R-HSA-420123
|
Glucagon-like receptor 2 binds GLP2
|
BibTex
|
2009-05-11
|
R-HSA-420127
|
CGRP receptor can bind calcitonin gene-related peptides
|
BibTex
|
2009-05-11
|
R-HSA-420243
|
GHRH receptor binds GHRH
|
BibTex
|
2009-05-11
|
R-HSA-420233
|
VIP receptors bind VIP
|
BibTex
|
2009-05-11
|
R-HSA-420173
|
CRHR1,CRHR2-1 binds CRH,UCN
|
BibTex
|
2009-05-07
|
R-HSA-419841
|
Light stimulates opsin receptors
|
BibTex
|
2009-05-07
|
R-HSA-419861
|
Melanospin is stimulated by light
|
BibTex
|
2009-05-07
|
R-HSA-419843
|
CALCA(83-119) binds CALCR
|
BibTex
|
2009-04-30
|
R-HSA-419389
|
LPA-binding receptors bind LPA
|
BibTex
|
2009-04-30
|
R-HSA-419428
|
S1PR2-5 bind S1P
|
BibTex
|
2009-04-30
|
R-HSA-9690449
|
S1PR1 bind S1P
|
BibTex
|
2009-04-30
|
R-HSA-419351
|
PAF receptor binds platelet activating factor
|
BibTex
|
2009-04-30
|
R-HSA-419334
|
Melatonin receptors can bind melatonin
|
BibTex
|
2009-04-30
|
R-HSA-419426
|
Cannabinoid receptors can bind cannabinoids
|
BibTex
|
2009-04-27
|
R-HSA-418918
|
The UDP/CysLT (P2Y17) receptor can bind UTP
|
BibTex
|
2009-04-27
|
R-HSA-418904
|
A1 and A3 receptors bind adenosine
|
BibTex
|
2009-04-27
|
R-HSA-418925
|
ADORA2A,B bind Ade-Rib
|
BibTex
|
2009-04-14
|
R-HSA-417825
|
P2Y11 receptor can bind to ATP
|
BibTex
|
2009-04-14
|
R-HSA-417842
|
P2Y10 receptor can bind to LPA
|
BibTex
|
2009-04-14
|
R-HSA-417896
|
P2Y6 receptor can bind to UDP
|
BibTex
|
2009-04-14
|
R-HSA-417890
|
P2Y5 receptor can bind to LPA
|
BibTex
|
2009-04-14
|
R-HSA-417820
|
P2Y9 receptor can bind to LPA
|
BibTex
|
2009-04-14
|
R-HSA-417927
|
P2Y2 receptor binds ATP and UTP
|
BibTex
|
2009-04-14
|
R-HSA-417908
|
P2RY1 binds ADP
|
BibTex
|
2009-04-14
|
R-HSA-417898
|
P2Y4 receptor can bind to UTP
|
BibTex
|
2009-04-14
|
R-HSA-417858
|
P2Y14 receptor can bind to UDP-glucose
|
BibTex
|
2009-04-14
|
R-HSA-417843
|
P2Y13 binds ADP
|
BibTex
|
2009-04-14
|
R-HSA-417829
|
P2RY12 binds ADP
|
BibTex
|
2009-04-02
|
R-HSA-391934
|
DP2 receptor can bind PGD2
|
BibTex
|
2009-04-02
|
R-HSA-391935
|
DP1 receptor can bind PGD2
|
BibTex
|
2009-04-02
|
R-HSA-391933
|
EP3 receptor can bind PGE2
|
BibTex
|
2009-04-02
|
R-HSA-416929
|
PTGFR binds PGF2a
|
BibTex
|
2009-04-02
|
R-HSA-391936
|
EP1 receptor can bind PGE2
|
BibTex
|
2009-04-02
|
R-HSA-391939
|
TP receptor can bind thromboxane
|
BibTex
|
2009-04-02
|
R-HSA-391942
|
IP receptor can bind prostacyclin
|
BibTex
|
2009-04-02
|
R-HSA-391940
|
EP2 and EP4 receptors can bind PGE2
|
BibTex
|
2009-03-26
|
R-HSA-391937
|
UDP/CysLT receptor can bind cysteinyl leukotrienes
|
BibTex
|
2009-03-26
|
R-HSA-9690439
|
CYSLTR1 binds LTC4,LTD4,LTE4
|
BibTex
|
2009-03-26
|
R-HSA-391943
|
CYSLT2 binds LTC4,LTD4,LTE4
|
BibTex
|
2009-03-26
|
R-HSA-391941
|
BLT receptors can bind LTB4
|
BibTex
|
2009-03-26
|
R-HSA-391905
|
Oxoeicosanoid receptor can bind oxoeicosanoid
|
BibTex
|
2009-03-26
|
R-HSA-391913
|
FPR2 binds FPR2 ligands
|
BibTex
|
2009-03-02
|
R-HSA-392263
|
AVP(20-28) binds AVPR2
|
BibTex
|
2009-02-23
|
R-HSA-9724290
|
GNRHR2 binds GNRH1,2
|
BibTex
|
2009-02-23
|
R-HSA-391378
|
Follicle-stimulating hormone receptor can bind FSH
|
BibTex
|
2009-02-23
|
R-HSA-391377
|
Luteinizing hormone receptor can bind LH
|
BibTex
|
2009-02-23
|
R-HSA-391375
|
Thyroid-stimulating hormone receptor can bind TSH, Thyrostimulin
|
BibTex
|
2009-02-23
|
R-HSA-391372
|
GNRHR binds GNRH1,2
|
BibTex
|
2009-02-13
|
R-HSA-391211
|
Trace amine-associated receptors can bind trace amines
|
BibTex
|
2009-02-13
|
R-HSA-379044
|
Liganded Gs-activating GPCR acts as a GEF for Gs
|
BibTex
|
2009-02-12
|
R-HSA-9693347
|
HTR1A binds 5HT
|
BibTex
|
2009-02-12
|
R-HSA-390931
|
5-HT4, 6 and 7 receptors can bind serotonin
|
BibTex
|
2009-02-12
|
R-HSA-390930
|
5-HT2 receptor can bind serotonin
|
BibTex
|
2009-02-12
|
R-HSA-390929
|
HTR1 and 5A receptors can bind serotonin
|
BibTex
|
2009-02-11
|
R-HSA-9692880
|
HRH3 binds Hist
|
BibTex
|
2009-02-11
|
R-HSA-390886
|
HRH4 binds Hist
|
BibTex
|
2009-02-11
|
R-HSA-390912
|
HRH1 binds hist
|
BibTex
|
2009-02-11
|
R-HSA-390909
|
HRH2 binds hist
|
BibTex
|
2009-02-10
|
R-HSA-9656244
|
DRD2 binds DA
|
BibTex
|
2009-02-10
|
R-HSA-9611852
|
ADRB3 bind ADR,NAd
|
BibTex
|
2009-02-10
|
R-HSA-9611851
|
ADRB2 bind ADR,NAd
|
BibTex
|
2009-02-10
|
R-HSA-390835
|
DRD1,5 bind DA
|
BibTex
|
2009-02-10
|
R-HSA-390674
|
ADRB1 bind ADR,NAd
|
BibTex
|
2009-02-10
|
R-HSA-390663
|
ADRA2A,B,C bind ADR,NAd
|
BibTex
|
2009-02-10
|
R-HSA-390649
|
CHRM1,3,5 bind acetylcholine
|
BibTex
|
2009-02-10
|
R-HSA-390641
|
ADRA1A,B,D bind ADR,NAd
|
BibTex
|
2009-02-10
|
R-HSA-390673
|
CHRM2,4 bind acetylcholine
|
BibTex
|
2009-02-10
|
R-HSA-390846
|
D2D3,4 bind to DA
|
BibTex
|
2009-01-07
|
R-HSA-389463
|
Proteinase-activated receptors can bind thrombin
|
BibTex
|
2009-01-07
|
R-HSA-389481
|
Orexin 1 receptor can bind orexin-A neuropeptide
|
BibTex
|
2009-01-07
|
R-HSA-389487
|
Orexin 2 receptor can bind orexin-B neuropeptide
|
BibTex
|
2009-01-07
|
R-HSA-389491
|
Two NPFF receptors can bind neuropeptide FF
|
BibTex
|
2009-01-07
|
R-HSA-389424
|
The orphan QRFP receptor can bind neuropeptide QRFP
|
BibTex
|
2008-12-18
|
R-HSA-388981
|
The Kiss receptor GPR54 binds kisspeptin
|
BibTex
|
2008-12-18
|
R-HSA-389026
|
Galanin receptors can bind galanin
|
BibTex
|
2008-12-17
|
R-HSA-388900
|
Neurotensin receptors can bind neurotensins
|
BibTex
|
2008-12-17
|
R-HSA-388855
|
Prolactin-releasing hormone receptor binds PRH
|
BibTex
|
2008-12-17
|
R-HSA-388863
|
Neuropeptide Y receptors can bind neuropeptide Y-related peptides
|
BibTex
|
2008-12-16
|
R-HSA-388605
|
POMC(138-176) binds MC2R
|
BibTex
|
2008-12-16
|
R-HSA-388596
|
Melanocortin receptors bind melanocortins
|
BibTex
|
2008-12-12
|
R-HSA-388560
|
EDNRA,EDNRB bind EDNs
|
BibTex
|
2008-12-12
|
R-HSA-9731924
|
EDNRA binds EDNs
|
BibTex
|
2008-12-12
|
R-HSA-388529
|
Cholecystokinin receptors bind cholecystokinin
|
BibTex
|
2008-12-12
|
R-HSA-388503
|
Oxytocin receptor bind oxytocin
|
BibTex
|
2008-12-12
|
R-HSA-388468
|
AVP(20-28) binds AVPR1A,B
|
BibTex
|
2008-11-24
|
R-HSA-380076
|
Tachykinin receptor 1 (NK1) binds to substance P
|
BibTex
|
2008-11-24
|
R-HSA-383373
|
Tachykinin receptor 3 (NK3) binds to neurokinin B
|
BibTex
|
2008-11-24
|
R-HSA-383363
|
Tachykinin receptor 2 (NK2) binds to nuerokinin A
|
BibTex
|
2008-11-24
|
R-HSA-186778
|
SHP2 binds to the active receptor
|
BibTex
|
2008-11-24
|
R-HSA-186826
|
GRB2:SOS1 complex binds to the active receptor
|
BibTex
|
2008-11-24
|
R-HSA-186786
|
Autophosphorylation of PDGF beta receptors
|
BibTex
|
2008-11-24
|
R-HSA-186773
|
PDGF dimer binds two receptors simultaneously
|
BibTex
|
2008-11-24
|
R-HSA-186785
|
PDGF-AA clevage by Furin
|
BibTex
|
2008-11-24
|
R-HSA-382053
|
Translocation of PDGF from ER to Golgi
|
BibTex
|
2008-11-24
|
R-HSA-8865276
|
PDGF-AB clevage by Furin
|
BibTex
|
2008-11-24
|
R-HSA-8865275
|
PDGF-BB clevage by Furin
|
BibTex
|
2008-11-24
|
R-HSA-389086
|
Autophosphorylation of PDGF alpha/beta receptors
|
BibTex
|
2008-11-24
|
R-HSA-389083
|
Autophosphorylation of PDGF alpha receptors
|
BibTex
|
2008-11-24
|
R-HSA-186780
|
PI3-kinase binds to the active receptor
|
BibTex
|
2008-11-24
|
R-HSA-382054
|
PDGF binds to extracellular matrix proteins
|
BibTex
|
2008-11-24
|
R-HSA-382057
|
Release of novel PDGFs as latent factors
|
BibTex
|
2008-11-24
|
R-HSA-382061
|
Extracellular processing of novel PDGFs
|
BibTex
|
2008-11-24
|
R-HSA-382056
|
Crk binds to the active PDGF receptor
|
BibTex
|
2008-11-24
|
R-HSA-186834
|
SOS-mediated nucleotide exchange on RAS (PDGF receptor:GRB2:SOS)
|
BibTex
|
2008-11-24
|
R-HSA-186819
|
SH2 domain of Src binds to the active receptor
|
BibTex
|
2008-11-24
|
R-HSA-380780
|
Activation of Src
|
BibTex
|
2008-11-24
|
R-HSA-380782
|
STAT binds to the active receptor
|
BibTex
|
2008-11-24
|
R-HSA-186765
|
PLC-gamma binds to the active receptor
|
BibTex
|
2008-11-24
|
R-HSA-382058
|
Nck binds to the active PDGF receptor
|
BibTex
|
2008-11-24
|
R-HSA-186800
|
PI3K catalyses the phosphorylation of PIP2 to PIP3
|
BibTex
|
2008-11-24
|
R-HSA-382052
|
p130Cas and C3G bind PDGFR bound Crk
|
BibTex
|
2008-11-24
|
R-HSA-382055
|
Grb7 binds to the active PDGF receptor
|
BibTex
|
2008-11-24
|
R-HSA-186798
|
GAP binds to PDGF-beta receptors only
|
BibTex
|
2008-11-07
|
R-HSA-380073
|
Liganded Gi-activating GPCR acts as a GEF for Gi
|
BibTex
|
2008-11-07
|
R-HSA-379048
|
Liganded Gq/11-activating GPCRs act as GEFs for Gq/11
|
BibTex
|
2008-10-01
|
R-HSA-378952
|
Thyrotropin is a heterodimer
|
BibTex
|
2008-10-01
|
R-HSA-378975
|
Follitropin is a heterodimer
|
BibTex
|
2008-10-01
|
R-HSA-265301
|
Corticotropin cleavage from POMC
|
BibTex
|
2008-10-01
|
R-HSA-265295
|
Prostaglandin E synthase isomerizes PGH2 to PGE2
|
BibTex
|
2008-10-01
|
R-HSA-76500
|
TBXAS1 isomerises PGH2 to TXA2
|
BibTex
|
2008-10-01
|
R-HSA-266072
|
LTA4 is hydolysed to LTB4 by LTA4H
|
BibTex
|
2008-10-01
|
R-HSA-193965
|
CYP11B2 oxidises 18HCORST to ALDO
|
BibTex
|
2008-10-01
|
R-HSA-193995
|
CYP11B2 18-hydroxylates CORST to 18HCORST
|
BibTex
|
2008-10-01
|
R-HSA-193964
|
CYP21A2 21-hydroxylates PROG
|
BibTex
|
2008-10-01
|
R-HSA-193996
|
11DCORST translocates from cytosol to mitochondrial matrix
|
BibTex
|
2008-10-01
|
R-HSA-194017
|
CYP11B2 oxidises 11DCORST to CORST
|
BibTex
|
2008-10-01
|
R-HSA-193060
|
CYP19A1 hydroxylates ANDST to E1
|
BibTex
|
2008-10-01
|
R-HSA-193143
|
CYP19A1 hydroxylates TEST to EST17b
|
BibTex
|
2008-10-01
|
R-HSA-193961
|
Pregn-5-ene-3,20-dione-17-ol isomerizes to 17-hydroxyprogesterone
|
BibTex
|
2008-10-01
|
R-HSA-193981
|
CYP21A2 oxidises 17HPROG
|
BibTex
|
2008-10-01
|
R-HSA-194025
|
11-deoxycortisol translocates to the mitochondrion
|
BibTex
|
2008-10-01
|
R-HSA-193997
|
CYP11B1 oxidises 11DCORT
|
BibTex
|
2008-10-01
|
R-HSA-194036
|
Cortisol translocates from the mitochondrial matrix to the cytosol
|
BibTex
|
2008-10-01
|
R-HSA-196372
|
17-Hydroxypregnenolone is dehydrogenated to form pregn-5-ene-3,20-dione-17-ol
|
BibTex
|
2008-10-01
|
R-HSA-194023
|
HSD11B2,HSD11B1 dimer oxidise CORT to COR
|
BibTex
|
2008-10-01
|
R-HSA-265296
|
Arachidonic acid is oxidised to 5S-HpETE by ALOX5
|
BibTex
|
2008-10-01
|
R-HSA-266051
|
5S-HpETE is dehydrated to LTA4 by ALOX5
|
BibTex
|
2008-10-01
|
R-HSA-266050
|
LTA4 is converted to LTC4 by LTC4S
|
BibTex
|
2008-10-01
|
R-HSA-266070
|
LTC4 is exported from the cytosol by ABCC1
|
BibTex
|
2008-10-01
|
R-HSA-266046
|
GGT1, 5 dimers hydrolyse LTC4 to LTD4
|
BibTex
|
2008-10-01
|
R-HSA-266012
|
LTD4 is converted to LTE4 by DPEP1/2
|
BibTex
|
2008-10-01
|
R-HSA-196350
|
Pregnenolone is dehydrogenated to form pregn-5-ene-3,20-dione
|
BibTex
|
2008-10-01
|
R-HSA-193052
|
Pregn-5-ene-3,20-dione isomerizes to progesterone
|
BibTex
|
2008-10-01
|
R-HSA-193072
|
CYP17A1 17-hydroxylates P4 to 17aHPROG
|
BibTex
|
2008-10-01
|
R-HSA-193099
|
CYP17A1 cleaves 17aHPROG to ANDST
|
BibTex
|
2008-10-01
|
R-HSA-193064
|
HSD17B3-like proteins reducde ANDST to TEST
|
BibTex
|
2008-10-01
|
R-HSA-196126
|
CHOL translocates from cytosol to mitochondrial intermembrane space
|
BibTex
|
2008-10-01
|
R-HSA-196086
|
Cholesterol translocates from mitochondrial intermembrane space to inner mitochondrial membrane
|
BibTex
|
2008-10-01
|
R-HSA-193054
|
Oxidation of cholesterol to 22beta-hydroxycholesterol
|
BibTex
|
2008-10-01
|
R-HSA-193065
|
Oxidation of 22beta-hydroxycholesterol to 20alpha,22beta-hydroxycholesterol
|
BibTex
|
2008-10-01
|
R-HSA-193101
|
CYP11A1 cleaves 20a,22b-DHCHOL
|
BibTex
|
2008-10-01
|
R-HSA-193097
|
Pregnenolone translocates from the mitochondrial matrix to the cytosol
|
BibTex
|
2008-10-01
|
R-HSA-193068
|
CYP17A1 17-hydroxylates PREG
|
BibTex
|
2008-10-01
|
R-HSA-193070
|
CYP17A1 cleaves 17aHPREG to DHA
|
BibTex
|
2008-10-01
|
R-HSA-193073
|
HSD2B1 dimer, HSD3B2 dimer isomerise DHA to ANDST
|
BibTex
|
2008-10-01
|
R-HSA-378978
|
CGA and CGB3 bind to form Human chorionic gonadotropin (hCG)
|
BibTex
|
2008-10-01
|
R-HSA-378956
|
Luteinizing hormone is a heterodimer
|
BibTex
|
2008-10-01
|
R-HSA-209821
|
Methylation of N-acetyl-5-HT to form melatonin
|
BibTex
|
2008-10-01
|
R-HSA-209792
|
N-acetylation of serotonin
|
BibTex
|
2008-10-01
|
R-HSA-209925
|
DIT and MIT combine to form triiodothyronine
|
BibTex
|
2008-10-01
|
R-HSA-209828
|
Tryptophan is hydroxylated
|
BibTex
|
2008-10-01
|
R-HSA-209823
|
Tyrosine is hydroxylated to dopa
|
BibTex
|
2008-10-01
|
R-HSA-209868
|
CYP27B1 hydroxylates 25(OH)D to 1,25(OH)2D
|
BibTex
|
2008-10-01
|
R-HSA-209766
|
25(OH)D translocates from lysosomal lumen to cytosol
|
BibTex
|
2008-10-01
|
R-HSA-350158
|
LGMN degrades GC
|
BibTex
|
2008-10-01
|
R-HSA-209760
|
Endocytic translocation of CUBN:GC:25(OH)D to lysosomal lumen
|
BibTex
|
2008-10-01
|
R-HSA-350168
|
LRP2-mediated uptake of extracellular CUBN:GC:25(OH)D
|
BibTex
|
2008-10-01
|
R-HSA-350186
|
CUBN binds GC:25(OH)D
|
BibTex
|
2008-10-01
|
R-HSA-209944
|
25(OH)D binds GC
|
BibTex
|
2008-10-01
|
R-HSA-209845
|
CYP2R1 25-hydroxylates VD3 to 25(OH)D
|
BibTex
|
2008-10-01
|
R-HSA-350147
|
VD3 translocates from extracellular region to ER membrane
|
BibTex
|
2008-10-01
|
R-HSA-209738
|
VD3 binds GC
|
BibTex
|
2008-10-01
|
R-HSA-209754
|
Photolytic cleavage and thermal isomerization of 7-dehydroCHOL
|
BibTex
|
2008-10-01
|
R-HSA-209765
|
CYP24A1 hydroxylates 1,25(OH)2D, inactivating it
|
BibTex
|
2008-10-01
|
R-HSA-76496
|
PTGIS, CYP8A1 isomerise PGH2 to PGI2
|
BibTex
|
2008-10-01
|
R-HSA-140359
|
PGG2 is reduced to PGH2 by PTGS1
|
BibTex
|
2008-10-01
|
R-HSA-140355
|
Arachidonic acid is oxidised to PGG2 by PTGS1
|
BibTex
|
2008-10-01
|
R-HSA-2309773
|
PGG2 is reduced to PGH2 by PTGS2
|
BibTex
|
2008-10-01
|
R-HSA-2309787
|
Arachidonic acid is oxidised to PGG2 by PTGS2
|
BibTex
|
2008-10-01
|
R-HSA-209891
|
Dopamine is oxidised to noradrenaline
|
BibTex
|
2008-10-01
|
R-HSA-351596
|
Dopamine translocates to a secretory vesicle
|
BibTex
|
2008-10-01
|
R-HSA-351604
|
Noradrenaline translocates to the cytosol
|
BibTex
|
2008-10-01
|
R-HSA-209903
|
Noradrenaline is converted to adrenaline
|
BibTex
|
2008-10-01
|
R-HSA-350901
|
Iodide is organified
|
BibTex
|
2008-10-01
|
R-HSA-209921
|
Monoiodinated tyrosine can be deiodinated
|
BibTex
|
2008-10-01
|
R-HSA-209815
|
Tyrosine is monoiodinated
|
BibTex
|
2008-10-01
|
R-HSA-209840
|
Two DITs combine to form thyroxine
|
BibTex
|
2008-10-01
|
R-HSA-209973
|
Tyrosine is diiodinated
|
BibTex
|
2008-10-01
|
R-HSA-209960
|
Diiodinated tyrosine can be deiodinated
|
BibTex
|
2008-10-01
|
R-HSA-209910
|
Iodide is taken up by thyroid epithelial cells
|
BibTex
|
2008-10-01
|
R-HSA-350869
|
Thyroxine is deiodinated to reverse triiodothyronine (RT3)
|
BibTex
|
2008-10-01
|
R-HSA-209772
|
Thyroxine is deiodinated to triiodothyronine
|
BibTex
|
2008-08-21
|
R-HSA-374251
|
DARC is a non-specific receptor for many chemokines
|
BibTex
|
2008-08-21
|
R-HSA-373339
|
Receptor CXC1 binds to the ligands lymphotactin and cytokine SCM-1 beta
|
BibTex
|
2008-08-21
|
R-HSA-375384
|
Bombesin-like receptors bind bombesin homologues
|
BibTex
|
2008-08-21
|
R-HSA-374248
|
Receptor CXCR3 binds ligands CXCL9 to 11
|
BibTex
|
2008-08-21
|
R-HSA-373358
|
Receptor CXCR6 binds CXCL16 ligand
|
BibTex
|
2008-08-21
|
R-HSA-375395
|
C5a receptor binds C5a anaphylatoxin
|
BibTex
|
2008-08-21
|
R-HSA-9615348
|
AGT(34-41) binds to AGTR2
|
BibTex
|
2008-08-21
|
R-HSA-374758
|
Somatostatin receptors bind somatostatin and cortistatin
|
BibTex
|
2008-08-21
|
R-HSA-373342
|
CX3CR1 binds CX3CL1
|
BibTex
|
2008-08-21
|
R-HSA-373086
|
Receptor CCR10 binds CCL27 and 28 ligands
|
BibTex
|
2008-08-21
|
R-HSA-373087
|
Receptor CCR6 binds CCL20 ligand
|
BibTex
|
2008-08-21
|
R-HSA-373074
|
Receptor CCR9 binds CCL25 ligand
|
BibTex
|
2008-08-21
|
R-HSA-373073
|
Receptors CCR1, 2 and 8 bind CCL16 ligand
|
BibTex
|
2008-08-21
|
R-HSA-373071
|
Receptor CCR7 binds CCL19 and 21 ligands
|
BibTex
|
2008-08-21
|
R-HSA-374723
|
Nociceptin receptor binds to nociceptin
|
BibTex
|
2008-08-21
|
R-HSA-374337
|
Apelin receptor binds to apelin
|
BibTex
|
2008-08-21
|
R-HSA-374214
|
Receptors CXCR4 and 7 bind CXCL12 ligand
|
BibTex
|
2008-08-21
|
R-HSA-373061
|
Receptors CCR3, 4 and 5 bind CCL5 ligand
|
BibTex
|
2008-08-21
|
R-HSA-374331
|
Bradykinin receptors B1 and B2 bind to bradykinin
|
BibTex
|
2008-08-21
|
R-HSA-374207
|
G protein-coupled estrogen receptor 1 binds estrogen non-classically
|
BibTex
|
2008-08-21
|
R-HSA-373813
|
Receptor CXCR2 binds ligands CXCL1 to 7
|
BibTex
|
2008-08-21
|
R-HSA-374298
|
Opioid receptors bind opioid peptides
|
BibTex
|
2008-08-21
|
R-HSA-373791
|
Receptor CXCR1 binds CXCL6 and CXCL8 ligands
|
BibTex
|
2008-08-21
|
R-HSA-374173
|
AGT(34-41) binds to AGTR1
|
BibTex
|
2008-08-21
|
R-HSA-374787
|
GPCR neuropeptide receptor binds neuropeptides B and W
|
BibTex
|
2008-07-14
|
R-HSA-373075
|
Metabotropic glutamate receptors bind glutamate
|
BibTex
|
2008-05-19
|
R-HSA-211950
|
CYP24A1 24-hydroxylates CTL
|
BibTex
|
2008-05-19
|
R-HSA-212007
|
CYP26A1,B1 4-hydroxylate atRA
|
BibTex
|
2008-05-19
|
R-HSA-211966
|
CYP2D6 4-hydroxylates debrisoquine
|
BibTex
|
2008-05-19
|
R-HSA-143468
|
MEOS oxidizes ethanol to acetaldehyde
|
BibTex
|
2008-05-19
|
R-HSA-76475
|
Dehalogenation of the poly-halogenated hydrocarbon Halothane to form the acylhalide Trifluoroacetlychloride and hydrogen bromide
|
BibTex
|
2008-05-19
|
R-HSA-76354
|
Vinyl chloride is oxidized to 2-Chloroethylene oxide
|
BibTex
|
2008-05-19
|
R-HSA-76434
|
Dehalogenation of carbon tetrachloride to form a free radical
|
BibTex
|
2008-05-19
|
R-HSA-76416
|
Benzene is hydroxylated to phenol
|
BibTex
|
2008-05-19
|
R-HSA-211929
|
CYP2C19 5-hydroxylates omeprazole
|
BibTex
|
2008-05-19
|
R-HSA-211988
|
CYP2C9 inactivates tolbutamide by 4methyl-hydroxylation
|
BibTex
|
2008-05-19
|
R-HSA-76426
|
N-atom dealkylation of caffeine
|
BibTex
|
2008-05-19
|
R-HSA-213175
|
CYP3A4,5 oxidise AFB1 to AFXBO
|
BibTex
|
2008-05-19
|
R-HSA-211991
|
Cyclophosphamide is 4-hydroxylated by CYP2B6
|
BibTex
|
2008-05-19
|
R-HSA-211948
|
CYP3A4 can N-demethylate loperamide
|
BibTex
|
2008-05-19
|
R-HSA-211881
|
Coumarin is 7-hydroxylated by CYP2A13
|
BibTex
|
2008-05-19
|
R-HSA-211882
|
CYP3A7 can 6beta-hydroxylate testosterone
|
BibTex
|
2008-05-19
|
R-HSA-212004
|
CYP2C18 initiates bioactivation of phenytoin by 4-hydroxylation
|
BibTex
|
2008-05-19
|
R-HSA-212005
|
CYP2F1 dehydrogenates 3-methylindole
|
BibTex
|
2008-05-19
|
R-HSA-211910
|
CYP2C8 inactivates paclitaxel by 6alpha-hydroxylation
|
BibTex
|
2008-05-19
|
R-HSA-76453
|
Coumarin is 7-hydroxylated by CYP2A6
|
BibTex
|
2008-05-19
|
R-HSA-211983
|
CYP2J2 oxidises ARA
|
BibTex
|
2008-05-19
|
R-HSA-211924
|
CYP4B1 12-hydroxylates ARA
|
BibTex
|
2008-05-19
|
R-HSA-211904
|
CYP4F12 18-hydroxylates ARA
|
BibTex
|
2008-05-19
|
R-HSA-76466
|
CYP4A11 12-hydroxylates DDCX
|
BibTex
|
2008-05-19
|
R-HSA-192123
|
CYP27A1 27-hydroxylates CHOL
|
BibTex
|
2008-05-19
|
R-HSA-192157
|
CYP8B1 12-hydroxylates 4CHOL7aOLONE
|
BibTex
|
2008-05-19
|
R-HSA-193709
|
CYP8B1 12-hydroxylates 4CHOL7a,24(S)DIOL
|
BibTex
|
2008-05-19
|
R-HSA-193845
|
CYP8B1 12-hydroxylates 4CHOL7a,27DONE
|
BibTex
|
2008-05-19
|
R-HSA-192051
|
CYP7A1 7-hydroxylates CHOL
|
BibTex
|
2008-05-19
|
R-HSA-192061
|
CYP46A1 24-hydroxylates CHOL
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BibTex
|
2008-05-19
|
R-HSA-192178
|
CYP39A1 7-hydroxylates 24OH-CHOL
|
BibTex
|
2008-05-19
|
R-HSA-211951
|
CYP1B1 4-hydroxylates EST17b
|
BibTex
|
2008-05-19
|
R-HSA-192065
|
CYP7B1 7-hydroxylates 25OH-CHOL
|
BibTex
|
2008-05-19
|
R-HSA-211919
|
CYP4F8 19-hydroxylates PGH2
|
BibTex
|
2008-05-19
|
R-HSA-215526
|
CYP4F3 20-hydroxylates LTB4
|
BibTex
|
2008-05-19
|
R-HSA-211873
|
CYP4F2, 4F3 20-hydroxylate LTB4
|
BibTex
|
2008-05-19
|
R-HSA-211960
|
CYP2U1 19-hydroxylates ARA
|
BibTex
|
2008-05-19
|
R-HSA-211962
|
CYP4F11 16-hydroxylates 3OH-PALM
|
BibTex
|
2008-05-19
|
R-HSA-211959
|
CYP3A43 6b-hydroxylates TEST
|
BibTex
|
2008-05-19
|
R-HSA-211968
|
CYP2W1 oxidises INDOL
|
BibTex
|
2008-05-19
|
R-HSA-211874
|
CYP2S1 4-hydroxylates atRA
|
BibTex
|
2008-05-19
|
R-HSA-71723
|
acetaldehyde + NAD+ => acetate + NADH + H+ [mitochondrial]
|
BibTex
|
2008-05-19
|
R-HSA-217258
|
FMO2:FAD:Mg2+ S-oxidises MTZ
|
BibTex
|
2008-05-19
|
R-HSA-194678
|
CYP51A1 demethylates LNSOL
|
BibTex
|
2008-05-19
|
R-HSA-71735
|
acetate + CoA + ATP => acetyl-CoA + AMP + pyrophosphate [cytosolic]
|
BibTex
|
2008-05-19
|
R-HSA-71691
|
acetaldehyde + NAD+ => acetate + NADH + H+ [cytosolic]
|
BibTex
|
2008-05-19
|
R-HSA-71707
|
ethanol + NAD+ => acetaldehyde + NADH + H+
|
BibTex
|
2008-05-19
|
R-HSA-76472
|
Ethylene is oxidized to Ethylene oxide by CYP1A1
|
BibTex
|
2008-05-19
|
R-HSA-76397
|
Acetaminophen oxidised to N-acetylbenzoquinoneimine (NAPQI)
|
BibTex
|
2008-05-19
|
R-HSA-76373
|
N-hydroxylation of 4-aminobiphenyl
|
BibTex
|
2008-05-19
|
R-HSA-141202
|
MAOB:FAD oxidatively deaminates TYR
|
BibTex
|
2008-05-19
|
R-HSA-141186
|
MAOA:FAD oxidatively deaminates of 5HT
|
BibTex
|
2008-05-19
|
R-HSA-141200
|
MAOB:FAD oxidatively deaminates of PEA
|
BibTex
|
2008-05-19
|
R-HSA-139970
|
FMO3:FAD N-oxidises TMA to TMAO
|
BibTex
|
2008-05-19
|
R-HSA-217255
|
FMO1:FAD N-oxidises TAM
|
BibTex
|
2008-02-13
|
R-HSA-212706
|
Phospholipase C-gamma1 binds to the activated EGF receptor
|
BibTex
|
2008-02-13
|
R-HSA-212710
|
EGFR activates PLC-gamma1 by phosphorylation
|
BibTex
|
2008-02-13
|
R-HSA-212713
|
Active PLC-gamma1 dissociates from EGFR
|
BibTex
|
2008-01-07
|
R-RNO-209770
|
Photolytic cleavage and thermal isomerization of 7-dehydrocholesterol
|
BibTex
|
2007-08-21
|
R-HSA-201515
|
Active ALK recruits PI3K
|
BibTex
|
2007-08-21
|
R-HSA-201510
|
PI3K synthesizes PIP3 downstream of ALK
|
BibTex
|
2007-08-21
|
R-HSA-201519
|
ALK:PTN dimerization
|
BibTex
|
2007-08-21
|
R-HSA-201521
|
ALK autophosphorylation
|
BibTex
|
2007-08-21
|
R-HSA-201486
|
ALK binds ligand pleiotrophin (PTN)
|
BibTex
|
2007-05-16
|
R-HSA-9709098
|
DHFR dimer reduces FOLA to DHF
|
BibTex
|
2007-05-16
|
R-HSA-197963
|
DHFR2 reduces FOLA to DHF
|
BibTex
|
2007-05-02
|
R-HSA-197186
|
NAPRT1 dimer transfers PRIB to NCA to form NAMN
|
BibTex
|
2007-05-02
|
R-HSA-197187
|
ACS transforms to QUIN non-enzymatically
|
BibTex
|
2007-05-02
|
R-HSA-197250
|
NAMPT transfers PRIB to NAM to form NAMN
|
BibTex
|
2007-05-02
|
R-HSA-197268
|
QPRT transfers PRIB to QUIN to form NAMN
|
BibTex
|
2007-05-02
|
R-HSA-197198
|
NADK:Zn2+ tetramer phosphorylates NAD+ to NADP+
|
BibTex
|
2007-05-02
|
R-HSA-197271
|
NADSYN1 hexamer amidates NAAD to NAD+
|
BibTex
|
2007-05-02
|
R-HSA-197235
|
NMNAT2 transfers an adenylyl group from ATP to NAMN to yield NAAD
|
BibTex
|
2007-04-24
|
R-HSA-196857
|
PANK2 phosphorylates PanK
|
BibTex
|
2007-04-24
|
R-HSA-196753
|
2xPPCS ligates PPanK with Cys
|
BibTex
|
2007-04-24
|
R-HSA-196840
|
3xPPCDC:3FMN decarboxylates PPC
|
BibTex
|
2007-04-24
|
R-HSA-196754
|
COASY transfers an adenylyl group from ATP to PPANT
|
BibTex
|
2007-04-24
|
R-HSA-3149519
|
MMACHC decyanates CNCbl
|
BibTex
|
2007-04-24
|
R-HSA-3149563
|
MMADHC targets transport of cytosolic cob(II)alamin to mitochondria
|
BibTex
|
2007-04-24
|
R-HSA-3149494
|
MMACHC:cob(II)alamin binds MMADHC
|
BibTex
|
2007-04-24
|
R-HSA-9759549
|
Cob(I)alamin bound to MMACHC is oxidized to cob(II)alamin
|
BibTex
|
2007-04-24
|
R-HSA-3095889
|
MMACHC dealkylates RCbl
|
BibTex
|
2007-04-24
|
R-HSA-3204318
|
cob(II)alamin is transferred from MMACHC:MMADHC:cob(II)alamin to MTRR:MTR
|
BibTex
|
2007-04-24
|
R-HSA-3159253
|
MMAB adenosylates cob(I)alamin
|
BibTex
|
2007-04-24
|
R-HSA-3159259
|
MMAA:MUT binds AdoCbl
|
BibTex
|
2007-04-24
|
R-HSA-174374
|
MTR transfers CH3 from MeCbl to HCYS
|
BibTex
|
2007-04-24
|
R-HSA-3149518
|
MTRR reduces cob(II)alamin to meCbl
|
BibTex
|
2007-04-24
|
R-HSA-3149539
|
MTR transfers CH3 group from 5-methyl-THF to cob(I)alamin
|
BibTex
|
2007-04-24
|
R-HSA-196773
|
COASY phosphorylates DP-CoA
|
BibTex
|
2007-01-31
|
R-HSA-192312
|
Choloyl CoA reacts with glycine or taurine to form glycocholate or taurocholate
|
BibTex
|
2007-01-31
|
R-HSA-193491
|
Chenodeoxycholoyl CoA reacts with glycine or taurine to form glycochenodeoxycholate or taurochenodeoxycholate
|
BibTex
|
2007-01-24
|
R-HSA-191366
|
Squalene 2,3-epoxide cyclizes, forming lanosterol
|
BibTex
|
2007-01-24
|
R-HSA-191322
|
FDPS dimer transfers IPPP to DMAPP
|
BibTex
|
2007-01-24
|
R-HSA-191303
|
FDPS dimer transfers IPPP to GPP
|
BibTex
|
2007-01-24
|
R-HSA-191323
|
HMGCS1 condenses Ac-CoA and ACA-CoA to form bHMG-CoA
|
BibTex
|
2007-01-24
|
R-HSA-191352
|
HMGCR dimer reduces bHMG-CoA to MVA
|
BibTex
|
2007-01-24
|
R-HSA-191380
|
Mevalonate is phosphorylated to mevalonate-5-phosphate
|
BibTex
|
2007-01-24
|
R-HSA-191422
|
Mevalonate-5-phosphate is further phosphorylated.
|
BibTex
|
2007-01-24
|
R-HSA-191414
|
MVD decarboxylates MVA5PP to IPPP
|
BibTex
|
2007-01-24
|
R-HSA-191382
|
Isopentenyl pyrophosphate rearranges to dimethylallyl pyrophosphate
|
BibTex
|
2007-01-24
|
R-HSA-9717834
|
GGPS1 hexamer transfers IPPP to DMAPP
|
BibTex
|
2007-01-24
|
R-HSA-9717830
|
GGPS1 hexamer transfers IPPP to GPP
|
BibTex
|
2007-01-24
|
R-HSA-191405
|
Two FPP molecules dimerize to form presqualene diphosphate
|
BibTex
|
2007-01-24
|
R-HSA-191402
|
Reduction of presqualene diphosphate to form squalene
|
BibTex
|
2007-01-24
|
R-HSA-191299
|
Squalene is oxidized to its epoxide
|
BibTex
|
2007-01-24
|
R-HSA-190141
|
ALAD binds to Pb2+
|
BibTex
|
2007-01-24
|
R-HSA-189488
|
UROS transforms HMB to URO3
|
BibTex
|
2007-01-24
|
R-HSA-189425
|
UROD decarboxylates URO3 to COPRO3
|
BibTex
|
2007-01-24
|
R-HSA-189467
|
Cytosolic COPRO3 translocates to mitochondrial intermembrane space
|
BibTex
|
2007-01-24
|
R-HSA-189421
|
CPO transforms COPRO3 to PPGEN9
|
BibTex
|
2007-01-24
|
R-HSA-189423
|
PPO oxidises PPGEN9 to PRIN9
|
BibTex
|
2007-01-24
|
R-HSA-189457
|
Mitochondrial intermembrane PRIN9 translocates to mitochondrial matrix
|
BibTex
|
2007-01-24
|
R-HSA-189465
|
FECH binds Fe2+ to PRIN9 to form heme
|
BibTex
|
2007-01-24
|
R-HSA-189456
|
Mitochondrial dALA translocates to cytosol
|
BibTex
|
2007-01-24
|
R-HSA-189439
|
ALAD condenses 2 dALAs to form PBG
|
BibTex
|
2007-01-24
|
R-HSA-189406
|
4 PBGs bind to form HMB
|
BibTex
|
2007-01-24
|
R-HSA-190168
|
HMBL spontaneously transforms to URO1
|
BibTex
|
2007-01-24
|
R-HSA-190182
|
UROD decarboxylates URO1 to COPRO1
|
BibTex
|
2007-01-24
|
R-HSA-189442
|
ALAS condenses SUCC-CoA and Gly to form dALA
|
BibTex
|
2007-01-19
|
R-HSA-191983
|
Cholesterol is hydroxylated to 25-hydroxycholesterol
|
BibTex
|
2007-01-19
|
R-HSA-193401
|
THCA is conjugated with Coenzyme A (SLC27A2 VLCS)
|
BibTex
|
2007-01-19
|
R-HSA-192042
|
5beta-cholestan-3alpha,7alpha,12alpha,27-tetrol is oxidized to 3alpha,7alpha,12alpha-trihydroxy-5beta-cholestan-27-al
|
BibTex
|
2007-01-19
|
R-HSA-192054
|
3alpha,7alpha,12alpha-trihydroxy-5beta-cholestan-27-al is oxidized to 3alpha,7alpha,12alpha-trihydroxy-5beta-cholestanoate (THCA)
|
BibTex
|
2007-01-19
|
R-HSA-191971
|
THCA is translocated from the mitochondrial matrix to the cytosol
|
BibTex
|
2007-01-19
|
R-HSA-192137
|
THCA is conjugated with Coenzyme A (SLC27A5 BACS)
|
BibTex
|
2007-01-19
|
R-HSA-192325
|
25(R) THCA-CoA is translocated from the cytosol to the peroxisome
|
BibTex
|
2007-01-19
|
R-HSA-192056
|
Isomerization of 25(R) THCA-CoA to 25(S) THCA-CoA
|
BibTex
|
2007-01-19
|
R-HSA-192335
|
25(S) THCA-CoA is dehydrogenated to 3alpha,7alpha,12alpha-trihydroxy-5beta-cholest-24-enoyl-CoA (THCA-CoA)
|
BibTex
|
2007-01-19
|
R-HSA-192331
|
3alpha,7alpha,12alpha-trihydroxy-5beta-cholest-24-enoyl-CoA (THCA-CoA) is hydrated to (24R, 25R) 3alpha,7alpha,12alpha,24-tetrahydroxy-5beta-cholestanoyl-CoA
|
BibTex
|
2007-01-19
|
R-HSA-193455
|
(24R, 25R) 3alpha,7alpha,12alpha,24-tetrahydroxy-5beta-cholestanoyl-CoA is oxidized to 3alpha,7alpha,12alpha-trihydroxy-5beta-cholest-24-one-CoA
|
BibTex
|
2007-01-19
|
R-HSA-192341
|
Thiolysis of 3alpha,7alpha,12alpha-trihydroxy-5beta-cholan-24-one-CoA yields choloyl-CoA (3alpha,7alpha,12alpha-trihydroxy-5beta-cholan-24-one-CoA) and propionyl CoA
|
BibTex
|
2007-01-19
|
R-HSA-193407
|
DHCA is conjugated with Coenzyme A (SLC27A5 BACS)
|
BibTex
|
2007-01-19
|
R-HSA-192033
|
4-cholesten-7alpha-ol-3-one is reduced to 5beta-cholestan-7alpha-ol-3-one
|
BibTex
|
2007-01-19
|
R-HSA-192160
|
5beta-cholestan-7alpha-ol-3-one is reduced to 5beta-cholestan-3alpha, 7alpha-diol
|
BibTex
|
2007-01-19
|
R-HSA-193537
|
5beta-cholestan-3alpha, 7alpha-diol is translocated from the cytosol to the mitochondrial matrix
|
BibTex
|
2007-01-19
|
R-HSA-193393
|
5beta-cholestan-3alpha, 7alpha-diol is hydroxylated to 5beta-cholestan-3alpha, 7alpha, 26-triol
|
BibTex
|
2007-01-19
|
R-HSA-193497
|
5beta-cholestan-3alpha, 7alpha, 26-triol is oxidized to 3alpha, 7alpha-dihydroxy-5beta-cholestan-26-al
|
BibTex
|
2007-01-19
|
R-HSA-193460
|
3alpha, 7alpha-dihydroxy-5beta-cholestan-26-al is oxidized to 3alpha, 7alpha-dihydroxy-5beta-cholestanoate (DHCA)
|
BibTex
|
2007-01-19
|
R-HSA-193519
|
DHCA is translocated from the mitochondrial matrix to the cytosol
|
BibTex
|
2007-01-19
|
R-HSA-193424
|
DHCA is conjugated with Coenzyme A (SLC27A2 VLCS)
|
BibTex
|
2007-01-19
|
R-HSA-193482
|
25(R) DHCA-CoA is translocated from the cytosol to the peroxisome
|
BibTex
|
2007-01-19
|
R-HSA-193452
|
Isomerization of 25(R) DHCA-CoA to 25(S) DHCA-CoA
|
BibTex
|
2007-01-19
|
R-HSA-193369
|
25(S) DHCA-CoA is dehydrogenated to 25(S) 3alpha,7alpha-dihydroxy-5beta-cholest-24-enoyl-CoA
|
BibTex
|
2007-01-19
|
R-HSA-193535
|
25(S) 3alpha,7alpha-dihydroxy-5beta-cholest-24-enoyl-CoA is hydrated to (24R, 25R) 3alpha,7alpha,24-trihydroxy-5beta-cholestanoyl-CoA
|
BibTex
|
2007-01-19
|
R-HSA-193508
|
(24R, 25R) 3alpha,7alpha,24-trihydroxy-5beta-cholestanoyl-CoA is oxidized to 3alpha,7alpha-dihydroxy-5beta-cholest-24-one-CoA
|
BibTex
|
2007-01-19
|
R-HSA-193533
|
Thiolysis of 3alpha,7alpha-dihydroxy-5beta-cholan-24-one-CoA yields chenodeoxycholoyl-CoA (3alpha,7alpha-dihydroxy-5beta-cholan-24-one-CoA) and propionyl CoA
|
BibTex
|
2007-01-19
|
R-HSA-192315
|
Bile salts are translocated from the peroxisomal matrix to the cytosol
|
BibTex
|
2007-01-19
|
R-HSA-192067
|
4-cholesten-7alpha, 12alpha-diol-3-one is reduced to 5beta-cholesten-7alpha, 12alpha-diol-3-one
|
BibTex
|
2007-01-19
|
R-HSA-192036
|
5Beta-cholesten-7alpha, 12alpha-diol-3-one is reduced to 5beta-cholestan-3alpha, 7alpha, 12alpha-triol
|
BibTex
|
2007-01-19
|
R-HSA-192010
|
5beta-cholestan-3alpha, 7alpha, 12alpha-triol is translocated from the cytosol to the mitochondrial matrix
|
BibTex
|
2007-01-19
|
R-HSA-191999
|
CYP27A1 27-hydroxylates 5bCHOL3a,7a,12a-triol
|
BibTex
|
2007-01-19
|
R-HSA-192097
|
7alpha-hydroxycholesterol is oxidized and isomerized to 4-cholesten-7alpha-ol-3-one
|
BibTex
|
2007-01-19
|
R-HSA-191972
|
27-hydroxycholesterol is 7alpha-hydroxylated
|
BibTex
|
2006-11-20
|
R-HSA-189384
|
BLVRA:Zn2+, BLVRB reduce BV to BIL
|
BibTex
|
2006-11-20
|
R-HSA-189398
|
HMOX1 dimer, HMOX2 cleave heme
|
BibTex
|
2006-07-06
|
R-RNO-182040
|
Binding of Plcg1 to active Trk receptor
|
BibTex
|
2006-07-06
|
R-RNO-182072
|
Active Trk phosphorylates Plcg1
|
BibTex
|
2006-07-06
|
R-RNO-182091
|
Active Plcg1 dissociates from Trk receptor
|
BibTex
|
2006-07-06
|
R-RNO-182061
|
Active Plcg1 hydrolyses PIP2
|
BibTex
|
2006-06-20
|
R-RNO-181799
|
Shc, complexed with TrkA, is Tyrosine-phosphorylated
|
BibTex
|
2006-06-20
|
R-RNO-181835
|
Shc binds to active Trk receptor
|
BibTex
|
2006-02-27
|
R-HSA-175993
|
HNMT transfers CH3 group from AdoMet to Hist
|
BibTex
|
2006-02-23
|
R-HSA-174931
|
UGTs transfer GlcA from UDP-GlcA to O-centre substrates
|
BibTex
|
2006-02-17
|
R-HSA-174367
|
GCL ligates L-Glu to L-Cys
|
BibTex
|
2006-02-17
|
R-HSA-174368
|
SLC35D1 hexamer transports UDP-GlcA, UDP-GlcNAc from cytosol to endoplasmic reticulum lumen
|
BibTex
|
2006-02-14
|
R-HSA-173597
|
UDP-glucose is oxidised to UDP-glucuronate
|
BibTex
|
2006-02-10
|
R-HSA-173483
|
BAMBI interferes with the interaction of type I receptor with type II receptor
|
BibTex
|
2006-02-02
|
R-HSA-178218
|
SMAD7:SMURF complex binds to phosphorylated TGFBR1
|
BibTex
|
2006-02-02
|
R-HSA-178215
|
SMAD7:SMURF1 complex is exported to the cytosol
|
BibTex
|
2006-02-02
|
R-HSA-173542
|
SMURF2 ubiquitinates SMAD2
|
BibTex
|
2006-02-02
|
R-HSA-178208
|
SMAD7 binds to SMURF2
|
BibTex
|
2006-02-02
|
R-HSA-2167917
|
SMAD7 binds to SMURF1
|
BibTex
|
2006-02-02
|
R-NUL-2167872
|
PP1CC dephosphorylates TGFBR1
|
BibTex
|
2006-02-02
|
R-NUL-2167890
|
Smad7 recruits GADD34:PP1CC to phosphorylated TGF-beta receptor complex
|
BibTex
|
2006-02-02
|
R-HSA-173512
|
I-SMAD competes with SMAD2/3 for type I receptor (TGFBR1)
|
BibTex
|
2006-02-02
|
R-HSA-178189
|
SMAD7 recruits GADD34:PP1 to phosphorylated TGFBR
|
BibTex
|
2006-02-02
|
R-HSA-178178
|
PP1 dephosphorylates TGFBR1
|
BibTex
|
2006-02-02
|
R-HSA-170844
|
Latent TGF-beta-1 is cleaved by FURIN
|
BibTex
|
2006-02-02
|
R-HSA-177107
|
Secretion and activation of the latent large complex of TGF-beta-1
|
BibTex
|
2006-02-02
|
R-HSA-173545
|
Ubiquitin-dependent degradation of the SMAD complex terminates TGF-beta signaling
|
BibTex
|
2006-02-02
|
R-HSA-173481
|
SKI/SKIL binds SMAD complex, suppressing TGF-beta signaling
|
BibTex
|
2006-02-02
|
R-HSA-170861
|
Dimeric TGF-beta-1 binds to the receptor
|
BibTex
|
2006-02-02
|
R-HSA-170846
|
TGFBR2 recruits TGFBR1
|
BibTex
|
2006-02-02
|
R-HSA-170843
|
TGFBR2 phosphorylates TGFBR1
|
BibTex
|
2006-02-02
|
R-HSA-170835
|
An anchoring protein, ZFYVE9 (SARA), recruits SMAD2/3
|
BibTex
|
2006-02-02
|
R-HSA-170868
|
Activated type I receptor phosphorylates SMAD2/3 directly
|
BibTex
|
2006-02-02
|
R-HSA-170850
|
Phosphorylated SMAD2/3 dissociates from TGFBR
|
BibTex
|
2006-02-02
|
R-HSA-170847
|
Phosphorylated SMAD2 and SMAD3 form a complex with SMAD4
|
BibTex
|
2006-02-02
|
R-HSA-173488
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The SMAD2/3:SMAD4 complex transfers to the nucleus
|
BibTex
|
2005-12-08
|
R-DME-169828
|
Activated DAkt1 phosphorylates TSC2 which inhibits the TSC1/2 complex
|
BibTex
|
2005-12-08
|
R-DME-169827
|
DPDK1 phosphorylates and activates DS6K
|
BibTex
|
2005-07-27
|
R-DME-165127
|
GEF binds to the inactive DRheb
|
BibTex
|
2005-07-27
|
R-DME-165129
|
GDP is exchanged for GTP on DRheb
|
BibTex
|
2005-07-27
|
R-DME-165131
|
GEF dissociates from DRheb-GTP
|
BibTex
|
2005-06-30
|
R-HSA-164834
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Enzyme-bound ATP is released
|
BibTex
|
2005-06-30
|
R-HSA-163215
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SLC25A5,6 dimers exchange ATP for ADP across the mitochondrial inner membrane
|
BibTex
|
2005-06-30
|
R-HSA-164840
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ADP and Pi bind to ATPase
|
BibTex
|
2005-06-30
|
R-HSA-164832
|
ATPase synthesizes ATP
|
BibTex
|
2005-06-28
|
R-HSA-163214
|
Electron transfer from reduced cytochrome c to molecular oxygen
|
BibTex
|
2005-06-16
|
R-DME-164696
|
Chico is phosphorylated
|
BibTex
|
2005-06-14
|
R-HSA-164651
|
Electron transfer from ubiquinol to cytochrome c of complex III
|
BibTex
|
2005-06-10
|
R-BTA-165642
|
Transfer of electrons through the bovine succinate dehydrogenase complex
|
BibTex
|
2005-06-10
|
R-HSA-163213
|
Transfer of electrons through the succinate dehydrogenase complex
|
BibTex
|
2005-05-10
|
R-HSA-163217
|
Complex I oxidises NADH to NAD+, reduces CoQ to QH2
|
BibTex
|
2005-03-11
|
R-HSA-159567
|
ACSM2B-like proteins transform ST to ST-CoA
|
BibTex
|
2005-03-10
|
R-HSA-159443
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benzoate + Coenzyme A + ATP => benzoyl-CoA + AMP + pyrophosphate
|
BibTex
|
2005-03-09
|
R-HSA-159431
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Cytosolic chenodeoxycholoyl-CoA or choloyl-CoA are conjugated with glycine or taurine
|
BibTex
|
2005-03-09
|
R-HSA-159425
|
Cytosolic cholate and chenodeoxycholate are conjugated with Coenzyme A (SLC27A5 BACS)
|
BibTex
|
2005-03-03
|
R-HSA-159358
|
SULT1A3,4 dimers sulfate DA to DAOS
|
BibTex
|
2005-02-23
|
R-HSA-159179
|
UGT1A4 transfers GlcA from UDP-GlcA to BMG to form BDG
|
BibTex
|
2005-02-23
|
R-HSA-9632039
|
UGT1A1 transfers GlcA from UDP-GlcA to BIL to form BMG
|
BibTex
|
2005-02-23
|
R-HSA-159194
|
UGT1A4 transfers GlcA from UDP-GlcA to BIL to form BMG
|
BibTex
|
2005-02-23
|
R-HSA-9632038
|
UGT1A1 tetramer transfers GlcA from UDP-GlcA to BMG to form BDG
|
BibTex
|
2005-02-09
|
R-HSA-158832
|
The acetyl group from acetyl-CoA is transferred to the NAT2
|
BibTex
|
2005-02-09
|
R-HSA-174959
|
The acetyl group from acetyl-CoA is transferred to the NAT1
|
BibTex
|
2005-01-31
|
R-HSA-158546
|
UGTs glucuronate APAP to APAP-GlcA
|
BibTex
|
2005-01-10
|
R-DME-159111
|
Drosophila NICD traffics to nucleus
|
BibTex
|
2005-01-10
|
R-HSA-157937
|
NICD3 traffics to the nucleus
|
BibTex
|
2004-12-15
|
R-HSA-157933
|
NICD2 traffics to the nucleus
|
BibTex
|
2004-12-15
|
R-HSA-157640
|
NEXT2 is cleaved to produce NICD2
|
BibTex
|
2004-12-15
|
R-HSA-2168987
|
DLL4 binds NOTCH4
|
BibTex
|
2004-12-15
|
R-HSA-9604247
|
JAG1 binds NOTCH4
|
BibTex
|
2004-12-15
|
R-HSA-9604264
|
ADAM10 cleaves NOTCH4
|
BibTex
|
2004-12-15
|
R-HSA-9604294
|
Gamma-secretase cleaves NOTCH4
|
BibTex
|
2004-12-15
|
R-HSA-9604308
|
NICD4 traffics to the nucleus
|
BibTex
|
2004-12-15
|
R-HSA-1980039
|
NOTCH1 binds DLL1
|
BibTex
|
2004-12-15
|
R-HSA-1980041
|
NOTCH1 binds DLL4
|
BibTex
|
2004-12-15
|
R-HSA-1980042
|
NOTCH1 binds JAG1
|
BibTex
|
2004-12-15
|
R-HSA-157353
|
NEXT1 is cleaved to produce NICD1
|
BibTex
|
2004-12-15
|
R-HSA-157632
|
Complex of NOTCH1 with its ligand is cleaved to produce NEXT1
|
BibTex
|
2004-12-15
|
R-HSA-1980044
|
NOTCH1 binds JAG2
|
BibTex
|
2004-12-15
|
R-HSA-1912382
|
Mature NOTCH heterodimer traffics to the plasma membrane
|
BibTex
|
2004-12-15
|
R-HSA-1912369
|
NOTCH precursor cleaved to form mature NOTCH
|
BibTex
|
2004-12-15
|
R-HSA-1912374
|
Transport of NOTCH precursor to Golgi
|
BibTex
|
2004-03-31
|
R-HSA-167419
|
The receptor:G-protein complex releases GDP
|
BibTex
|
2004-03-31
|
R-HSA-167429
|
The receptor:G-protein complex binds GTP
|
BibTex
|
2004-03-31
|
R-HSA-112271
|
The receptor:G-protein complex dissociates
|
BibTex
|
2004-03-31
|
R-HSA-167415
|
G-protein alpha subunit is inactivated
|
BibTex
|
2004-03-31
|
R-HSA-167433
|
G-protein beta-gamma subunits rebind the alpha-GDP subunit
|
BibTex
|
2004-03-31
|
R-HSA-167408
|
The high affinity receptor complex binds to G-protein
|
BibTex
|
2004-03-31
|
R-HSA-112042
|
Opioid binds MOR
|
BibTex
|
2004-03-31
|
R-HSA-201790
|
DARPP-32 is dephosphorylated on Thr75 by PP2A
|
BibTex
|
2004-03-31
|
R-HSA-180047
|
CDK5 phosphorylates DARPP-32 on Thr75
|
BibTex
|
2004-03-31
|
R-HSA-180073
|
DARPP-32 phosphorylated on Thr75 binds to PKA, inhibiting its function
|
BibTex
|
2004-03-31
|
R-HSA-111962
|
PDE4A,C,D hydrolyse cAMP
|
BibTex
|
2004-03-31
|
R-RNO-201760
|
Ppp3 complex dephosphorylates DARPP-32 on T34
|
BibTex
|
2004-03-31
|
R-HSA-201787
|
PPP3 complex dephosphorylates DARPP-32 on Thr34
|
BibTex
|
2004-03-31
|
R-HSA-9644869
|
p-S54-PDE4B hydrolyses cAMP
|
BibTex
|
2004-03-31
|
R-HSA-177284
|
PKA phosphorylates PDE4B
|
BibTex
|
2004-03-31
|
R-BTA-375176
|
Inactive catalytic PP2B is activated by the binding of calmodulin
|
BibTex
|
2004-03-31
|
R-HSA-201783
|
Inactive catalytic PP2B is activated by the binding of calmodulin
|
BibTex
|
2004-03-31
|
R-HSA-177275
|
PKA phosphorylates DARPP-32 on Thr34
|
BibTex
|
2004-03-31
|
R-HSA-180038
|
DARPP-32 phosphorylated on T34 binds to PP1, inhibiting its function
|
BibTex
|
2004-03-31
|
R-HSA-112037
|
Inactivation of PLC beta
|
BibTex
|
2004-03-31
|
R-HSA-111916
|
Dimerization of p-S133-CREB1
|
BibTex
|
2004-03-31
|
R-HSA-74448
|
Calcium binds calmodulin
|
BibTex
|
2004-03-31
|
R-HSA-169683
|
IP3R:I(1,4,5)P3 tetramer transports Ca2+ from ER lumen to cytosol
|
BibTex
|
2004-03-31
|
R-HSA-169680
|
IP3 binds to the IP3 receptor, opening the endoplasmic reticulum Ca2+ channel
|
BibTex
|
2004-03-31
|
R-HSA-111879
|
PIP2 hydrolysis
|
BibTex
|
2004-03-31
|
R-HSA-111870
|
Activation of PLC beta-1/4
|
BibTex
|
2004-03-31
|
R-BTA-374858
|
Activation of PLC beta-1
|
BibTex
|
2004-03-31
|
R-HSA-111912
|
CaMK4 phosphorylates CREB1
|
BibTex
|
2004-03-31
|
R-HSA-111915
|
CAMK4 autophosphorylates
|
BibTex
|
2004-03-31
|
R-HSA-111913
|
Calmodulin binds CAMK4
|
BibTex
|
2004-03-31
|
R-HSA-112282
|
CAMK4 enters the nucleus
|
BibTex
|
2004-03-31
|
R-RNO-379960
|
Calmodulin binds CaMK IV
|
BibTex
|
2004-03-31
|
R-RNO-379832
|
CaMKIV phosphorylates Creb1
|
BibTex
|
2004-03-31
|
R-HSA-111883
|
Hydrolysis of phosphatidylcholine
|
BibTex
|
2004-03-31
|
R-HSA-111881
|
Phospho-cPLA2 translocates to membranes when intracellular calcium levels increase
|
BibTex
|
2004-03-31
|
R-HSA-111898
|
Phosphorylation of cPLA2 by ERK-2
|
BibTex
|
2004-03-31
|
R-RNO-182052
|
IP3 binds to the IP3 receptor, opening the Ca2+ channel
|
BibTex
|
2004-03-31
|
R-RNO-182097
|
Calcium release from intracellular stores by IP3 receptor activation
|
BibTex
|
2004-03-31
|
R-BTA-74447
|
Calcium binds calmodulin
|
BibTex
|
2004-03-31
|
R-HSA-111919
|
PKA phosphorylates CREB1
|
BibTex
|
2004-03-31
|
R-HSA-111924
|
PKA catalytic subunit translocates to the nucleus
|
BibTex
|
2004-03-31
|
R-HSA-111925
|
cAMP induces dissociation of inactive PKA tetramers
|
BibTex
|
2004-03-31
|
R-HSA-8951727
|
cAMP binds PKA tetramer
|
BibTex
|
2004-03-31
|
R-HSA-111930
|
Adenylate cyclase produces cAMP
|
BibTex
|
2004-03-31
|
R-RNO-379836
|
PKA catalytic subunit translocates to the nucleus
|
BibTex
|
2004-03-31
|
R-NUL-9615367
|
Prkaca phosphorylates Creb1
|
BibTex
|
2004-03-31
|
R-RNO-379842
|
Dimerization of p-S133-Creb1
|
BibTex
|
2004-03-31
|
R-HSA-111970
|
PKC phosphorylates GRK2
|
BibTex
|
2004-03-31
|
R-HSA-111955
|
cAMP hydrolysis by Cam-PDE 1
|
BibTex
|
2004-03-31
|
R-HSA-111956
|
Calmodulin activates Cam-PDE 1
|
BibTex
|
2004-03-31
|
R-HSA-111966
|
GRK2 binds CALM1:4Ca2+
|
BibTex
|
2004-03-31
|
R-HSA-170674
|
Dissociation of the Gi alpha:G olf complex
|
BibTex
|
2004-03-31
|
R-HSA-170686
|
Adenylate cyclase increases the GTPase activity of Gi alpha
|
BibTex
|
2004-03-31
|
R-HSA-170666
|
Adenylate cyclase increases the GTPase activity of G alpha-olf
|
BibTex
|
2004-03-31
|
R-HSA-170671
|
G alpha-olf:GTP binds to Gi alpha1:GTP:adenylate cyclase complex
|
BibTex
|
2004-03-31
|
R-HSA-167427
|
Opioid dissociates from MOR
|
BibTex
|
2004-03-31
|
R-HSA-170672
|
Galpha-olf:GTP binds to adenylate cyclase and activates it
|
BibTex
|
2004-03-31
|
R-HSA-170676
|
Adenylate cyclase converts ATP into cyclic AMP
|
BibTex
|
2004-03-31
|
R-HSA-170677
|
The G alpha-olf:GDP:Adenylate cyclase complex dissociates
|
BibTex
|
2004-03-31
|
R-HSA-170685
|
Adenylaye cyclase increases the GTPase activity of G alpha-olf
|
BibTex
|
2004-02-11
|
R-DME-110475
|
DAkt1-mediated phosphorylation inactivates DFOXO
|
BibTex
|
2004-02-11
|
R-DME-110506
|
Activated DTOR phosphorylates DS6K
|
BibTex
|
2004-02-11
|
R-DME-110518
|
Activated DTOR also phosphorylates D4EBP
|
BibTex
|
2004-02-11
|
R-DME-110437
|
DILP binds to Drosophila insulin receptor (DINR)
|
BibTex
|
2004-02-11
|
R-DME-110440
|
Autophosphorylation of DINR
|
BibTex
|
2004-02-11
|
R-DME-110442
|
Activated DINR binds Chico
|
BibTex
|
2004-02-11
|
R-DME-110446
|
Phospho-Chico: Activated DINR binds p60:Dp110
|
BibTex
|
2004-02-11
|
R-DME-110498
|
DTOR is positively regulated by DRheb-GTP
|
BibTex
|
2004-02-11
|
R-DME-110491
|
DRheb is inhibited by the TSC1/2 complex
|
BibTex
|
2004-02-11
|
R-DME-110485
|
DTSC1 AND DTSC2 form a complex
|
BibTex
|
2004-02-11
|
R-DME-110468
|
Activation of DAkt1 by DPDK1
|
BibTex
|
2004-02-11
|
R-DME-110463
|
Increased PIP3 levels recruit DAkt1 to the membrane
|
BibTex
|
2004-02-11
|
R-DME-110453
|
Phosphorylation of PIP2 to PIP3 by Dp110
|
BibTex
|
2004-02-11
|
R-DME-110459
|
PIP3 dephosphorylated to PIP2 by DPTEN
|
BibTex
|
2003-08-05
|
R-HSA-76494
|
POR reduces CYP450:Fe3+ to CYP450:Fe2+
|
BibTex
|
2003-07-17
|
R-HSA-74247
|
XDH oxidizes hypoxanthine to form xanthine
|
BibTex
|
2003-07-17
|
R-HSA-74258
|
XDH oxidizes xanthine to form urate
|
BibTex
|
2003-06-26
|
R-HSA-73815
|
5-phospho-alpha-D-ribose 1-diphosphate (PRPP) + H2O + L-glutamine <=> 5-phosphoribosylamine + L-glutamate +pyrophosphate
|
BibTex
|
2003-06-26
|
R-HSA-73797
|
FAICAR => IMP + H2O
|
BibTex
|
2003-06-17
|
R-HSA-73620
|
beta-ureidoisobutyrate + H2O => 3-aminoisobutyrate + NH4+ + CO2
|
BibTex
|
2003-06-17
|
R-HSA-73577
|
CAD hexamer transforms L-Gln to CAP
|
BibTex
|
2003-06-17
|
R-HSA-73573
|
CAD hexamer transforms CAP to N-carb-L-Asp
|
BibTex
|
2003-06-17
|
R-HSA-73571
|
CAD hexamer dehydrates N-carb-L-Asp to (S)-DHO
|
BibTex
|
2003-06-17
|
R-HSA-73646
|
thioredoxin, oxidized + NADPH + H+ => thioredoxin, reduced + NADP+
|
BibTex
|
2003-06-17
|
R-HSA-73591
|
beta-ureidopropionate + H2O => beta-alanine + NH4+ + CO2
|
BibTex
|
2003-06-17
|
R-HSA-73564
|
UMPS dimer decarboxylates OMP to UMP
|
BibTex
|
2003-06-17
|
R-HSA-73567
|
UMPS dimer transfers phosphoribosyl group to ORO to form OMP
|
BibTex
|
2003-06-17
|
R-HSA-73569
|
DHODH:FMN oxidises (S)-DHO to orotate
|
BibTex
|