|
2026-01-20
|
R-HSA-6797956
|
SLC44A1 and SLC44A2 transport Cho from cytosol to mitochondrial matrix
|
BibTex
|
|
2026-01-20
|
R-HSA-6797955
|
ALDH7A1 oxidises BETALD to BET
|
BibTex
|
|
2026-01-20
|
R-HSA-6797957
|
SLC22A4 transports BET from mitochondrial matrix to cytosol
|
BibTex
|
|
2026-01-20
|
R-HSA-6797653
|
DMGDH:FAD oxidatively demethylates DMGLY to SARC
|
BibTex
|
|
2026-01-20
|
R-HSA-6797913
|
SARDH:FAD oxidatively demethylates SARC to Gly
|
BibTex
|
|
2025-12-16
|
R-HSA-1855173
|
5-PP-IP4 transports from the nucleus to the cytosol
|
BibTex
|
|
2025-12-16
|
R-HSA-1855201
|
I(1,3,4,6)P4 transports from the cytosol to the nucleus
|
BibTex
|
|
2025-12-16
|
R-HSA-1855161
|
I(1,3,4,5,6)P5 transports from the nucleus to the cytosol
|
BibTex
|
|
2025-12-16
|
R-HSA-1855168
|
I(1,3,4,5)P4 transports from the cytosol to the nucleus
|
BibTex
|
|
2025-12-16
|
R-HSA-1855190
|
I(1,4,5)P3 transports from the cytosol to the nucleus
|
BibTex
|
|
2025-12-16
|
R-HSA-1855212
|
1/3-PP-IP5 transports from the cytosol to the nucleus
|
BibTex
|
|
2025-12-16
|
R-HSA-1855188
|
IP6 transports from the cytosol to the nucleus
|
BibTex
|
|
2025-12-16
|
R-HSA-1855203
|
5-PP-IP5 transports from the nucleus to the cytosol
|
BibTex
|
|
2025-12-16
|
R-HSA-1855220
|
(PP)2-IP4 transports from the nucleus to the cytosol
|
BibTex
|
|
2025-10-22
|
R-HSA-194641
|
4,4-dimethylcholesta-8(9),24-dien-3beta-ol is oxidized to 4-methyl,4-carboxycholesta-8(9),24-dien-3beta-ol
|
BibTex
|
|
2025-10-09
|
R-HSA-176521
|
beta-estradiol + PAPS => beta-estradiol 3-sulfate + PAP
|
BibTex
|
|
2025-10-08
|
R-HSA-6810594
|
HSD17B14 tetramer oxidises estradiol (EST17b) to estrone (E1)
|
BibTex
|
|
2025-10-08
|
R-HSA-8862137
|
HSD17B2 oxidises estradiol (EST17b) to estrone (E1)
|
BibTex
|
|
2025-10-08
|
R-HSA-5578744
|
Importin-8 imports AGO2:miRNA into the nucleus
|
BibTex
|
|
2025-10-08
|
R-HSA-1855173
|
5-PP-IP4 transports from the nucleus to the cytosol
|
BibTex
|
|
2025-10-08
|
R-HSA-1855201
|
I(1,3,4,6)P4 transports from the cytosol to the nucleus
|
BibTex
|
|
2025-10-08
|
R-HSA-1855161
|
I(1,3,4,5,6)P5 transports from the nucleus to the cytosol
|
BibTex
|
|
2025-10-08
|
R-HSA-1855168
|
I(1,3,4,5)P4 transports from the cytosol to the nucleus
|
BibTex
|
|
2025-10-08
|
R-HSA-1855190
|
I(1,4,5)P3 transports from the cytosol to the nucleus
|
BibTex
|
|
2025-10-08
|
R-HSA-1855212
|
1/3-PP-IP5 transports from the cytosol to the nucleus
|
BibTex
|
|
2025-10-08
|
R-HSA-1855188
|
IP6 transports from the cytosol to the nucleus
|
BibTex
|
|
2025-10-08
|
R-HSA-1855203
|
5-PP-IP5 transports from the nucleus to the cytosol
|
BibTex
|
|
2025-10-08
|
R-HSA-1855220
|
(PP)2-IP4 transports from the nucleus to the cytosol
|
BibTex
|
|
2025-08-28
|
R-HSA-170825
|
NPC exports GCK1 from nucleus
|
BibTex
|
|
2025-08-28
|
R-HSA-170796
|
NPC transports GCK1:GCKR from cytosol to nucleoplasm
|
BibTex
|
|
2025-08-14
|
R-HSA-6783883
|
P6C transforms to 2AMAS
|
BibTex
|
|
2025-08-14
|
R-HSA-2855259
|
atROL binds RBP1 (parenchymal cell)
|
BibTex
|
|
2025-08-13
|
R-HSA-1474158
|
GCHFR binds to GCH1 and negatively regulates its activity
|
BibTex
|
|
2025-08-13
|
R-HSA-209738
|
VD3 binds GC
|
BibTex
|
|
2025-08-13
|
R-HSA-209944
|
25(OH)D binds GC
|
BibTex
|
|
2025-08-13
|
R-HSA-8963851
|
VD3 dissociates from GC
|
BibTex
|
|
2025-08-13
|
R-HSA-350186
|
CUBN binds GC:25(OH)D
|
BibTex
|
|
2025-08-13
|
R-HSA-350158
|
LGMN hydrolyzes GC, releasing CUBN and 25(OH)D
|
BibTex
|
|
2025-08-13
|
R-HSA-8963915
|
1,25(OH)2D binds VDR
|
BibTex
|
|
2025-08-13
|
R-HSA-8937177
|
AHR:TCDD binds ARNT
|
BibTex
|
|
2025-08-13
|
R-HSA-8936849
|
AHR:2xHSP90:AIP:PTGES3 binds TCDD
|
BibTex
|
|
2025-08-13
|
R-HSA-8937169
|
AHR:TCDD:2xHSP90AB1:AIP:PTGES3 translocates from cytosol to nucleoplasm
|
BibTex
|
|
2025-08-13
|
R-HSA-8937191
|
AHR:TCDD:2xHSP90AB1:AIP:PTGES3 dissociates
|
BibTex
|
|
2025-08-13
|
R-HSA-5340251
|
NR1H4:DCA,CDCA,LCHA binds RXRA and NCOA1,2
|
BibTex
|
|
2025-08-13
|
R-HSA-8873850
|
STARD5 binds DCA, LCA
|
BibTex
|
|
2025-08-13
|
R-HSA-2404135
|
RBP4 binds atROL
|
BibTex
|
|
2025-08-13
|
R-HSA-2404142
|
atROL binds RBP1
|
BibTex
|
|
2025-08-13
|
R-HSA-2395764
|
atREs binds to nascent CM
|
BibTex
|
|
2025-08-13
|
R-HSA-2399913
|
atRAL binds to RBP2
|
BibTex
|
|
2025-08-13
|
R-HSA-975633
|
atROL binds to RBP2
|
BibTex
|
|
2025-08-13
|
R-HSA-2423785
|
CR:atREs binds apoE and HSPG
|
BibTex
|
|
2025-08-13
|
R-HSA-2404134
|
RBP4:atROL binds TTR
|
BibTex
|
|
2025-08-13
|
R-HSA-5246478
|
APOM binds retinoids
|
BibTex
|
|
2025-08-13
|
R-HSA-2161563
|
PGJ2 is isomerised to delta12-PGJ2
|
BibTex
|
|
2025-08-13
|
R-HSA-8848355
|
PNPLA4 hydrolyzes retinyl palmitate
|
BibTex
|
|
2025-08-13
|
R-HSA-163402
|
diacylglycerol + H2O -> 2-acylglycerol + fatty acid
|
BibTex
|
|
2025-08-13
|
R-HSA-163551
|
triacylglycerol + H2O -> diacylglycerol + fatty acid
|
BibTex
|
|
2025-08-13
|
R-HSA-163549
|
phosphorylated HSL dimer + FABP4 -> phosphorylated HSL dimer:FABP4 complex
|
BibTex
|
|
2025-08-13
|
R-HSA-163595
|
2-acylglycerol + H2O -> glycerol + fatty acid
|
BibTex
|
|
2025-08-13
|
R-HSA-163432
|
cholesterol ester + H2O -> cholesterol + fatty acid
|
BibTex
|
|
2025-08-13
|
R-HSA-8848339
|
PNPLA5 hydrolyzes TAG
|
BibTex
|
|
2025-08-13
|
R-HSA-8848338
|
PNPLA4 hydrolyzes TAG
|
BibTex
|
|
2025-08-13
|
R-HSA-5334794
|
FABPs bind LCFAs
|
BibTex
|
|
2025-08-13
|
R-HSA-2065550
|
SREBP1A,1C,2 binds Importin beta-1
|
BibTex
|
|
2025-08-13
|
R-HSA-2065539
|
SREBP1A,1C,2:Importin beta-1 dissociates
|
BibTex
|
|
2025-08-13
|
R-HSA-8862380
|
HSD17B13 binds lipid droplets
|
BibTex
|
|
2025-08-13
|
R-HSA-6809254
|
MTMR8 binds MTMR9
|
BibTex
|
|
2025-08-13
|
R-HSA-8871366
|
p-Y389,400-RUFY1 binds RAB4A:GTP, RAB5:GTP, RAB14:GTP
|
BibTex
|
|
2025-08-13
|
R-HSA-8871373
|
BMX phosphorylates RUFY1
|
BibTex
|
|
2025-08-13
|
R-HSA-6809793
|
MTMR2 binds SBF2
|
BibTex
|
|
2025-08-13
|
R-HSA-8871376
|
p-Y389,400-RUFY1 binds PI3P
|
BibTex
|
|
2025-08-13
|
R-HSA-8870489
|
PLEKHA4,(5,6) bind PI3P
|
BibTex
|
|
2025-08-13
|
R-HSA-8870499
|
PLEKHA3,8 bind PI4P, ARF1
|
BibTex
|
|
2025-08-13
|
R-HSA-6809309
|
MTMR6 binds MTMR9
|
BibTex
|
|
2025-08-13
|
R-HSA-8870332
|
PTPN13:PLEKHA1,2 bind PI(3,4)P2
|
BibTex
|
|
2025-08-13
|
R-HSA-400143
|
Fatty acid ligands activate PPARA
|
BibTex
|
|
2025-08-13
|
R-HSA-400183
|
PPARA:RXRA binds Corepressors of PPARA
|
BibTex
|
|
2025-08-13
|
R-HSA-400204
|
PPARA binds RXRA
|
BibTex
|
|
2025-08-13
|
R-HSA-2026996
|
FABP1 transports fatty acids into the nucleus
|
BibTex
|
|
2025-08-13
|
R-HSA-1855164
|
IP6 transports from the cytosol to the ER lumen
|
BibTex
|
|
2025-08-13
|
R-HSA-1855195
|
I(1,3,4,5,6)P5 transports from the cytosol to the ER lumen
|
BibTex
|
|
2025-08-13
|
R-HSA-1855155
|
I(1,3,4,5,6)P5 transports from the ER lumen to the cytosol
|
BibTex
|
|
2025-08-13
|
R-HSA-9854672
|
FAD attaches to SDHA
|
BibTex
|
|
2025-08-13
|
R-HSA-170810
|
nucleoplasmic GCK1:GCKR complex => glucokinase (GCK1) + glucokinase regulatory protein (GCKR)
|
BibTex
|
|
2025-08-13
|
R-HSA-170824
|
glucokinase (GCK1) + glucokinase regulatory protein (GKRP) <=> GCK1:GKRP complex
|
BibTex
|
|
2025-08-13
|
R-HSA-9854368
|
ROS,RNS oxidize ACO2:4Fe-4S
|
BibTex
|
|
2025-08-13
|
R-HSA-9956909
|
CERT1-2 transfers CERA from the ER membrane to the Golgi membrane
|
BibTex
|
|
2025-08-13
|
R-HSA-429730
|
PPM1L dephosphorylates multiphospho-CERT1-2
|
BibTex
|
|
2025-08-13
|
R-HSA-9842115
|
PSAP(195-273) dimer binds PE
|
BibTex
|
|
2025-08-13
|
R-HSA-1614336
|
SUMF2 binds SUMF1, inhibiting SUMF1-mediated activation of arylsulfatases
|
BibTex
|
|
2025-08-13
|
R-HSA-9663511
|
BIL binds GSTA1, FABP1
|
BibTex
|
|
2025-08-13
|
R-HSA-9661419
|
ALB binds extracellular heme
|
BibTex
|
|
2025-08-13
|
R-HSA-190141
|
ALAD binds to Pb2+
|
BibTex
|
|
2025-08-13
|
R-HSA-2160915
|
Receptor-mediated uptake of HA
|
BibTex
|
|
2025-08-13
|
R-HSA-174959
|
The acetyl group from acetyl-CoA is transferred to NAT1
|
BibTex
|
|
2025-08-13
|
R-HSA-158832
|
The acetyl group from acetyl-CoA is transferred to NAT2
|
BibTex
|
|
2025-08-13
|
R-HSA-196126
|
STAR mediates CHOL translocation from cytosol to mitochondrial intermembrane space
|
BibTex
|
|
2025-08-13
|
R-HSA-9956308
|
STARD7 transports PC from ER membrane to mitochondrial outer membrane
|
BibTex
|
|
2025-08-13
|
R-HSA-8873923
|
STARD10 binds LPCAT1 and PC
|
BibTex
|
|
2025-08-13
|
R-HSA-8873794
|
PCTP binds PC
|
BibTex
|
|
2025-08-13
|
R-HSA-8873834
|
STARD10 transports PC from ER membrane to lamellar body membrane
|
BibTex
|
|
2025-08-12
|
R-HSA-9960428
|
2AMAS transport from peroxisome to mitochondrial matrix
|
BibTex
|
|
2025-08-12
|
R-HSA-9955574
|
ODC dimerizes
|
BibTex
|
|
2025-08-12
|
R-HSA-9856737
|
Unknown enzyme(s) process 4-HMA to 4-Hbz
|
BibTex
|
|
2025-08-12
|
R-HSA-1678694
|
Heparanase 2 (HPSE2) binds heparan sulfate proteoglycans
|
BibTex
|
|
2025-08-12
|
R-HSA-8940134
|
FOLR2 binds FOLA
|
BibTex
|
|
2025-08-12
|
R-HSA-193715
|
5beta-cholestan-3alpha,7alpha,24(S)-triol is translocated from the cytosol to the mitochondrial matrix
|
BibTex
|
|
2025-08-12
|
R-HSA-192010
|
5beta-cholestan-3alpha, 7alpha, 12alpha-triol is translocated from the cytosol to the mitochondrial matrix
|
BibTex
|
|
2025-08-12
|
R-HSA-193808
|
5beta-cholestan-3alpha,7alpha,27-triol is translocated from the cytosol to the mitochondrial matrix
|
BibTex
|
|
2025-08-12
|
R-HSA-193537
|
5beta-cholestan-3alpha, 7alpha-diol is translocated from the cytosol to the mitochondrial matrix
|
BibTex
|
|
2025-08-12
|
R-HSA-193774
|
5beta-cholestan-3alpha,7alpha,12alpha,24(S)-tetrol is translocated from the cytosol to the mitochondrial matrix
|
BibTex
|
|
2025-08-12
|
R-HSA-193832
|
5beta-cholestan-3alpha,7alpha,12alpha,27-tetrol is translocated from the cytosol to the mitochondrial matrix
|
BibTex
|
|
2025-08-12
|
R-HSA-6809238
|
MTMR7 binds MTMR9
|
BibTex
|
|
2025-08-12
|
R-HSA-8866941
|
MID1IP1 binds THRSP
|
BibTex
|
|
2025-08-12
|
R-HSA-5333678
|
CPNEs bind PL
|
BibTex
|
|
2025-08-12
|
R-HSA-6809764
|
SBF1 binds MTMR2
|
BibTex
|
|
2025-08-12
|
R-HSA-8874705
|
TTPA transports alpha-TOH from lysosomal membrane to plasma membrane
|
BibTex
|
|
2025-06-16
|
R-HSA-2160892
|
HYAL2 hydrolyses HA into 20kDa fragments
|
BibTex
|
|
2025-06-16
|
R-HSA-350567
|
Antizyme OAZ binds to Ornithine decarboxylase
|
BibTex
|
|
2025-06-16
|
R-HSA-400204
|
PPARA binds RXRA
|
BibTex
|
|
2025-06-16
|
R-HSA-1855217
|
I(1,4,5)P3 transports from the ER lumen to the cytosol
|
BibTex
|
|
2025-06-16
|
R-HSA-1855186
|
I(1,3,4,5)P4 transports from the cytosol to the ER lumen
|
BibTex
|
|
2025-06-16
|
R-HSA-8878815
|
Formation of 4Fe-4S cluster on ISCA1:ISCA2
|
BibTex
|
|
2025-06-16
|
R-HSA-1362416
|
Frataxin binds iron
|
BibTex
|
|
2025-06-16
|
R-HSA-2395512
|
FDXR transfers electrons to FDX1,2 (FDX1L)
|
BibTex
|
|
2025-06-16
|
R-HSA-2395517
|
NADPH transfers electrons to FDXR
|
BibTex
|
|
2025-06-16
|
R-HSA-9661432
|
BIL binds ALB
|
BibTex
|
|
2025-06-02
|
R-HSA-71541
|
glycogen phosphorylase (PYGM) dimer b + 2 ATP => glycogen phosphorylase (PYGM) dimer a + 2 ADP
|
BibTex
|
|
2025-06-02
|
R-HSA-453342
|
PYGM dimer, b form + 2 AMP => PYGM b dimer:AMP complex
|
BibTex
|
|
2025-06-02
|
R-HSA-453356
|
PYGB dimer, b form + 2 AMP => PYGB b dimer:AMP complex
|
BibTex
|
|
2025-06-02
|
R-HSA-453337
|
glycogen phosphorylase (PYGB) dimer b + 2 ATP => glycogen phosphorylase (PYGB) dimer a + 2 ADP
|
BibTex
|
|
2025-06-02
|
R-HSA-197268
|
QPRT transfers PRIB to QUIN to form NAMN
|
BibTex
|
|
2025-06-02
|
R-HSA-197187
|
ACS transforms to QUIN non-enzymatically
|
BibTex
|
|
2025-06-02
|
R-HSA-197250
|
NAMPT transfers PRIB to NAM to form NAMN
|
BibTex
|
|
2025-06-02
|
R-HSA-197235
|
NMNAT2 transfers an adenylyl group from ATP to NAMN to yield NAAD
|
BibTex
|
|
2025-06-02
|
R-HSA-197271
|
NADSYN1 hexamer amidates NAAD to NAD+
|
BibTex
|
|
2025-06-02
|
R-HSA-197198
|
NADK:Zn2+ tetramer phosphorylates NAD+ to NADP+
|
BibTex
|
|
2025-06-02
|
R-HSA-200512
|
NMNAT1 transfers an adenylyl group from ATP to NAMN to yield NAAD
|
BibTex
|
|
2025-06-02
|
R-HSA-197186
|
NAPRT1 dimer transfers PRIB to NCA to form NAMN
|
BibTex
|
|
2025-06-02
|
R-HSA-200474
|
NMNAT3 transfers an adenylyl group from ATP to NAMN to yield NAAD
|
BibTex
|
|
2025-06-02
|
R-HSA-169680
|
IP3 binds to the IP3 receptor, opening the endoplasmic reticulum Ca2+ channel
|
BibTex
|
|
2025-06-02
|
R-HSA-163688
|
Dephosphorylation of pChREBP (Thr 666) by PP2A
|
BibTex
|
|
2025-06-02
|
R-HSA-1676152
|
PI4KB binds to ARF1/3:GTP at the Golgi membrane
|
BibTex
|
|
2025-06-02
|
R-HSA-399998
|
Activated Phospholipase C beta-1 hydrolyzes 1-Phosphatidyl-D-myo-inositol 4,5-bisphosphate
|
BibTex
|
|
2025-06-02
|
R-HSA-400434
|
FFAR1 binds fatty acids
|
BibTex
|
|
2025-06-02
|
R-HSA-434381
|
CD36 (FAT) translocates a long chain fatty acid from the extracellular region to the cytosol
|
BibTex
|
|
2025-06-02
|
R-HSA-434382
|
ACSL3,4 ligates coenzyme A (CoA-SH) to a long chain fatty acid yielding fatty acyl-coenzyme A
|
BibTex
|
|
2025-06-02
|
R-HSA-9673054
|
PM20D1 hydrolyzes oleoyl-phe
|
BibTex
|
|
2025-06-02
|
R-HSA-9673053
|
PM20D1 transforms oleoyl-phe from oleate and phe
|
BibTex
|
|
2025-06-02
|
R-HSA-381713
|
Potassium voltage-gated channels close in reponse to PKA
|
BibTex
|
|
2025-06-02
|
R-HSA-381644
|
ER calcium channels open in response to activated PKA
|
BibTex
|
|
2025-06-02
|
R-HSA-381727
|
RAP1A exchanges GDP for GTP
|
BibTex
|
|
2025-06-02
|
R-HSA-400046
|
L-type Calcium Channels close in pancreatic beta cells
|
BibTex
|
|
2025-06-02
|
R-HSA-400063
|
Low conductance potassium channels in pancreatic beta cells open in response to epinephrine
|
BibTex
|
|
2025-06-02
|
R-HSA-163689
|
PP2A complex dephosphorylates pChREBP (MLXIPL)
|
BibTex
|
|
2025-05-30
|
R-HSA-191380
|
Mevalonate is phosphorylated to mevalonate-5-phosphate
|
BibTex
|
|
2025-05-30
|
R-HSA-6807053
|
SC5D desaturates LTHSOL to 7-dehydroCHOL
|
BibTex
|
|
2025-05-30
|
R-HSA-9945804
|
HSD17B7 reduces 5a-cholest-8-en-3-one to ZYMSTNL
|
BibTex
|
|
2025-05-30
|
R-HSA-9945787
|
NSDHL decarboxylates 4a-carboxy-5a-cholest-8-ene-3b-ol to 5a-cholest-8-en-3-one
|
BibTex
|
|
2025-05-30
|
R-HSA-9947207
|
MSMO1 oxidizes 4a-me-5a-cholest-8-en-3b-ol to 4a-carboxy-5a-cholest-8-ene-3b-ol
|
BibTex
|
|
2025-05-30
|
R-HSA-9945784
|
HSD17B7 reduces 4a-methyl-5a-cholest-8-en-3-one to 4a-methyl-5a-cholest-8-en-3b-ol
|
BibTex
|
|
2025-05-30
|
R-HSA-9945822
|
NSDHL decarboxylates 4a-carboxy-4b-methyl-5a-cholest-8-en-3b-ol to 4a-methyl-5a-cholest-8-en-3b-ol
|
BibTex
|
|
2025-05-30
|
R-HSA-9947203
|
MSMO1 oxidizes 4,4-diMe-5-cholest-8-en-3-ol to 4a-carboxy-4b-me-5a-cholest-8-en-3b-ol
|
BibTex
|
|
2025-05-30
|
R-HSA-9946140
|
TM7SF2 reduces 4,4-diMeCholesta-8,14-dien-3-ol to 4,4-diMe5-cholest-8-en-3-ol
|
BibTex
|
|
2025-05-30
|
R-HSA-9947148
|
CYP51A1 14-demethylates 24,25-dhLAN to 4,4-diMeCholesta-8,14-dien-3-ol
|
BibTex
|
|
2025-05-30
|
R-HSA-76494
|
POR reduces CYP450:Fe3+ to CYP450:Fe2+
|
BibTex
|
|
2025-05-30
|
R-HSA-194642
|
4-methyl,4-carboxycholesta-8(9),24-dien-3beta-ol is decarboxylated and oxidized to form 4-methylcholesta-8(9),24-dien-3-one
|
BibTex
|
|
2025-05-30
|
R-HSA-8952137
|
Phospholipid phosphatase 6 hydrolyses Presqualene diphosphate to presqualene monophosphate
|
BibTex
|
|
2025-05-28
|
R-HSA-163750
|
PP2A complex dephosphorylates pPFKFB1
|
BibTex
|
|
2025-05-28
|
R-HSA-163625
|
Glucagon binds to Glucagon receptor
|
BibTex
|
|
2025-05-23
|
R-HSA-9948070
|
POMGNT1 catalyzes FKRP:FKTN:RXYLT1 formation
|
BibTex
|
|
2025-05-15
|
R-HSA-9948070
|
POMGNT1 catalyzes FKRP:FKTN:RXYLT1 formation
|
BibTex
|
|
2025-05-15
|
R-HSA-9940735
|
FKTN transfers RboP to GalNAc-GlcNAc-ManP-DAG1
|
BibTex
|
|
2025-03-26
|
R-HSA-8856630
|
CIDEA:CIDEC binds lipid droplets
|
BibTex
|
|
2025-03-26
|
R-HSA-8857686
|
FITM2 binds TAGs
|
BibTex
|
|
2025-03-26
|
R-HSA-8858270
|
HILPDA binds lipid droplets
|
BibTex
|
|
2025-03-26
|
R-HSA-9942190
|
FITM1 binds TAGs
|
BibTex
|
|
2025-03-26
|
R-HSA-8862380
|
HSD17B13 binds lipid droplets
|
BibTex
|
|
2025-03-26
|
R-HSA-2564824
|
NADPH reduces NDOR1:CIAPIN1
|
BibTex
|
|
2025-03-26
|
R-HSA-5653886
|
B4GALT1 binds LALBA
|
BibTex
|
|
2025-03-26
|
R-HSA-5653878
|
B4GALT1:LALBA transfers Gal from UDP-Gal to Glc to form Lac
|
BibTex
|
|
2025-03-26
|
R-HSA-5662662
|
Tyrosinase oxidises tyrosine to dopaquinone
|
BibTex
|
|
2025-03-26
|
R-HSA-5662692
|
Dopa is oxidized to dopaquinone by TYR
|
BibTex
|
|
2025-03-26
|
R-HSA-8878581
|
TYRP1 oxidises DHICA to IQCA
|
BibTex
|
|
2025-03-04
|
R-HSA-446195
|
DOLK phosphorylates DCHOL to DOLP
|
BibTex
|
|
2025-03-04
|
R-HSA-446200
|
DOLPP1 dephosphorylates DOLDP to DOLP
|
BibTex
|
|
2025-02-27
|
R-HSA-9929460
|
SDS dimers:PXLP convert L-Ser to PYR and NH4+
|
BibTex
|
|
2025-02-27
|
R-HSA-9773976
|
AKR1E2 reduces 1,5-aF to 1,5-aG
|
BibTex
|
|
2025-02-27
|
R-HSA-9929439
|
ALDH4A1 oxidizes 1PYR-3OH-5COOH
|
BibTex
|
|
2025-02-26
|
R-HSA-446195
|
DOLK phosphorylates DCHOL to DOLP
|
BibTex
|
|
2025-02-26
|
R-HSA-9937340
|
DHRSX reduces dolichal to dolichol
|
BibTex
|
|
2025-02-26
|
R-HSA-9937295
|
SRD5A3 reduces polyprenal to dolichal
|
BibTex
|
|
2025-02-26
|
R-HSA-9937298
|
DHRSX oxidizes polyprenol to polyprenal
|
BibTex
|
|
2025-02-26
|
R-HSA-4419978
|
DHDDS:NUS1 elongates E,E-FPP with (n)IPPP to form pPPP
|
BibTex
|
|
2025-02-26
|
R-HSA-8955794
|
PGP:Mg2+ dimer hydrolyses G3P to glycerol
|
BibTex
|
|
2025-02-25
|
R-HSA-71046
|
glutaryl-CoA + FAD => crotonyl-CoA + FADH2 + CO2
|
BibTex
|
|
2025-02-25
|
R-HSA-9858590
|
DLST transfers glutaryl to CoA
|
BibTex
|
|
2025-02-25
|
R-HSA-8954513
|
NAASP translocates from mitochondrial matrix to cytosol
|
BibTex
|
|
2025-02-25
|
R-HSA-70941
|
alpha-aminoadipoate semialdehyde + NAD+ => alpha-aminoadipate + NADH + H+
|
BibTex
|
|
2025-02-25
|
R-HSA-5696021
|
ADPGK:Mg2+ phosphorylates Glc to G6P
|
BibTex
|
|
2025-02-25
|
R-HSA-9035484
|
MPST and TXN2 enable the synthesis of disulfanide from CysS248-MPST
|
BibTex
|
|
2025-02-25
|
R-HSA-1655879
|
Thiosulfate can transfer its sulfur atom to glutathione
|
BibTex
|
|
2025-02-25
|
R-HSA-1614591
|
Excess cysteine yields lanthionine and H2S
|
BibTex
|
|
2025-02-25
|
R-HSA-1614583
|
PXLP-K212-CTH cleaves L-Cystathionine
|
BibTex
|
|
2025-02-25
|
R-HSA-1237119
|
Acireductone is oxidized to MOB
|
BibTex
|
|
2025-02-25
|
R-HSA-1237129
|
Acireductone is created
|
BibTex
|
|
2025-02-25
|
R-HSA-1614614
|
Cysteine is degraded to pyruvate and H2S
|
BibTex
|
|
2025-02-25
|
R-HSA-1614567
|
Excess homocysteine yields homolanthionine and H2S
|
BibTex
|
|
2025-02-25
|
R-HSA-1614631
|
Homocysteine is degraded to oxobutanoate and H2S
|
BibTex
|
|
2025-02-25
|
R-HSA-5696408
|
PXLP-K278-PHYKPL tetramer hydrolyses 5PHL
|
BibTex
|
|
2025-02-25
|
R-HSA-8955817
|
PRODH2 oxidises HPRO to 1PYR-3OH-5COOH
|
BibTex
|
|
2025-02-25
|
R-HSA-70670
|
PRODH oxidises L-Pro to 1PYR-5COOH
|
BibTex
|
|
2025-02-25
|
R-HSA-6784224
|
PRODH2:FAD dimer dehydrogenates HPRO to 1-pyrroline-3-hydroxy-5-carboxylate
|
BibTex
|
|
2025-02-25
|
R-HSA-6784402
|
ALDH4A1 converts 1PYR-3OH-5COOH to 4-OH-L-glutamate
|
BibTex
|
|
2025-02-25
|
R-HSA-6784393
|
PXLP-K279-GOT2 dimer transaminates 4-OH-L-glutamate to 4-hydroxy-2-oxoglutarate (HOG)
|
BibTex
|
|
2025-02-25
|
R-HSA-5693977
|
AMT transfers NH2CH2 from GCSH:SAMDLL to THF
|
BibTex
|
|
2025-02-25
|
R-HSA-5693967
|
PXLP-K754-GLDC dimer decarboxylates Gly
|
BibTex
|
|
2025-02-25
|
R-HSA-6798317
|
GNMT tetramer transfers methyl group from AdoMet to Gly to form AdoHyc and SARC
|
BibTex
|
|
2025-02-25
|
R-HSA-9014741
|
PXLP-K56-SRR dimer deaminates D-Ser
|
BibTex
|
|
2025-02-25
|
R-HSA-2160492
|
IL4I1:FAD oxidises L-Phe to kPPV
|
BibTex
|
|
2025-02-25
|
R-HSA-893593
|
phenylalanine + pyruvate => keto-phenylpyruvate + alanine
|
BibTex
|
|
2025-02-25
|
R-HSA-5333612
|
MeSebGalNac is oxidatively cleaved to MeSeO2H and 2-acetamidoglucal
|
BibTex
|
|
2025-02-25
|
R-HSA-5333608
|
GSSebGalNac is reduced and methylated to MeSebGalNac
|
BibTex
|
|
2025-02-25
|
R-HSA-5333607
|
GSSeH combines with bGalNAc derivative to form GSSebGalNac
|
BibTex
|
|
2025-02-25
|
R-HSA-2408556
|
SeO3(2-) combines with GSH to form GSSeSG and GSSG
|
BibTex
|
|
2025-02-25
|
R-HSA-2408524
|
Sec is reduced to H2Se by PXLP-K259-SCLY dimer
|
BibTex
|
|
2025-02-25
|
R-HSA-2408543
|
SeCysta is hydrolysed to Sec by PXLP-K212-CTH
|
BibTex
|
|
2025-02-25
|
R-HSA-2408544
|
AdoSeMet is converted to AdeSeHCys by MetTrans(1)
|
BibTex
|
|
2025-02-25
|
R-HSA-5333609
|
MeSebGalNac is hydrolysed to MeSeH and bGalNac
|
BibTex
|
|
2025-02-25
|
R-HSA-2408537
|
Excess SeMet is cleaved into MeSeH by PXLP-K212-CTH
|
BibTex
|
|
2025-02-25
|
R-HSA-2408539
|
MeSec is hydrolysed to MeSeH by PXLP-K212-CTH
|
BibTex
|
|
2025-02-25
|
R-RNO-2408538
|
MeSec is hydrolysed to MeSeH by PXLP-K211-Cth
|
BibTex
|
|
2025-02-25
|
R-HSA-8959510
|
SEPHS2 phosphorylates H2Se to form SELP
|
BibTex
|
|
2025-02-25
|
R-HSA-2408529
|
Sec-tRNA(Sec):EEFSEC:GTP binds to 80S Ribosome
|
BibTex
|
|
2025-02-25
|
R-HSA-2408509
|
Sec-tRNA(Sec) binds to EEFSEC:GTP
|
BibTex
|
|
2025-02-25
|
R-HSA-2408555
|
Sep-tRNA(Sec) is converted to Sec-tRNA(Sec) by PXLP-K284-SEPSECS tetramer
|
BibTex
|
|
2025-02-25
|
R-HSA-2408526
|
tRNA(Sec) is serylated to Ser-tRNA(Sec) by SARS dimer
|
BibTex
|
|
2025-02-25
|
R-HSA-70679
|
ALDH4A1 oxidises L-GluSS to Glu
|
BibTex
|
|
2025-02-25
|
R-HSA-71189
|
AFMID hydrolyses NFK to L-KYN
|
BibTex
|
|
2025-02-25
|
R-HSA-71217
|
3-hydroxykynurenine + H2O => 3-hydroxyanthranilate + alanine + H+
|
BibTex
|
|
2025-02-25
|
R-HSA-893596
|
PXLP-KYAT1 dimer transaminates L-KYN to KYNA
|
BibTex
|
|
2025-02-25
|
R-HSA-71223
|
2-amino-3-carboxymuconate semialdehyde => 2-aminomuconate semialdehyde + CO2
|
BibTex
|
|
2025-02-25
|
R-HSA-901097
|
PXLP-KYAT3 (CCBL2) dimer transaminates L-KYN to KYNA
|
BibTex
|
|
2025-02-25
|
R-HSA-9014641
|
HRSP12 deaminates 2-iminobutanoate to 2OBUTA
|
BibTex
|
|
2025-02-25
|
R-HSA-9014627
|
SDS dimers:PXLP convert L-Thr to 2OBUTA
|
BibTex
|
|
2025-02-25
|
R-HSA-9013198
|
TST transfers sulfur from S2O3(2-) to HCN to form HSCN
|
BibTex
|
|
2025-02-25
|
R-HSA-6814165
|
PXLP-K333-GADL1 decarboxylates CSA to HTAU
|
BibTex
|
|
2025-02-25
|
R-HSA-1655453
|
FMO1:FAD oxidizes HTAU to TAU
|
BibTex
|
|
2025-02-25
|
R-HSA-1655443
|
PXKLP-K305-CSAD decarboxylates 3-sulfinoalanine to hypotaurine
|
BibTex
|
|
2025-02-25
|
R-HSA-1614645
|
CDO1:Fe2+ oxidises L-Cys to 3-Sulfinoalanine
|
BibTex
|
|
2024-11-19
|
R-HSA-200729
|
SLC46A1 transports FOLA from extracellular region to cytosol
|
BibTex
|
|
2024-11-19
|
R-HSA-200646
|
Cytosolic folate export across the plasma membrane
|
BibTex
|
|
2024-08-02
|
R-HSA-428990
|
SLC27A1 transports arachidonate across the ER membrane
|
BibTex
|
|
2024-08-02
|
R-HSA-111883
|
PLA2G4A (cPLA2) hydrolyzes phosphatidylcholine
|
BibTex
|
|
2024-08-02
|
R-HSA-111881
|
Phospho-cPLA2 translocates to membranes when intracellular calcium levels increase
|
BibTex
|
|
2024-08-02
|
R-MMU-9915559
|
Slc27a1 transports arachidonate across the ER membrane
|
BibTex
|
|
2024-08-02
|
R-HSA-3159259
|
MMAA:MUT binds AdoCbl
|
BibTex
|
|
2024-08-02
|
R-HSA-3149563
|
MMADHC targets transport of cytosolic cob(II)alamin to mitochondria
|
BibTex
|
|
2024-08-02
|
R-HSA-70893
|
methylmalonate semialdehyde + NAD+ + CoA + H2O => propionyl-CoA + HCO3- + NADH + H+
|
BibTex
|
|
2024-08-02
|
R-HSA-70881
|
beta-hydroxyisobutyryl-CoA + H2O => beta-hydroxyisobutyrate + CoA
|
BibTex
|
|
2024-08-02
|
R-HSA-70859
|
isobutyryl-CoA + FAD => methacrylyl-CoA + FADH2
|
BibTex
|
|
2024-08-02
|
R-HSA-70800
|
alpha-methylbutyryl-CoA + FAD => tiglyl-CoA + FADH2
|
BibTex
|
|
2024-08-02
|
R-HSA-390393
|
Peroxisomal uptake of very long-chain fatty acyl CoA
|
BibTex
|
|
2024-08-02
|
R-HSA-9914143
|
SLC27A2-mediated ligation of peroxisomal fatty acid and CoASH
|
BibTex
|
|
2024-08-02
|
R-HSA-70773
|
beta-methylcrotonyl-CoA + ATP + HCO3- <=> beta-methylglutaconyl-CoA + ADP + orthophosphate + H2O (MCCA)
|
BibTex
|
|
2024-08-02
|
R-HSA-8848247
|
ACBD4,5 bind MCFA-CoA and LCFA-CoA
|
BibTex
|
|
2024-08-02
|
R-HSA-6786720
|
DECR2 reduces a (2E,4E)-dienoyl-CoA to a 4,5-saturated-(3E)-enoyl-CoA
|
BibTex
|
|
2024-08-02
|
R-HSA-977317
|
malonyl-CoA is decarboxylated to acetyl-CoA in peroxisome
|
BibTex
|
|
2024-08-02
|
R-HSA-5690042
|
Peroxisomal ACOT4,6,8 hydrolyse MCFA-CoA, LCFA-CoA
|
BibTex
|
|
2024-08-02
|
R-HSA-389609
|
ALDH3A2-2 oxidizes pristanal to pristanate
|
BibTex
|
|
2024-08-02
|
R-HSA-390276
|
Conversion of 4,8,12-trimethyltridecanoyl-CoA to 4,8-dimethylnonanoyl-CoA
|
BibTex
|
|
2024-08-02
|
R-HSA-390304
|
acetyl-CoA + H2O => acetate + CoASH + H+
|
BibTex
|
|
2024-08-02
|
R-HSA-6809354
|
NUDT7 hydrolyses CoA-SH to 3',5'-ADP and PPANT
|
BibTex
|
|
2024-08-02
|
R-HSA-6810474
|
NUDT19 hydrolyses acyl-CoA to 3',5'-ADP and acyl-PPANT
|
BibTex
|
|
2024-08-02
|
R-HSA-9911362
|
CPT1B transfers PALM to CAR
|
BibTex
|
|
2024-08-02
|
R-HSA-203613
|
Depalmitoylation of eNOS
|
BibTex
|
|
2024-08-02
|
R-HSA-203567
|
Palmitoylation of eNOS
|
BibTex
|
|
2024-08-02
|
R-HSA-203611
|
N-myristoylation of eNOS
|
BibTex
|
|
2024-08-02
|
R-HSA-1497796
|
BH2 binding can lead to eNOS uncoupling
|
BibTex
|
|
2024-08-02
|
R-HSA-202127
|
eNOS synthesizes NO
|
BibTex
|
|
2024-08-02
|
R-HSA-1497784
|
The cofactor BH4 is required for electron transfer in the eNOS catalytic cycle
|
BibTex
|
|
2024-08-02
|
R-HSA-202111
|
AKT1 phosphorylates eNOS
|
BibTex
|
|
2024-08-02
|
R-HSA-202137
|
AKT1 binds eNOS complex via HSP90
|
BibTex
|
|
2024-08-02
|
R-HSA-202144
|
Caveolin-1 dissociates from eNOS:CaM:HSP90 complex
|
BibTex
|
|
2024-08-02
|
R-HSA-202129
|
HSP90 binds eNOS:Caveolin-1:CaM complex
|
BibTex
|
|
2024-08-02
|
R-HSA-202110
|
eNOS:Caveolin-1 complex binds to CaM
|
BibTex
|
|
2024-08-02
|
R-HSA-203712
|
eNOS associates with Caveolin-1
|
BibTex
|
|
2024-08-02
|
R-HSA-5340226
|
CYGB dioxygenates NO
|
BibTex
|
|
2024-08-02
|
R-HSA-203553
|
eNOS binds NOSIP
|
BibTex
|
|
2024-08-02
|
R-HSA-203680
|
eNOS:NOSIP translocation from caveolae to intracellular compartments
|
BibTex
|
|
2024-08-02
|
R-HSA-203716
|
eNOS:Caveolin-1 complex binds to Nostrin
|
BibTex
|
|
2024-08-02
|
R-HSA-203565
|
eNOS:Caveolin-1:NOSTRIN:dynamin-2 complex binds N-WASP
|
BibTex
|
|
2024-08-02
|
R-HSA-203662
|
eNOS:Caveolin-1:NOSTRIN complex binds dynamin-2
|
BibTex
|
|
2024-08-02
|
R-HSA-5340195
|
NR1H4 binds DCA, CDCA, LCHA
|
BibTex
|
|
2024-08-02
|
R-HSA-193101
|
CYP11A1 cleaves 20a,22b-DHCHOL
|
BibTex
|
|
2024-08-02
|
R-HSA-266070
|
LTC4 is exported from the cytosol by ABCC1
|
BibTex
|
|
2024-08-02
|
R-HSA-429016
|
ALOX5 is phosphorylated by MAPKAP2
|
BibTex
|
|
2024-08-02
|
R-HSA-1449687
|
Corticosteroids bind to CBG in blood
|
BibTex
|
|
2024-08-02
|
R-HSA-193997
|
CYP11B1 oxidises 11DCORT
|
BibTex
|
|
2024-08-02
|
R-HSA-193060
|
CYP19A1 hydroxylates ANDST to E1
|
BibTex
|
|
2024-08-02
|
R-HSA-194017
|
CYP11B2 oxidises 11DCORST to CORST
|
BibTex
|
|
2024-08-02
|
R-HSA-193995
|
CYP11B2 18-hydroxylates CORST to 18HCORST
|
BibTex
|
|
2024-08-02
|
R-HSA-193965
|
CYP11B2 oxidises 18HCORST to ALDO
|
BibTex
|
|
2024-08-02
|
R-HSA-140359
|
PGG2 is reduced to PGH2 by PTGS1
|
BibTex
|
|
2024-08-02
|
R-HSA-2309773
|
PGG2 is reduced to PGH2 by PTGS2
|
BibTex
|
|
2024-08-02
|
R-HSA-5433074
|
ACY1:Zn2+ dimer hydrolyses mercapturic acids
|
BibTex
|
|
2024-08-02
|
R-HSA-5433066
|
Unknown NAT transfers COCH3 to AFXBO-C, AFNBO-C
|
BibTex
|
|
2024-08-02
|
R-HSA-9638046
|
ACY3:Zn2+ dimer hydrolyses mercapturic acids
|
BibTex
|
|
2024-08-02
|
R-HSA-2161659
|
PGE2 is dehydrated to PGA2
|
BibTex
|
|
2024-08-02
|
R-HSA-2161666
|
PGA2 is isomerised to PGC2
|
BibTex
|
|
2024-08-02
|
R-HSA-2161735
|
PGC2 is isomerised to PGB2
|
BibTex
|
|
2024-08-02
|
R-HSA-9716836
|
PTGS2 dimer binds PTGS inhibitors
|
BibTex
|
|
2024-08-02
|
R-HSA-9716838
|
PTGS1,2 dimers bind PTGS Inhibitors
|
BibTex
|
|
2024-08-02
|
R-HSA-2161795
|
Arachidonate is hydroxylated to 16-HETE by CYP(1)
|
BibTex
|
|
2024-08-02
|
R-HSA-9915993
|
Arachidonate is hydroxylated to 18-HETE by CYP(1)
|
BibTex
|
|
2024-08-02
|
R-HSA-9915992
|
Arachidonate is hydroxylated to 17-HETE by CYP(1)
|
BibTex
|
|
2024-08-02
|
R-HSA-9915971
|
Arachidonate is epoxidated to 11,12-EET by CYP(5)
|
BibTex
|
|
2024-08-02
|
R-HSA-9915986
|
11,12-EET is hydrolysed to 11,12-DHET by EPHX2
|
BibTex
|
|
2024-08-02
|
R-HSA-9915968
|
8,9-EET is hydrolysed to 8.9-DHET by EPHX2
|
BibTex
|
|
2024-08-02
|
R-HSA-2161899
|
Arachidonate is epoxidated to 8,9-EET by CYP(5)
|
BibTex
|
|
2024-08-02
|
R-HSA-2161961
|
5,6-EET is hydrolysed to 5,6-DHET by EPHX2
|
BibTex
|
|
2024-08-02
|
R-HSA-9915997
|
Arachidonate is epoxidated to 14,15-EET by CYP(5)
|
BibTex
|
|
2024-08-02
|
R-HSA-9915994
|
14,15-EET is hydrolysed to 14,15-DHET by EPHX2
|
BibTex
|
|
2024-08-02
|
R-HSA-200423
|
pAMPK inactivates ACACB, inhibiting malonyl-CoA synthesis
|
BibTex
|
|
2024-08-02
|
R-HSA-75851
|
Btn-ACACA:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA
|
BibTex
|
|
2024-08-02
|
R-HSA-8876889
|
Btn-ACACB:2Mn2+ polymer carboxylates Ac-CoA to form Mal-CoA
|
BibTex
|
|
2024-08-02
|
R-HSA-9026408
|
PTGS2 dimer oxidises DPAn-3 to 13(R)-HDPAn-3
|
BibTex
|
|
2024-08-02
|
R-HSA-2161775
|
ALOX12 oxidises LTA4 to LXA4
|
BibTex
|
|
2024-08-02
|
R-HSA-2161844
|
15k-LXA4 is reduced to dhk-LXA4 by PTGR1
|
BibTex
|
|
2024-08-02
|
R-SSC-2161847
|
15k-LXA4 is reduced to dhk-LXA4 by PTGR1
|
BibTex
|
|
2024-08-02
|
R-HSA-9916401
|
ALOX12 oxidises LTA4 to LXB4
|
BibTex
|
|
2024-08-02
|
R-HSA-9024993
|
EPHX2 dimer hydrolyses 13(S),14(S)-epoxy-DHA to MaR2
|
BibTex
|
|
2024-08-02
|
R-HSA-9024766
|
HPGD dimer oxidises RvD1 to 17(S)-oxo-RvD1 and 8-oxo-17(S)-RvD1
|
BibTex
|
|
2024-08-02
|
R-HSA-9027532
|
PTGS2 dimer oxidises DHA to 13-HDHA
|
BibTex
|
|
2024-08-02
|
R-HSA-9032323
|
oxo-DPAn-3s translocate from cytosol to extracellular region
|
BibTex
|
|
2024-08-02
|
R-HSA-9032327
|
5-oxo-EPA, 15d-PGJ3 translocate from cytosol to extracellular region
|
BibTex
|
|
2024-08-02
|
R-HSA-9032315
|
oxo-DHAs translocate from cytosol to extracellular region
|
BibTex
|
|
2024-08-02
|
R-HSA-9018901
|
5-HEDH dehydrogenates 5(S)-Hp-18(R)-HEPE to 18(R)-RvE2
|
BibTex
|
|
2024-08-02
|
R-HSA-9018867
|
5-HEDH dehydrogenates 5(S)-Hp-18(S)-HpEPE to 18(S)-RvE2
|
BibTex
|
|
2024-07-19
|
R-HSA-3149494
|
MMACHC:cob(II)alamin binds MMADHC
|
BibTex
|
|
2024-07-19
|
R-HSA-9759549
|
Cob(I)alamin bound to MMACHC is oxidized to cob(II)alamin
|
BibTex
|
|
2024-07-19
|
R-HSA-3204318
|
cob(II)alamin is transferred from MMACHC:MMADHC:cob(II)alamin to MTRR:MTR
|
BibTex
|
|
2024-07-19
|
R-HSA-173597
|
UDP-glucose is oxidised to UDP-glucuronate
|
BibTex
|
|
2024-07-19
|
R-HSA-70286
|
UTP + D-glucose 1-phosphate => pyrophosphate + UDP-glucose
|
BibTex
|
|
2024-07-19
|
R-HSA-9912889
|
SLC35D2 exchanges UDP-GlcA for UMP
|
BibTex
|
|
2024-05-24
|
R-HSA-9866162
|
Late core complex dimerizes
|
BibTex
|
|
2024-05-24
|
R-SCE-9866165
|
Late core complex dimer binds QCR9. QCR10, RIP1
|
BibTex
|
|
2024-05-16
|
R-HSA-9866217
|
HCCS inserts heme into cytochrome c
|
BibTex
|
|
2024-05-16
|
R-HSA-169270
|
ETFDH oxidises ETF (reduced) to ETF, reduces CoQ to CoQH2
|
BibTex
|
|
2024-05-16
|
R-HSA-164651
|
Electron transfer from ubiquinol to cytochrome c of complex III
|
BibTex
|
|
2024-05-16
|
R-HSA-163217
|
Complex I oxidises NADH to NAD+, reduces CoQ to CoQH2
|
BibTex
|
|
2024-05-16
|
R-HSA-163214
|
Electron transfer from reduced cytochrome c to molecular oxygen
|
BibTex
|
|
2024-05-16
|
R-HSA-163213
|
Transfer of electrons through the succinate dehydrogenase complex
|
BibTex
|
|
2024-05-16
|
R-HSA-170026
|
UCP1 imports a proton
|
BibTex
|
|
2024-05-16
|
R-HSA-9864415
|
AAC1 imports a proton
|
BibTex
|
|
2024-05-16
|
R-HSA-6788556
|
NUBPL transfers 4Fe-4S to NDUFV1, V2
|
BibTex
|
|
2024-05-16
|
R-HSA-6788523
|
NUBPL transfers 4Fe-4S to Complex I subunits
|
BibTex
|
|
2024-05-16
|
R-HSA-6799191
|
Intermediate 2 binds MT-ND1:NDUFAF5:NDUFAF6 to form a 315kDa subcomplex
|
BibTex
|
|
2024-05-16
|
R-HSA-6799178
|
Intermediate 1 binds HP subcomplex to form Intermediate 2
|
BibTex
|
|
2024-05-16
|
R-HSA-6799199
|
COA1:MT-ND2, TMEM186:MT-ND3, MT-ND6, NDUFB6 bind the MCIA complex to form a 370kDa subcomplex
|
BibTex
|
|
2024-05-16
|
R-HSA-6799197
|
ND4, ND5 bind the 550kDa complex to form the 815kDa complex
|
BibTex
|
|
2024-05-16
|
R-HSA-9906955
|
MT-ND4 is translated
|
BibTex
|
|
2024-05-16
|
R-HSA-9865350
|
Nascent MT-CO1 binds to MITRAC, Mg2+, PE, CL
|
BibTex
|
|
2024-05-16
|
R-HSA-9865663
|
MT-CO3, COX6A,B,7A and NDUFA4 bind to holo-MT-CO1,2 complex
|
BibTex
|
|
2024-05-16
|
R-HSA-9865579
|
MT-CO1 and MT-CO2 complexes associate, installing heme moieties
|
BibTex
|
|
2024-05-16
|
R-HSA-9865569
|
MT-CO2 mRNA is translated
|
BibTex
|
|
2024-05-16
|
R-HSA-9865630
|
Metallochaperone inserts 2Cu2+ into MT-CO2
|
BibTex
|
|
2024-05-16
|
R-HSA-9902096
|
COX18 inserts nascent MT-CO2 in COX20:TMEM77
|
BibTex
|
|
2024-05-16
|
R-HSA-9865449
|
Metallochaperone inserts Cu2+ into MT-CO1
|
BibTex
|
|
2024-05-16
|
R-HSA-9865412
|
TIMM21 carries COX4, COX5A, COX6C to MT-CO1:MITRAC
|
BibTex
|
|
2024-05-16
|
R-HSA-9865309
|
MT-CO1 mRNA is translated
|
BibTex
|
|
2024-05-16
|
R-HSA-9866272
|
2Fe-2S is inserted in UQCRFS1
|
BibTex
|
|
2024-05-16
|
R-HSA-9866253
|
apo-UQCRFS1 binds LYRM7
|
BibTex
|
|
2024-05-16
|
R-HSA-9906042
|
TTC19 clears UQCRFS1 fragments from Complex III
|
BibTex
|
|
2024-05-16
|
R-HSA-9906017
|
Unknown peptidase cleaves UQCRFS1 subunit
|
BibTex
|
|
2024-05-16
|
R-HSA-9866164
|
Late core complex dimer binds UQCR10, UQCR11, UQCRFS1.
|
BibTex
|
|
2024-05-16
|
R-HSA-9866132
|
Intermediate II binds CYC1, UQCRC1, UQCRC2, UQCRH
|
BibTex
|
|
2024-05-16
|
R-HSA-9866104
|
Intermediate I binds second heme, UQCRB, UQCRQ
|
BibTex
|
|
2024-05-16
|
R-HSA-9866061
|
Intermediate 0 binds heme and UQCC3
|
BibTex
|
|
2024-05-16
|
R-HSA-9865893
|
MT-CYB is translated
|
BibTex
|
|
2024-05-16
|
R-SCE-9865912
|
CYTB is translated
|
BibTex
|
|
2024-05-16
|
R-SCE-9866071
|
CYTB binds heme and CBP4
|
BibTex
|
|
2024-05-16
|
R-SCE-9866108
|
CYTB binds second heme, QCR7, QCR8
|
BibTex
|
|
2024-05-16
|
R-SCE-9866128
|
CYTB:QCR7:QCR8 binds CYT1, COR1, COR2, QCR6
|
BibTex
|
|
2024-05-16
|
R-SCE-9866173
|
Late core complex dimerizes
|
BibTex
|
|
2024-05-15
|
R-HSA-9909159
|
HK1 phosphorylates Mannose to Man6P
|
BibTex
|
|
2024-05-15
|
R-HSA-532549
|
MPI isomerises Fru6P to Man6P
|
BibTex
|
|
2024-05-15
|
R-HSA-446201
|
PMM1,2 isomerise Man6P to Man1P
|
BibTex
|
|
2024-05-15
|
R-HSA-446221
|
GMPPB converts Mannose-1-phosphate to GDP-Mannose
|
BibTex
|
|
2024-04-12
|
R-HSA-163756
|
Formation of fatty acid synthase (FAS) dimer
|
BibTex
|
|
2024-04-12
|
R-HSA-200555
|
Formation of Malonyl-CoA from Acetyl-CoA (liver)
|
BibTex
|
|
2024-04-12
|
R-HSA-5690517
|
PPT1 hydrolyses palmitoylated proteins
|
BibTex
|
|
2024-04-12
|
R-HSA-5655955
|
OLAH hydrolyzes decanoyl-FASN dimer to DECA and FASN dimer
|
BibTex
|
|
2024-04-12
|
R-HSA-548814
|
ELOVL3,6,7 elongate PALM-CoA and Mal-CoA to 3OOD-CoA
|
BibTex
|
|
2024-04-12
|
R-HSA-548830
|
ELOVL1,4 elongate TCS-CoA and Mal-CoA to 3OHC-CoA
|
BibTex
|
|
2024-04-12
|
R-MMU-548848
|
lignoceroyl-CoA + malonyl-CoA => 3-oxocerotoyl-CoA + CO2 + CoASH [Elovl4]
|
BibTex
|
|
2024-04-12
|
R-HSA-548815
|
ELOVL7 elongates ICS-CoA and Mal-CoA to 3ODC-CoA
|
BibTex
|
|
2024-04-12
|
R-HSA-548800
|
ELOVL1,2,3,5 elongate AA-CoA and Mal-CoA to 3ODCT-CoA
|
BibTex
|
|
2024-04-12
|
R-HSA-5690046
|
PPT2 hydrolyses PALMCoA to PALM
|
BibTex
|
|
2024-04-12
|
R-HSA-9734540
|
ACLY tetramer binds ETC-1002-CoA
|
BibTex
|
|
2024-04-04
|
R-HSA-194017
|
CYP11B2 oxidises 11DCORST to CORST
|
BibTex
|
|
2024-04-04
|
R-HSA-193995
|
CYP11B2 18-hydroxylates CORST to 18HCORST
|
BibTex
|
|
2024-04-04
|
R-HSA-193965
|
CYP11B2 oxidises 18HCORST to ALDO
|
BibTex
|
|
2024-03-01
|
R-HSA-9863531
|
GS-MCA spontaneously hydrolyzes
|
BibTex
|
|
2024-02-23
|
R-HSA-9012268
|
ME2 tetramer decarboxylates MAL to PYR
|
BibTex
|
|
2024-02-23
|
R-HSA-9012349
|
ME3 tetramer decarboxylates MAL to PYR
|
BibTex
|
|
2024-02-23
|
R-HSA-203946
|
PDK isozymes phosphorylate PDHC subunit E1
|
BibTex
|
|
2024-02-23
|
R-HSA-9861667
|
DLAT trimer transfers acetyl to CoA
|
BibTex
|
|
2024-02-23
|
R-HSA-9861734
|
PDH E1 decarboxylates PYR, transferring acetyl to DLAT
|
BibTex
|
|
2024-02-23
|
R-HSA-372342
|
MPC1:MPC2 imports PYR, H+ to mitochondrial matrix
|
BibTex
|
|
2024-02-23
|
R-HSA-71670
|
Pyruvate kinase dephosphorylates PEP to PYR
|
BibTex
|
|
2024-02-23
|
R-HSA-70501
|
PC carboxylates PYR to OA
|
BibTex
|
|
2024-02-23
|
R-HSA-9012016
|
FAHD1 dimer hydrolyses OA to PYR
|
BibTex
|
|
2024-02-23
|
R-HSA-204169
|
PDP1,2 dephosphorylate p-lipo-PDH
|
BibTex
|
|
2024-02-23
|
R-HSA-9861616
|
DLD dimer dehydrogenates dihydrolipoyl
|
BibTex
|
|
2024-02-23
|
R-HSA-6807826
|
LDHAL6B reduces PYR to LACT
|
BibTex
|
|
2024-02-23
|
R-HSA-70523
|
PXLP-K314-GPT transaminates L-Ala to form PYR
|
BibTex
|
|
2024-02-23
|
R-HSA-70510
|
LDH tetramer oxidises LACT to PYR
|
BibTex
|
|
2024-02-23
|
R-HSA-71849
|
LDH tetramer reduces PYR to LACT
|
BibTex
|
|
2024-02-23
|
R-HSA-9861660
|
ME1 tetramer decarboxylates OA to PYR
|
BibTex
|
|
2024-02-23
|
R-HSA-9861631
|
ME1 tetramerizes
|
BibTex
|
|
2024-02-23
|
R-HSA-9861725
|
PGAM5 dodecamer dephosphorylates p-S336-ME1
|
BibTex
|
|
2024-02-23
|
R-HSA-9861642
|
NEK1 phosphorylates ME1
|
BibTex
|
|
2024-02-23
|
R-HSA-9012036
|
ME1 tetramer decarboxylates MAL to PYR
|
BibTex
|
|
2024-02-23
|
R-HSA-9012374
|
VDAC1 transports PYR from cytosol to mitochondrial intermembrane space
|
BibTex
|
|
2024-02-23
|
R-HSA-9011543
|
DCA binds PDK2
|
BibTex
|
|
2024-02-23
|
R-HSA-9011595
|
GSTZ1 dimer dehalogenates DCA
|
BibTex
|
|
2024-02-23
|
R-HSA-9861626
|
SIRT4 cleaves lipoyl from DLAT
|
BibTex
|
|
2024-02-23
|
R-HSA-9861563
|
CTLH E3 ligase ubiquitinates LDHA
|
BibTex
|
|
2024-02-23
|
R-HSA-9861640
|
CTLH E3 ligase ubiquitinates PKM-1
|
BibTex
|
|
2024-02-23
|
R-HSA-9861745
|
Mitochondrial H2O2 decarboxylates PYR to acetate
|
BibTex
|
|
2024-02-23
|
R-HSA-9861595
|
Cytosolic H2O2 decarboxylates PYR to acetate
|
BibTex
|
|
2024-02-20
|
R-HSA-6792572
|
LIPT1 transfers lipoyl group from lipoyl-GCSH to DBT/DLST
|
BibTex
|
|
2024-02-20
|
R-HSA-6793591
|
LIAS synthesizes lipoyl-GCSH
|
BibTex
|
|
2024-02-20
|
R-HSA-6793590
|
LIPT2 transfers octanoyl group to GCSH
|
BibTex
|
|
2024-02-20
|
R-HSA-9858752
|
LIPT1 transfers lipoyl group from lipoyl-GCSH to DLAT
|
BibTex
|
|
2024-02-16
|
R-HSA-9855212
|
SDHA binds to SDHB
|
BibTex
|
|
2024-02-16
|
R-HSA-9854315
|
CSKMT methylates Citrate Synthase
|
BibTex
|
|
2024-02-16
|
R-HSA-189421
|
CPO transforms COPRO3 to PPGEN9
|
BibTex
|
|
2024-02-16
|
R-HSA-189425
|
UROD decarboxylates URO3 to COPRO3
|
BibTex
|
|
2024-02-16
|
R-HSA-189439
|
ALAD condenses 2 dALAs to form PBG
|
BibTex
|
|
2024-02-16
|
R-HSA-190182
|
UROD decarboxylates URO1 to COPRO1
|
BibTex
|
|
2024-02-16
|
R-HSA-2995334
|
COX15 transforms heme O to heme A
|
BibTex
|
|
2024-02-16
|
R-HSA-190141
|
ALAD binds to Pb2+
|
BibTex
|
|
2024-02-16
|
R-HSA-5690873
|
ACO1 binds 4Fe-4S
|
BibTex
|
|
2024-02-16
|
R-HSA-917979
|
ABCG2 tetramer transports heme from cytosol to extracellular region
|
BibTex
|
|
2024-02-16
|
R-HSA-5690886
|
ACO1, IREB2 bind IREs in TFRC, ALAD, FTL, FTH1 mRNAs
|
BibTex
|
|
2024-02-15
|
R-HSA-9856871
|
MDH1 reduces OA
|
BibTex
|
|
2024-02-15
|
R-HSA-450971
|
NNT dimer transfers proton from NADPH to NAD+
|
BibTex
|
|
2024-02-15
|
R-HSA-450984
|
IDH2 dimer decarboxylates isocitrate
|
BibTex
|
|
2024-02-15
|
R-HSA-70971
|
ACO2 isomerizes citrate
|
BibTex
|
|
2024-02-15
|
R-HSA-70975
|
CS acetylates OA to citrate
|
BibTex
|
|
2024-02-15
|
R-HSA-70979
|
MDH2 dimer dehydrogenates MAL
|
BibTex
|
|
2024-02-15
|
R-HSA-70982
|
FH tetramer hydrates fumarate to L-malate
|
BibTex
|
|
2024-02-15
|
R-HSA-70994
|
SDH complex dehydrogenates succinate
|
BibTex
|
|
2024-02-15
|
R-HSA-9855252
|
SDHA:SDHB binds to SDHC:SDHD
|
BibTex
|
|
2024-02-15
|
R-HSA-9854961
|
SDHAF4 binds to FAD-SDHA
|
BibTex
|
|
2024-02-15
|
R-HSA-9854672
|
FAD attaches to SDHA
|
BibTex
|
|
2024-02-15
|
R-HSA-9854984
|
Transfer of Fe-S clusters to SDHB
|
BibTex
|
|
2024-02-15
|
R-HSA-70997
|
SUCLG1/A2 cleaves succinyl-CoA
|
BibTex
|
|
2024-02-15
|
R-HSA-71401
|
OGDH dimer decarboxylates 2-OG
|
BibTex
|
|
2024-02-15
|
R-HSA-70967
|
IDH3 complex decarboxylates isocitrate
|
BibTex
|
|
2024-02-15
|
R-HSA-9853512
|
DLST transfers succinyl to CoA
|
BibTex
|
|
2024-02-15
|
R-HSA-9853499
|
DLD dimer dehydrogenates dihydrolipoyl
|
BibTex
|
|
2024-02-15
|
R-HSA-71775
|
SUCLG1/G2 cleaves succinyl-CoA
|
BibTex
|
|
2024-02-15
|
R-HSA-9854415
|
ACAT1 tetramer acetylates IDH2 dimer
|
BibTex
|
|
2024-02-15
|
R-HSA-9854463
|
SIRT3 deacetylates AcK-IDH2 dimer
|
BibTex
|
|
2024-02-15
|
R-HSA-9854368
|
ROS,RNS oxidize ACO2:4Fe-4S
|
BibTex
|
|
2024-02-15
|
R-HSA-9854405
|
Frataxin transfers Fe2+ to ACO2
|
BibTex
|
|
2024-02-13
|
R-HSA-163691
|
Phosphorylation of ChREBP at Serine 556 by AMPK
|
BibTex
|
|
2024-02-12
|
R-HSA-163748
|
Transcriptional activation of AGPAT1 by ChREBP:MLX
|
BibTex
|
|
2024-02-12
|
R-HSA-9856604
|
MLXIPL:MLX binds AGPAT1 gene promoter
|
BibTex
|
|
2024-02-12
|
R-HSA-163666
|
Formation of ChREBP:MLX heterodimer
|
BibTex
|
|
2024-02-12
|
R-HSA-400012
|
Acetylcholine binds Muscarinic Acetylcholine Receptor M3
|
BibTex
|
|
2024-02-12
|
R-HSA-400015
|
Diacylgycerol activates Protein kinase C, alpha type
|
BibTex
|
|
2024-02-12
|
R-HSA-381706
|
GLP1R:GLP1 activates G(s)
|
BibTex
|
|
2024-02-12
|
R-HSA-163669
|
Transcriptional activation of PKLR gene by ChREBP:MLX
|
BibTex
|
|
2024-02-12
|
R-HSA-9856539
|
MLXIPL:MLX binds PKLR gene promoter
|
BibTex
|
|
2024-02-12
|
R-HSA-163773
|
PKA tetramer:cAMP phosphorylates PF2K-Pase
|
BibTex
|
|
2024-02-12
|
R-HSA-9856549
|
MLXIPL:MLX binds ACLY gene promoter
|
BibTex
|
|
2024-02-12
|
R-HSA-163733
|
Transcriptional activation of FASN monomer gene by ChREBP:MLX
|
BibTex
|
|
2024-02-12
|
R-HSA-9856546
|
MLXIPL:MLX binds FASN gene promoter
|
BibTex
|
|
2024-02-12
|
R-HSA-163743
|
Transcriptional activation of ACACA by ChREBP:MLX
|
BibTex
|
|
2024-02-12
|
R-HSA-9856550
|
MLXIPL:MLX binds ACACA gene promoter
|
BibTex
|
|
2024-02-12
|
R-HSA-9856605
|
Transcriptional activation of ACACB by ChREBP:MLX
|
BibTex
|
|
2024-02-12
|
R-HSA-9856548
|
MLXIPL:MLX binds ACACB gene promoter
|
BibTex
|
|
2024-02-12
|
R-HSA-381707
|
PKA:AKAP79:IQGAP1 complex dissociates to active PKA subunits in response to cAMP
|
BibTex
|
|
2024-02-12
|
R-HSA-381704
|
G(s):GTP activates Adenylyl cyclase
|
BibTex
|
|
2024-02-12
|
R-HSA-381668
|
cAMP activates EPAC1
|
BibTex
|
|
2024-02-12
|
R-HSA-381608
|
cAMP activates EPAC2
|
BibTex
|
|
2024-02-12
|
R-HSA-400071
|
Alpha-2A,alpha-2C Adrenergic Receptors bind adrenaline or noradrenaline
|
BibTex
|
|
2024-02-12
|
R-HSA-400037
|
Gi,Go Heterotrimeric G-protein complex dissociates
|
BibTex
|
|
2024-02-12
|
R-HSA-400092
|
Alpha-2A,alpha-2C Adrenergic Receptors activate Gi.Go heterotrimeric G proteins
|
BibTex
|
|
2024-02-12
|
R-HSA-400097
|
G-beta:G-gamma inhibits Adenylate cyclase
|
BibTex
|
|
2024-02-12
|
R-HSA-164151
|
LKB1 phosphorylates the alpha subunit of AMPK heterotrimer
|
BibTex
|
|
2024-02-12
|
R-HSA-163672
|
Phosphorylation of ChREBP at Thr(653) by PKA
|
BibTex
|
|
2024-02-12
|
R-HSA-163676
|
Phosphorylation of pChREBP (Thr 653) at Ser(196) by PKA
|
BibTex
|
|
2024-02-12
|
R-HSA-1483087
|
PI is exchanged with PC by PITPNB
|
BibTex
|
|
2024-02-12
|
R-HSA-1483229
|
PI:PITPNB is transported from the ER membrane to the Golgi membrane
|
BibTex
|
|
2024-02-12
|
R-HSA-1483219
|
PC is exchanged with PI by PITPNB
|
BibTex
|
|
2024-02-12
|
R-HSA-1483211
|
PC:PITPNB is transported from the Golgi membrane to the ER membrane
|
BibTex
|
|
2023-11-06
|
R-HSA-9851407
|
FAM83B, (FAM83A, FAM83D) bind EGFR
|
BibTex
|
|
2023-11-06
|
R-HSA-177934
|
EGFR autophosphorylation
|
BibTex
|
|
2023-11-02
|
R-HSA-177922
|
EGFR dimerization
|
BibTex
|
|
2023-07-26
|
R-HSA-196773
|
COASY phosphorylates DP-CoA
|
BibTex
|
|
2023-07-26
|
R-HSA-196754
|
COASY transfers an adenylyl group from ATP to PPANT
|
BibTex
|
|
2023-07-26
|
R-HSA-196840
|
3xPPCDC:3FMN decarboxylates PPC
|
BibTex
|
|
2023-07-26
|
R-HSA-196753
|
2xPPCS ligates PPanK with Cys
|
BibTex
|
|
2023-07-26
|
R-HSA-199203
|
PANK1/3 phosphorylate PanK
|
BibTex
|
|
2023-07-26
|
R-HSA-196857
|
PANK2 phosphorylates PanK
|
BibTex
|
|
2023-07-26
|
R-HSA-9837333
|
SLC25A42 exchanges cytosolic CoA-SH for mitochondrial matrix ADP
|
BibTex
|
|
2023-07-26
|
R-HSA-9837337
|
DCAKD phosphorylates DP-CoA
|
BibTex
|
|
2023-07-26
|
R-HSA-9837354
|
NUDT8 hydrolyzes CoA-SH to PPANT
|
BibTex
|
|
2023-07-26
|
R-MMU-9837342
|
Nudt8 hydrolyzes CoA-SH to PPANT
|
BibTex
|
|
2023-07-26
|
R-HSA-9837419
|
PANK4 hydrolyzes PPANT to pantetheine
|
BibTex
|
|
2023-07-26
|
R-HSA-196929
|
FLAD1 phosphorylates FMN
|
BibTex
|
|
2023-07-26
|
R-HSA-196964
|
RFK:Mg2+ phosphorylates RIB
|
BibTex
|
|
2023-07-26
|
R-HSA-196955
|
2xENPP1 hydrolyzes FAD to FMN
|
BibTex
|
|
2023-05-16
|
R-HSA-5652195
|
SORD oxidizes D-sorbitol to Fru
|
BibTex
|
|
2023-05-16
|
R-HSA-70333
|
KHK dimer phosphorylates Fru to Fru 1-P
|
BibTex
|
|
2023-05-16
|
R-HSA-70342
|
ALDOB tetramer cleaves Fru-1-P to GA and DHAP
|
BibTex
|
|
2023-05-16
|
R-HSA-6813749
|
ALDH1A1 oxidises GA to DGA
|
BibTex
|
|
2023-05-16
|
R-HSA-6799495
|
GLYCTK phosphorylates DGA to 3PDGA
|
BibTex
|
|
2022-11-18
|
R-HSA-70420
|
HK1,2,3,GCK,HKDC1 phosphorylate Glc to form G6P
|
BibTex
|
|
2022-11-09
|
R-HSA-9820566
|
ZnT5 transports zinc into the golgi apparatus
|
BibTex
|
|
2022-11-09
|
R-HSA-9817575
|
ERO1B oxidizes P4HB
|
BibTex
|
|
2022-08-29
|
R-HSA-70613
|
GOT2 transaminates OA and L-Glu
|
BibTex
|
|
2022-08-29
|
R-HSA-70592
|
PXLP-K259-GOT1 transaminates 2-OG and L-Asp
|
BibTex
|
|
2022-08-29
|
R-HSA-372448
|
SLC25A12,13 exchange L-Glu and L-Asp
|
BibTex
|
|
2022-08-29
|
R-HSA-376851
|
SLC25A11 exchanges 2-OG and MAL
|
BibTex
|
|
2022-08-29
|
R-HSA-198440
|
SLC25A11 exchanges malate and alpha-ketoglutarate (2-oxoglutarate) across the inner mitochondrial membrane
|
BibTex
|
|
2022-08-29
|
R-HSA-372843
|
SLC25A10 mediates exchange of malate and phosphate
|
BibTex
|
|
2022-08-29
|
R-HSA-70475
|
GPI dimer isomerizes Fru(6)P to G6P
|
BibTex
|
|
2022-08-29
|
R-HSA-70479
|
FBP tetramers hydrolyze F1,6PP to Fru(6)P
|
BibTex
|
|
2022-08-29
|
R-HSA-71495
|
Aldolase tetramers convert GA3P and DHAP to F1,6PP
|
BibTex
|
|
2022-08-29
|
R-HSA-70481
|
TPI1 dimer isomerizes GA3P to DHAP
|
BibTex
|
|
2022-08-29
|
R-HSA-70482
|
GAPDH tetramers reduce 1,3BPG to GA3P
|
BibTex
|
|
2022-08-29
|
R-HSA-70486
|
PGK complexes (PGK1,2) phosphorylate 3PG to form 1,3BPG
|
BibTex
|
|
2022-08-29
|
R-HSA-71445
|
PGAM dimers isomerise 2PG to 3PG
|
BibTex
|
|
2022-08-29
|
R-HSA-70241
|
PCK1 phosphorylates OA to yield PEP
|
BibTex
|
|
2022-08-29
|
R-HSA-70494
|
Enolase dimers (ENO1,2,3) convert PEP to 2PG
|
BibTex
|
|
2022-08-29
|
R-HSA-372449
|
SLC25A1 may exchange mitochondrial PEP for cytosolic anion
|
BibTex
|
|
2022-08-29
|
R-HSA-372819
|
PCK2 phosphorylates OA to yield PEP
|
BibTex
|
|
2022-08-29
|
R-HSA-70501
|
PC carboxylates PYR to OA
|
BibTex
|
|
2022-08-29
|
R-HSA-198513
|
SLC7A4 exchanges G6P for Pi across the ER membrane
|
BibTex
|
|
2022-08-29
|
R-HSA-71825
|
G6PC hydrolyzes G6P to Glc and Pi (liver)
|
BibTex
|
|
2022-08-29
|
R-HSA-3257122
|
SLC37A1, SLC37A2 exchange G6P for Pi across the ER membrane
|
BibTex
|
|
2022-08-29
|
R-HSA-3262512
|
G6PC3 hydrolyzes G6P to form Glc and Pi (ubiquitous)
|
BibTex
|
|
2022-08-29
|
R-HSA-3266566
|
G6PC2 hydrolyzes G6P to form Glc and Pi (islet)
|
BibTex
|
|
2022-08-29
|
R-HSA-198458
|
Efflux of Glc from the endoplasmic reticulum
|
BibTex
|
|
2022-08-18
|
R-HSA-9792608
|
SLC35D2 exchanges UDP-D-glucose for UMP
|
BibTex
|
|
2022-05-20
|
R-HSA-2024084
|
HS-GAGs translocate to the lysosome for degradation
|
BibTex
|
|
2022-05-20
|
R-HSA-1678694
|
Heparanase 2 (HPSE2) binds heparan sulfate proteoglycans
|
BibTex
|
|
2022-05-20
|
R-HSA-2046239
|
Extracellular KSPG translocates to the lysosome for degradation
|
BibTex
|
|
2022-05-19
|
R-HSA-427555
|
SLC26A1,2 cotransport SO4(2-), anion from extracellular region to cytosol
|
BibTex
|
|
2022-05-19
|
R-HSA-174392
|
PAPSS1,2 transfer SO4(2-) group to ATP to form APS
|
BibTex
|
|
2022-05-19
|
R-HSA-174389
|
PAPSS1,2 transfer PO4(2-) group from ATP to APS to form PAPS
|
BibTex
|
|
2022-05-19
|
R-HSA-741449
|
SLC35B2,3 exchange cytosolic PAPS with Golgi PAP
|
BibTex
|
|
2022-02-14
|
R-HSA-9759549
|
Cob(I)alamin bound to MMACHC is oxidized to cob(II)alamin
|
BibTex
|
|
2022-02-14
|
R-HSA-9759206
|
ABCD4:LMBRD1 transports RCbl from lysosomal lumen to cytosol
|
BibTex
|
|
2022-02-14
|
R-HSA-9759202
|
LRP2-mediated TCN2:RCbl uptake and delivery to lysosome
|
BibTex
|
|
2022-02-14
|
R-HSA-9759209
|
LRP2 binds extracellular TCN2:RCbl
|
BibTex
|
