2024-03-01
|
R-HSA-9863531
|
GS-MCA spontaneously hydrolyzes
|
BibTex
|
2024-02-21
|
R-HSA-9861745
|
Mitochondrial H2O2 decarboxylates PYR to acetate
|
BibTex
|
2024-01-25
|
R-HSA-9861631
|
ME1 tetramerizes
|
BibTex
|
2024-01-25
|
R-HSA-9861725
|
PGAM5 dodecamer dephosphorylates p-S336-ME1
|
BibTex
|
2024-01-25
|
R-HSA-9861642
|
NEK1 phosphorylates ME1
|
BibTex
|
2024-01-25
|
R-HSA-9861626
|
SIRT4 cleaves lipoyl from DLAT
|
BibTex
|
2024-01-25
|
R-HSA-9861616
|
DLD dimer dehydrogenates dihydrolipoyl
|
BibTex
|
2024-01-25
|
R-HSA-9861667
|
DLAT trimer transfers acetyl to CoA
|
BibTex
|
2024-01-25
|
R-HSA-9861734
|
PDH E1 decarboxylates PYR, transferring acetyl to DLAT
|
BibTex
|
2024-01-25
|
R-HSA-9861563
|
CTLH E3 ligase ubiquitinates LDHA
|
BibTex
|
2024-01-25
|
R-HSA-9861640
|
CTLH E3 ligase ubiquitinates PKM-1
|
BibTex
|
2024-01-25
|
R-HSA-9861660
|
ME1 tetramer decarboxylates OA to PYR
|
BibTex
|
2024-01-25
|
R-HSA-9861595
|
Cytosolic H2O2 decarboxylates PYR to acetate
|
BibTex
|
2024-01-16
|
R-HSA-9858752
|
LIPT1 transfers lipoyl group from lipoyl-GCSH to DLAT
|
BibTex
|
2023-12-26
|
R-HSA-9856871
|
MDH1 reduces OA
|
BibTex
|
2023-12-08
|
R-HSA-71401
|
OGDH dimer decarboxylates 2-OG
|
BibTex
|
2023-11-29
|
R-HSA-9855252
|
SDHA:SDHB binds to SDHC:SDHD
|
BibTex
|
2023-11-29
|
R-HSA-9855212
|
SDHA binds to SDHB
|
BibTex
|
2023-11-29
|
R-HSA-9854984
|
Transfer of Fe-S clusters to SDHB
|
BibTex
|
2023-11-28
|
R-HSA-9854961
|
SDHAF4 binds to FAD-SDHA
|
BibTex
|
2023-11-27
|
R-HSA-9854672
|
FAD attaches to SDHA
|
BibTex
|
2023-11-26
|
R-HSA-9854463
|
SIRT3 deacetylates AcK-IDH2 dimer
|
BibTex
|
2023-11-26
|
R-HSA-9854415
|
ACAT1 tetramer acetylates IDH2 dimer
|
BibTex
|
2023-11-26
|
R-HSA-9854405
|
Frataxin transfers Fe2+ to ACO2
|
BibTex
|
2023-11-26
|
R-HSA-9854368
|
ROS,RNS oxidize ACO2:4Fe-4S
|
BibTex
|
2023-11-25
|
R-HSA-9854315
|
CSKMT methylates Citrate Synthase
|
BibTex
|
2023-11-05
|
R-HSA-9853512
|
DLST transfers succinyl to CoA
|
BibTex
|
2023-11-05
|
R-HSA-9853499
|
DLD dimer dehydrogenates dihydrolipoyl
|
BibTex
|
2023-10-23
|
R-HSA-9851347
|
B4GALT5/6 transfer Gal to GlcCer
|
BibTex
|
2023-10-11
|
R-HSA-9850731
|
Vesicles transport GSL from Golgi to plasma membrane
|
BibTex
|
2023-10-11
|
R-HSA-9846477
|
A4GALT transfers galactose to LacCer
|
BibTex
|
2023-10-11
|
R-HSA-9846501
|
B3GNT5 transfers GlcNAc to LacCer
|
BibTex
|
2023-10-10
|
R-HSA-9846332
|
FUT1,2 transfer fucose to gangliosides
|
BibTex
|
2023-10-10
|
R-HSA-9846305
|
ST6GALNAC5,6 transfer Neu5Ac to GM1b
|
BibTex
|
2023-10-05
|
R-HSA-9845587
|
ST8SIA5 transfers Neu5Ac to gangliosides
|
BibTex
|
2023-10-04
|
R-HSA-9845538
|
ST3GAL2,3 transfer Neu5Ac to gangliosides
|
BibTex
|
2023-10-04
|
R-HSA-9845516
|
B3GALT4 transfers Gal to gangliosides
|
BibTex
|
2023-09-28
|
R-HSA-9845222
|
Lumicitabine binds RdRP on nucleocapsid
|
BibTex
|
2023-09-27
|
R-HSA-9845192
|
Asvasiran binds N mRNA
|
BibTex
|
2023-09-27
|
R-HSA-9845143
|
F inhibitors bind F on RSV virion
|
BibTex
|
2023-09-25
|
R-HSA-9845055
|
PLEKHA8 catalyzes transport of GlcCer to plasma membrane
|
BibTex
|
2023-09-23
|
R-HSA-9844955
|
CLN3 transports GalCer to plasma membrane
|
BibTex
|
2023-09-22
|
R-HSA-9844860
|
ST3GAL5 transfers NeuNAc to ceramides
|
BibTex
|
2023-09-21
|
R-HSA-9844587
|
GAL3ST1 transfers sulfate to GalCer,LacCer
|
BibTex
|
2023-09-09
|
R-HSA-9843721
|
ABCC1,ABCG2 transport C18-S1P to extracellular region
|
BibTex
|
2023-08-18
|
R-HSA-9842115
|
PSAP(195-273) dimer binds PE
|
BibTex
|
2023-08-17
|
R-HSA-9840470
|
PSAP(195-273) dimer:PE binds and mobilizes ligands
|
BibTex
|
2023-08-17
|
R-HSA-9841189
|
GLA hydrolyzes PSAP(195-273):Gal2Cer:PE
|
BibTex
|
2023-08-17
|
R-HSA-9840795
|
Beta-galactosidases hydrolyze GM2A:GA1 to GM2A:GA2
|
BibTex
|
2023-08-17
|
R-HSA-9840833
|
bHEXA,bHEXB hydrolyze GM2A:GA2 to GM2A:LacCer
|
BibTex
|
2023-08-15
|
R-HSA-9839025
|
HIV TAR RNA binds PKR
|
BibTex
|
2023-08-15
|
R-HSA-9839016
|
PKR binds viral dsRNA
|
BibTex
|
2023-08-02
|
R-HSA-9840949
|
ARSA removes sulfate from SM3
|
BibTex
|
2023-07-30
|
R-HSA-9840884
|
bHEXA,bHEXS hydrolyze GM2A:SM2
|
BibTex
|
2023-07-19
|
R-HSA-9840579
|
GM1 localizes to ILV membrane
|
BibTex
|
2023-07-19
|
R-HSA-9840581
|
GM1 localizes to endosome membrane
|
BibTex
|
2023-07-17
|
R-HSA-9840488
|
PSAP(195-273) forms a dimer
|
BibTex
|
2023-07-17
|
R-HSA-9840334
|
PSAP gets cleaved
|
BibTex
|
2023-06-14
|
R-HSA-9833155
|
Ubiquitination of STAT2
|
BibTex
|
2023-06-13
|
R-HSA-9837376
|
RSV G binds CD209,CLEC4M
|
BibTex
|
2023-06-10
|
R-HSA-9837136
|
SH binds to BCAP31
|
BibTex
|
2023-06-10
|
R-HSA-9837231
|
ISGylation of BECN1
|
BibTex
|
2023-06-08
|
R-HSA-9837063
|
NS1 (1C) binds H2BC15
|
BibTex
|
2023-06-06
|
R-HSA-9836955
|
NS2 (1B) binds to MAP1B
|
BibTex
|
2023-06-05
|
R-HSA-9836899
|
sG binds to HSPGs
|
BibTex
|
2023-06-01
|
R-HSA-9836702
|
PKR inhibitors bind PKR
|
BibTex
|
2023-06-01
|
R-HSA-9836857
|
NS1 (1C) binds to Mediator complex
|
BibTex
|
2023-05-31
|
R-HSA-9836621
|
p-S225-SPHK1 localizes to cytosol
|
BibTex
|
2023-05-31
|
R-HSA-9836664
|
p-PKR dimer phosphorylates PPP2R5A
|
BibTex
|
2023-05-31
|
R-HSA-9836617
|
p-PKR dimer phosphorylates SPHK1
|
BibTex
|
2023-05-30
|
R-HSA-9836606
|
SPHK1 binds PKR
|
BibTex
|
2023-05-29
|
R-HSA-9836515
|
p-PKR dimer phosphorylates PTPN2
|
BibTex
|
2023-05-28
|
R-HSA-9836500
|
IKK complex is activated by PKR
|
BibTex
|
2023-05-28
|
R-HSA-9836449
|
p-PKR dimer phosphorylates HIV tat
|
BibTex
|
2023-05-27
|
R-HSA-9836435
|
p-PKR dimer phosphorylates SNCA
|
BibTex
|
2023-05-27
|
R-HSA-9836404
|
p-PKR dimer phosphorylates MAPT
|
BibTex
|
2023-05-26
|
R-HSA-9836383
|
p-PKR dimer phosphorylates ILF3:ILF2
|
BibTex
|
2023-05-26
|
R-HSA-9836362
|
p-PKR dimer phosphorylates TP53 tetramer
|
BibTex
|
2023-05-24
|
R-HSA-9836322
|
p-PKR dimer phosphorylates MKK6
|
BibTex
|
2023-05-24
|
R-HSA-9836256
|
RSV sG binds TLR2:TLR6
|
BibTex
|
2023-05-24
|
R-HSA-9836159
|
p-PKR dimer phosphorylates DHX9
|
BibTex
|
2023-05-24
|
R-HSA-9836184
|
p-PKR dimer phosphorylates CDK1
|
BibTex
|
2023-05-15
|
R-HSA-9835992
|
VTRNA2-1 binds PKR
|
BibTex
|
2023-05-15
|
R-HSA-9835940
|
HCMV TRS1 binds PKR dimer
|
BibTex
|
2023-05-15
|
R-HSA-9835949
|
HIV Tat72 binds PKR
|
BibTex
|
2023-05-15
|
R-HSA-9835885
|
p-PKR dimer phosphorylates eIF2-alpha
|
BibTex
|
2023-05-15
|
R-HSA-9835944
|
ADAR1 binds PKR
|
BibTex
|
2023-05-15
|
R-HSA-9835454
|
DNAJC3 binds PKR
|
BibTex
|
2023-05-14
|
R-HSA-9835411
|
FA core complex:HSP70s binds PKR
|
BibTex
|
2023-05-14
|
R-HSA-9835443
|
STAT1,STAT3 binds PKR
|
BibTex
|
2023-05-13
|
R-HSA-9835385
|
DUS2 binds PKR
|
BibTex
|
2023-05-13
|
R-HSA-9835358
|
p-TARBP2 binds PKR
|
BibTex
|
2023-05-12
|
R-HSA-9835328
|
NPM binds PKR
|
BibTex
|
2023-05-11
|
R-HSA-9835189
|
NCK1 binds PKR
|
BibTex
|
2023-05-11
|
R-HSA-9835121
|
Heparin binds PKR
|
BibTex
|
2023-05-05
|
R-HSA-9834821
|
p-PRKRA dimer binds PKR
|
BibTex
|
2023-05-05
|
R-HSA-9834807
|
ILF3 binds PKR
|
BibTex
|
2023-05-05
|
R-HSA-9834809
|
SUMOylation of PKR
|
BibTex
|
2023-05-05
|
R-HSA-9833973
|
ISGylation of PKR
|
BibTex
|
2023-05-03
|
R-HSA-9833820
|
PKR dimer autophosphorylates
|
BibTex
|
2023-05-03
|
R-HSA-9833777
|
PKR binds activating host RNA
|
BibTex
|
2023-05-02
|
R-HSA-9833723
|
PKR forms a dimer
|
BibTex
|
2023-05-01
|
R-HSA-9833635
|
p-PKR dimer localizes to the nucleus
|
BibTex
|
2023-04-25
|
R-HSA-9833446
|
NS1 (1C) binds to CREBBP
|
BibTex
|
2023-04-25
|
R-HSA-9833441
|
NS1 (1C) binds to IRF3
|
BibTex
|
2023-04-25
|
R-HSA-9833436
|
RSV N binds PKR
|
BibTex
|
2023-04-23
|
R-HSA-9833393
|
N interacts with IFIH1
|
BibTex
|
2023-04-15
|
R-HSA-9833248
|
NS1 (1C) binds to MAVS
|
BibTex
|
2023-04-15
|
R-HSA-9833388
|
MAVS and DDX58 interact
|
BibTex
|
2023-04-10
|
R-HSA-9833107
|
Association of NS1 (1C) with Cul5 and SCF
|
BibTex
|
2023-04-06
|
R-HSA-9832782
|
p-S232-S237-P is further phosphorylated
|
BibTex
|
2023-03-30
|
R-HSA-9832577
|
NS1:NS2 (1C:1B) localizes to mitochondria
|
BibTex
|
2023-03-30
|
R-HSA-9832574
|
NS1 (1C) binds to NS2 (1B)
|
BibTex
|
2023-03-29
|
R-HSA-9825422
|
P protein oligomerizes
|
BibTex
|
2023-03-29
|
R-HSA-9828723
|
M2 mRNA is translated into protein M2-1
|
BibTex
|
2023-03-29
|
R-HSA-9828720
|
SH mRNA is translated into protein SHt
|
BibTex
|
2023-03-29
|
R-HSA-9832169
|
NS1 (1C) localizes to nucleus
|
BibTex
|
2023-03-29
|
R-HSA-9832168
|
NS2 (1B) forms a homodimer
|
BibTex
|
2023-03-28
|
R-HSA-9828714
|
M2 mRNA is translated into protein M2-2
|
BibTex
|
2023-03-24
|
R-HSA-9832006
|
Nascent M2-1 binds Zn2+
|
BibTex
|
2023-03-24
|
R-HSA-9830270
|
Protein M2-1 forms tetramers
|
BibTex
|
2023-03-24
|
R-HSA-9831948
|
P:PP1 dephosphorylates M2-1
|
BibTex
|
2023-03-24
|
R-HSA-9832037
|
P binds to PPP1C complex
|
BibTex
|
2023-03-24
|
R-HSA-9832009
|
M2-1 tetramer gets phosphorylated
|
BibTex
|
2023-03-24
|
R-HSA-9832040
|
M2-1 localizes to nucleus
|
BibTex
|
2023-03-22
|
R-HSA-9831702
|
M dimer localizes to nucleus
|
BibTex
|
2023-03-22
|
R-HSA-9831714
|
M forms a homodimer
|
BibTex
|
2023-03-22
|
R-HSA-9831677
|
M dimer gets exported from nucleus
|
BibTex
|
2023-03-22
|
R-HSA-9831712
|
M dimer is phosphorylated
|
BibTex
|
2023-03-21
|
R-HSA-9831514
|
CK2 phosphorylates nascent P
|
BibTex
|
2023-03-20
|
R-HSA-9831485
|
Nascent L binds Mg2+
|
BibTex
|
2023-03-19
|
R-HSA-9831166
|
Nascent N is phosphorylated
|
BibTex
|
2023-03-16
|
R-HSA-9831126
|
SH forms a pentamer
|
BibTex
|
2023-03-16
|
R-HSA-9831107
|
Nascent SH localizes to Golgi membrane
|
BibTex
|
2023-03-16
|
R-HSA-9831152
|
SH pentamer localizes to host cell plasma membrane
|
BibTex
|
2023-03-16
|
R-HSA-9831136
|
SH pentamer is phosphorylated
|
BibTex
|
2023-03-15
|
R-HSA-9830804
|
N-/O-glycan-sG is secreted
|
BibTex
|
2023-03-15
|
R-HSA-9830805
|
Nascent sG localizes to ER lumen, gets glycosylated
|
BibTex
|
2023-03-15
|
R-HSA-9830867
|
G is O-glycosylated
|
BibTex
|
2023-03-15
|
R-HSA-9830875
|
G is palmitoylated
|
BibTex
|
2023-03-15
|
R-HSA-9830872
|
G is N-glycosylated
|
BibTex
|
2023-03-15
|
R-HSA-9830882
|
Nascent G signal peptide is cleaved at ER membrane
|
BibTex
|
2023-03-15
|
R-HSA-9830864
|
Mature G localizes to host cell plasma membrane
|
BibTex
|
2023-03-05
|
R-HSA-9828717
|
G mRNA is translated into nascent secreted G protein
|
BibTex
|
2023-02-22
|
R-HSA-9829200
|
F0 is cleaved, releasing F1, F2, F(110-136)
|
BibTex
|
2023-02-22
|
R-HSA-9829183
|
F1 binds to F2 forming the F subunit
|
BibTex
|
2023-02-22
|
R-HSA-9829164
|
F subunits form trimers at plasma membrane rafts
|
BibTex
|
2023-02-18
|
R-HSA-9829047
|
F0 is palmitoylated
|
BibTex
|
2023-02-18
|
R-HSA-9829060
|
F0 gets N-glycosylated
|
BibTex
|
2023-02-18
|
R-HSA-9829030
|
Nascent F signal peptide is cleaved at ER membrane
|
BibTex
|
2022-08-18
|
R-HSA-9733495
|
Viral Spike Binds to ACE2 on Uninfected Cell
|
BibTex
|
2022-08-17
|
R-HSA-9815529
|
nsp12 transfers guanylyl onto SARS-CoV-2 plus strand subgenomic RNAs
|
BibTex
|
2022-08-01
|
R-HSA-9795207
|
SLC22A1 transports Cipro into hepatic cell
|
BibTex
|
2022-08-01
|
R-HSA-9794569
|
Apical transport of Cipro to extracellular space
|
BibTex
|
2022-07-29
|
R-HSA-9795153
|
Basolateral excretion of oxo-Cipro
|
BibTex
|
2022-07-29
|
R-HSA-9795147
|
Apical excretion of sulfo-Cipro
|
BibTex
|
2022-07-28
|
R-HSA-9795134
|
Cipro is sulfonated to sulfo-Cipro
|
BibTex
|
2022-07-21
|
R-HSA-9794840
|
Cipro is oxidized to oxo-Cipro
|
BibTex
|
2022-07-19
|
R-HSA-9794830
|
SLC22A8 transports Cipro into renal cell
|
BibTex
|
2022-07-19
|
R-MMU-9794643
|
Slc22a8 transports Cipro into renal cell
|
BibTex
|
2022-07-15
|
R-HSA-9794572
|
ABCG2 transports Cipro from hepatic cell to extracellular space
|
BibTex
|
2022-07-11
|
R-HSA-9794523
|
SLC22A1 transports Cipro into renal cell
|
BibTex
|
2022-07-09
|
R-HSA-9794475
|
Cipro:ALB dissociates
|
BibTex
|
2022-07-06
|
R-HSA-9794444
|
ALB binds Cipro
|
BibTex
|
2022-07-06
|
R-HSA-9794414
|
Basolateral transport of Cipro to extracellular space
|
BibTex
|
2022-07-01
|
R-HSA-9794352
|
Basolateral transport of Cipro into intestinal cell
|
BibTex
|
2022-07-01
|
R-HSA-9794270
|
SLCO1A2 transports Cipro(1+) into the cytosol
|
BibTex
|
2022-06-23
|
R-HSA-9794120
|
ABCG2 transports Cipro from intestinal cell to extracellular space
|
BibTex
|
2022-06-21
|
R-HSA-9793628
|
Cipro is imported by organic cation transporters
|
BibTex
|
2022-06-21
|
R-HSA-9793564
|
Cipro HCl dissolves
|
BibTex
|
2022-04-20
|
R-HSA-9771686
|
nsp12 acquires Fe-S cluster cofactors
|
BibTex
|
2022-03-25
|
R-HSA-9770187
|
S2 Cleavage by TMPRSS2 Exposes S2' Initiating Cell-Cell Fusion
|
BibTex
|
2022-03-23
|
R-HSA-9770063
|
S1,S2 Dissociate from S1:ACE2:S2
|
BibTex
|
2022-03-23
|
R-HSA-9769949
|
FURIN Mediated SARS-CoV-2 Spike Protein Cleavage
|
BibTex
|
2022-03-22
|
R-HSA-9769812
|
Spike Trimer Translocates to the Plasma Membrane
|
BibTex
|
2022-03-02
|
R-HSA-9758674
|
CYP3A4 oxidizes PREDN,PREDL
|
BibTex
|
2022-03-02
|
R-HSA-9762343
|
PREDL:ALB dissociates
|
BibTex
|
2022-02-23
|
R-HSA-9766608
|
PRMT1 binds type I PRMT inhibitors
|
BibTex
|
2022-02-17
|
R-HSA-9765952
|
nsp12 guanylates nsp7
|
BibTex
|
2022-01-20
|
R-HSA-9762345
|
PREDN:ALB dissociates
|
BibTex
|
2021-12-08
|
R-HSA-9759445
|
PREDN,PREDL diffuse into kidney cells
|
BibTex
|
2021-12-08
|
R-HSA-9758682
|
AKR1C1 hydrogenates PREDN,PREDL
|
BibTex
|
2021-12-06
|
R-HSA-9759461
|
ABCB1 transports PREDN,PREDL out of hepatic cells
|
BibTex
|
2021-12-06
|
R-HSA-9759454
|
ABCB1 transports PREDN,PREDL out of kidney cells
|
BibTex
|
2021-12-02
|
R-HSA-9759259
|
HSD11B2 dehydrogenates PREDL to PREDN
|
BibTex
|
2021-11-26
|
R-HSA-9758868
|
Unknown efflux pump transports glucuronidated PRED metabolite
|
BibTex
|
2021-11-24
|
R-HSA-9758661
|
UGT2B7,2B17,1A3 glucuronidates PRED metabolites
|
BibTex
|
2021-11-13
|
R-HSA-9758486
|
Unknown kinase phosphorylates 9b
|
BibTex
|
2021-11-04
|
R-HSA-9757706
|
HSD11B1 hydrogenates PREDN to PREDL in hepatic cell
|
BibTex
|
2021-11-04
|
R-HSA-9757698
|
PREDN,PREDL diffuse into hepatic cells
|
BibTex
|
2021-11-04
|
R-HSA-9757686
|
SERPINA6 binds PREDL
|
BibTex
|
2021-11-04
|
R-HSA-9757688
|
SERPINA6 binds PREDN
|
BibTex
|
2021-11-02
|
R-HSA-9757574
|
ALB binds PREDL
|
BibTex
|
2021-11-02
|
R-HSA-9757578
|
ALB binds PREDN
|
BibTex
|
2021-10-27
|
R-HSA-9659680
|
ABCB1 transports xenobiotics out of the cell
|
BibTex
|
2021-10-27
|
R-HSA-9757540
|
PREDN,PREDL diffuse into GI cells
|
BibTex
|
2021-09-20
|
R-HSA-9754916
|
NT5C2 tetramer phosphorylates RBV
|
BibTex
|
2021-09-20
|
R-HSA-9754934
|
SLC28C2,3 cotransports RBV, Na+ from extracellular region to cytosol
|
BibTex
|
2021-09-20
|
R-HSA-9755035
|
SLC29A1 transports RBV from cytosol to extracellular region
|
BibTex
|
2021-09-20
|
R-HSA-9755044
|
PNP trimer transforms RBV to T-CONH2
|
BibTex
|
2021-09-20
|
R-HSA-9755078
|
NT5C2 tetramer dephosphorylates RBV-MP
|
BibTex
|
2021-09-20
|
R-HSA-9755030
|
ITPA dimer dephosphorylates RBV-TP to RBV-MP
|
BibTex
|
2021-09-20
|
R-HSA-9755013
|
NME1,2 hexamers phosphorylate RBV-DP
|
BibTex
|
2021-09-20
|
R-HSA-9754978
|
Unknown kinase phosphorylates RBV-MP
|
BibTex
|
2021-09-20
|
R-HSA-9754974
|
ADK phosphorylates RBV
|
BibTex
|
2021-09-20
|
R-HSA-9755015
|
SLC29A1 transports RBV from extracellular region to cytosol
|
BibTex
|
2021-09-20
|
R-HSA-9754964
|
ADA deamidates RBV
|
BibTex
|
2021-09-20
|
R-HSA-9754929
|
SLC29A3 transports RBV,RBV-TP from cytosol to mitochondrial matrix
|
BibTex
|
2021-08-17
|
R-HSA-9749792
|
CES1,CES2 hydrolyze ASA- to ST
|
BibTex
|
2021-08-17
|
R-HSA-9750016
|
CYP2,3 cytochromes hydroxylate ST to 2,5-DHBA
|
BibTex
|
2021-08-17
|
R-HSA-9749971
|
ACSM2B-like proteins transform 2,5-DHBA to 2,5-DHB-CoA
|
BibTex
|
2021-08-09
|
R-HSA-9750001
|
GLYAT-like proteins transfer glycine to 2,5-DHB-CoA to form gentisuric acid
|
BibTex
|
2021-08-09
|
R-HSA-9750660
|
Glycine conjugates translocates from mitochondrial matrix to cytosol
|
BibTex
|
2021-08-09
|
R-HSA-9750656
|
ABCC2, ABCC3 transport salicylate metabolites from cytosol to extracellular region of hepatic cells
|
BibTex
|
2021-08-09
|
R-HSA-9750666
|
ALB binds ST
|
BibTex
|
2021-08-05
|
R-HSA-9757445
|
ST translocates from ER lumen to cytosol of GI cells
|
BibTex
|
2021-08-05
|
R-HSA-9749986
|
CYP2,3 cytochromes hydroxylate ST to 2,3-DHBA
|
BibTex
|
2021-08-05
|
R-HSA-9749977
|
UGT1A6 glucuronates ST
|
BibTex
|
2021-08-04
|
R-HSA-9757454
|
ST translocates from cytosol to mitochondrial matrix of hepatocytes
|
BibTex
|
2021-08-04
|
R-HSA-9757451
|
ASA-,ST translocate from cytosol to ER lumen of hepatocytes
|
BibTex
|
2021-08-04
|
R-HSA-9757462
|
Hydroxyl radicals oxidize ST to 2,3-DHBA
|
BibTex
|
2021-08-04
|
R-HSA-9757456
|
2,5-DHBA translocates from ER lumen to mitochondrial matrix
|
BibTex
|
2021-08-04
|
R-HSA-9757459
|
ST metabolites diffuse out of ER lumen
|
BibTex
|
2021-08-03
|
R-HSA-9749607
|
SLCO2B1-1 transports ASA- from extracellular region to cytosol of GI cells
|
BibTex
|
2021-08-03
|
R-HSA-9757434
|
Acetylsalicylic acid dissolves
|
BibTex
|
2021-08-03
|
R-HSA-9749583
|
SLC22A7 transports ASA-,ST from extracellular region to cytosol of hepatocytes
|
BibTex
|
2021-08-03
|
R-HSA-9757441
|
ASA- (GI) translocates from cytosol to extracellular region
|
BibTex
|
2021-08-03
|
R-HSA-9749647
|
CES2 hydrolyzes ASA-
|
BibTex
|
2021-08-03
|
R-HSA-9757438
|
ASA- translocates from cytosol to ER lumen of GI cells
|
BibTex
|
2021-08-03
|
R-HSA-9757448
|
ST translocates from cytosol to extracellular region
|
BibTex
|
2021-08-03
|
R-HSA-9749609
|
BCHE hydrolyzes ASA-
|
BibTex
|
2021-08-03
|
R-HSA-9749590
|
ASA- acetylates ALB
|
BibTex
|
2021-06-11
|
R-HSA-9729730
|
SARS-CoV-2 nsp3 cleaves IRF3
|
BibTex
|
2021-06-11
|
R-HSA-9729725
|
SARS-CoV-2 nsp3 deISGylates ISGylated IRF3
|
BibTex
|
2021-05-24
|
R-HSA-9732822
|
nsp3 binds to PLpro inhibitors
|
BibTex
|
2021-05-21
|
R-HSA-9731708
|
nsp10:nsp14 binds to ExoN inhibitors
|
BibTex
|
2021-05-17
|
R-HSA-9731262
|
nsp6 localizes to the nuclear envelope
|
BibTex
|
2021-05-17
|
R-HSA-9731274
|
nsp16 localizes to the nucleus
|
BibTex
|
2021-05-11
|
R-HSA-9731031
|
SARS-CoV-1 6 binds to NPIPB3
|
BibTex
|
2021-05-11
|
R-HSA-9731077
|
SARS-CoV-1 8b binds to IRF3
|
BibTex
|
2021-05-11
|
R-HSA-9731047
|
SARS-CoV-1 6 binds to NMI
|
BibTex
|
2021-05-11
|
R-HSA-9731051
|
SARS-CoV-1 3b binds to RUNX1
|
BibTex
|
2021-05-11
|
R-HSA-9731018
|
SARS-CoV-1 M binds to PDPK1
|
BibTex
|
2021-05-07
|
R-HSA-9730521
|
SARS-CoV-2 3a induces potassium efflux
|
BibTex
|
2021-05-07
|
R-HSA-9730528
|
SARS-CoV-2 3a binds to STING
|
BibTex
|
2021-05-07
|
R-HSA-9731034
|
SARS-CoV-1 3a tetramer binds to CAV1
|
BibTex
|
2021-05-07
|
R-HSA-9731012
|
SARS-CoV-1 3a tetramerizes
|
BibTex
|
2021-05-07
|
R-HSA-9731072
|
SARS-CoV-1 3a tetramer induces potassium efflux
|
BibTex
|
2021-05-07
|
R-HSA-9731009
|
SARS-CoV-1 nsp3 binds to IRF3
|
BibTex
|
2021-05-07
|
R-HSA-9731057
|
SARS-CoV-1 3a binds to caspase-1
|
BibTex
|
2021-05-03
|
R-HSA-9729841
|
SARS-CoV-2 nsp8 binds to 7SL RNA
|
BibTex
|
2021-05-03
|
R-HSA-9729849
|
SARS-CoV-2 nsp1 binds to 40S ribosomal complex
|
BibTex
|
2021-05-03
|
R-HSA-9729835
|
SARS-CoV-2 nsp9 binds to 7SL RNA
|
BibTex
|
2021-05-03
|
R-HSA-9729437
|
SARS-CoV-2 N binds to TRIM25
|
BibTex
|
2021-05-03
|
R-HSA-9730501
|
SARS-CoV-2 3CLpro dimer binds to STING
|
BibTex
|
2021-05-03
|
R-HSA-9729741
|
SARS-CoV-2 3CLpro dimer cleaves NLRP12
|
BibTex
|
2021-05-03
|
R-HSA-9729481
|
SARS-CoV-2 N binds to G3BP1,G3BP2
|
BibTex
|
2021-05-03
|
R-HSA-9729704
|
SARS-CoV-2 3CLpro dimer cleaves TAB1
|
BibTex
|
2021-05-03
|
R-HSA-9730505
|
SARS-CoV-2 3a binds to UVRAG
|
BibTex
|
2021-05-03
|
R-HSA-9729500
|
SARS-CoV-2 N binds to 14-3-3 proteins
|
BibTex
|
2021-05-03
|
R-HSA-9730483
|
SARS-CoV-2 nsp16 binds to U1 snRNA
|
BibTex
|
2021-05-03
|
R-HSA-9730488
|
SARS-CoV-2 nsp16 binds to U2 snRNA
|
BibTex
|
2021-04-22
|
R-HSA-9729283
|
Nucleoprotein is methylated by PRMT1
|
BibTex
|
2021-04-22
|
R-HSA-9729300
|
Unknown kinase phosphorylates nucleoprotein
|
BibTex
|
2021-04-22
|
R-HSA-9729318
|
CSNK1A1 phosphorylates nucleoprotein
|
BibTex
|
2021-04-22
|
R-HSA-9729330
|
SRPK1/2 phosphorylates nucleoprotein
|
BibTex
|
2021-04-22
|
R-HSA-9729232
|
SARS-CoV-1 nsp1 binds to 40S ribosomal subunit
|
BibTex
|
2021-04-21
|
R-HSA-9728776
|
SARS-CoV-1 nsp1 binds to RCAN3
|
BibTex
|
2021-04-21
|
R-HSA-9728804
|
SARS-CoV-1 nsp1 binds to PPIase
|
BibTex
|
2021-04-16
|
R-HSA-9727857
|
SARS-CoV-1 SUMO1-K62-p-S177-N dimer binds to PKL
|
BibTex
|
2021-04-16
|
R-HSA-9727869
|
SARS-CoV-1 SUMO1-K62-p-S177-N dimer binds to HNRNPA1
|
BibTex
|
2021-04-16
|
R-HSA-9727944
|
SARS-CoV-1 SUMO1-K62-p-S177-N dimer binds to EEF1A1
|
BibTex
|
2021-04-16
|
R-HSA-9727886
|
SARS-CoV-1 SUMO-p-N binds to NPM1
|
BibTex
|
2021-04-16
|
R-HSA-9727908
|
SARS-CoV-1 SUMO1-K62-p-S177-N dimer binds to PSMC6
|
BibTex
|
2021-04-16
|
R-HSA-9727860
|
SARS-CoV-1 SUMO1-K62-p-S177-N dimer binds to UBE2I
|
BibTex
|
2021-04-16
|
R-HSA-9727922
|
SARS-CoV-1 SUMO1-K62-p-S177-N dimer binds to SMAD3
|
BibTex
|
2021-04-16
|
R-HSA-9727919
|
SARS-CoV-1 SUMO1-K62-p-S177-N dimer binds to 14-3-3 proteins
|
BibTex
|
2021-04-13
|
R-HSA-9727288
|
7a localizes to the ERGIC membrane
|
BibTex
|
2021-04-13
|
R-HSA-9727297
|
mRNA7 is translated to protein 7a
|
BibTex
|
2021-04-13
|
R-HSA-9727300
|
9b homodimer localizes to the mitochondrial outer membrane
|
BibTex
|
2021-04-13
|
R-HSA-9727284
|
9b forms a homodimer
|
BibTex
|
2021-04-13
|
R-HSA-9727303
|
mRNA9 is translated to protein 9b
|
BibTex
|
2021-04-13
|
R-HSA-9727292
|
mRNA6 is translated to protein 6
|
BibTex
|
2021-04-13
|
R-HSA-9727305
|
mRNA8 is translated to protein 8
|
BibTex
|
2021-04-13
|
R-HSA-9727293
|
6 localizes to the nuclear envelope
|
BibTex
|
2021-03-29
|
R-HSA-9725206
|
IgE binds FCERI
|
BibTex
|
2021-03-29
|
R-HSA-9724685
|
IgE binds omalizumab
|
BibTex
|
2021-02-23
|
R-HSA-9724670
|
C-ter TLR7 dimer binds imiquimod
|
BibTex
|
2021-02-12
|
R-HSA-9714924
|
TNF-alpha inhibitors bind to soluble TNF trimer
|
BibTex
|
2021-02-12
|
R-HSA-9714959
|
TNF-alpha inhibitors bind to TNF(1-233) trimer
|
BibTex
|
2021-01-15
|
R-HSA-9712274
|
NFE2L2 inducers bind to KEAP1:CUL3:RBX1:NFE2L2
|
BibTex
|
2020-12-14
|
R-HSA-9709883
|
BIL:ALB scavenges O2.-
|
BibTex
|
2020-12-14
|
R-HSA-9709878
|
BIL translocates to the nucleus
|
BibTex
|
2020-12-14
|
R-HSA-9709879
|
BIL scavenges O2.-
|
BibTex
|
2020-12-14
|
R-HSA-9709885
|
BIL scavenges NO
|
BibTex
|
2020-12-14
|
R-HSA-9709918
|
PTK6 phosphorylates STAT3
|
BibTex
|
2020-12-03
|
R-HSA-9709360
|
H2O2 reduces MetHb
|
BibTex
|
2020-12-03
|
R-HSA-9709396
|
CO translocates from cytosol to extracellular region
|
BibTex
|
2020-12-03
|
R-HSA-9709366
|
CO translocates from cytosol to mitochondrial inner membrane
|
BibTex
|
2020-12-03
|
R-MMU-9709373
|
Ptk6 phosphorylates Stat3
|
BibTex
|
2020-12-03
|
R-HSA-9709406
|
CO binds to Cytochrome c oxidase
|
BibTex
|
2020-12-03
|
R-HSA-9709317
|
CO binds to free ferrohemoglobin
|
BibTex
|
2020-11-23
|
R-HSA-9708533
|
BACH1 translocates from the cytosol to the nucleoplasm
|
BibTex
|
2020-11-23
|
R-HSA-9708497
|
BACH1 gene produces BACH1
|
BibTex
|
2020-11-23
|
R-HSA-9708557
|
FBXL17 binds BACH1:MAFK
|
BibTex
|
2020-11-23
|
R-HSA-9708517
|
FBXL17 ubiquitinates BACH1 (in BACH1:FBXL17:SCF (SKP2))
|
BibTex
|
2020-11-23
|
R-HSA-9708525
|
BACH1:FBXL17 binds SCF(SKP2) complex
|
BibTex
|
2020-11-23
|
R-HSA-9708423
|
XPO1:BACH1:Hemes are transported out of the nucleus
|
BibTex
|
2020-11-23
|
R-HSA-9708430
|
XPO1 (CRM1) binds to BACH1:Hemes
|
BibTex
|
2020-11-23
|
R-HSA-9708558
|
HMOX1 dimer translocates from ER membrane to mitochondrial outer membrane
|
BibTex
|
2020-11-23
|
R-HSA-9708536
|
HMOX1 translocates from the cytosol to the nucleoplasm
|
BibTex
|
2020-11-23
|
R-HSA-9708457
|
HM13 cleaves HMOX1 dimer
|
BibTex
|
2020-11-23
|
R-HSA-9708466
|
p-Y483 BACH1 translocates from the nucleoplasm to the cytosol
|
BibTex
|
2020-11-23
|
R-HSA-9762209
|
BACH1 is phosphorylated at tyrosine 483
|
BibTex
|
2020-11-20
|
R-HSA-9707856
|
PGRMC2:Hemes dissociates
|
BibTex
|
2020-11-12
|
R-HSA-9707645
|
HMOX1 gene produces HMOX1 dimer
|
BibTex
|
2020-11-12
|
R-HSA-9707690
|
BACH1 binds MAFK
|
BibTex
|
2020-11-12
|
R-HSA-9707606
|
PGRMC2:Hemes translocate to the nucleus
|
BibTex
|
2020-11-12
|
R-HSA-9707683
|
PGRMC2 binds Hemes
|
BibTex
|
2020-11-12
|
R-HSA-9707523
|
Hemes bind to BACH1:MAFK
|
BibTex
|
2020-11-12
|
R-HSA-9707586
|
FeHM oxidises LDL,HDL
|
BibTex
|
2020-11-12
|
R-HSA-9707516
|
FeHM dissociates from MetHb
|
BibTex
|
2020-11-12
|
R-HSA-9707504
|
H2O2 oxidises ferrohemoglobin to MetHb
|
BibTex
|
2020-11-12
|
R-HSA-9707594
|
Hemes bind LY96
|
BibTex
|
2020-11-12
|
R-HSA-9707659
|
Hemes:LY96 activates TLR4
|
BibTex
|
2020-11-12
|
R-HSA-9707505
|
Hemes bind to CLEC1B dimer
|
BibTex
|
2020-08-28
|
R-HSA-9694662
|
Protein 3a forms a homotetramer
|
BibTex
|
2020-08-28
|
R-HSA-9694718
|
O-glycosylation of 3a is terminated
|
BibTex
|
2020-08-28
|
R-HSA-9694438
|
GalNAc is transferred onto 3a
|
BibTex
|
2020-08-28
|
R-HSA-9694392
|
3a translocates to the ERGIC
|
BibTex
|
2020-08-28
|
R-HSA-9694363
|
Dimerisation of nucleoprotein
|
BibTex
|
2020-08-28
|
R-HSA-9729307
|
Nucleoprotein is SUMOylated
|
BibTex
|
2020-08-28
|
R-HSA-9729279
|
Nucleoprotein is ADP-ribosylated
|
BibTex
|
2020-08-28
|
R-HSA-9729260
|
GSK3 phosphorylates nucleoprotein
|
BibTex
|
2020-08-28
|
R-HSA-9694555
|
Protein M localizes to the Golgi membrane
|
BibTex
|
2020-08-28
|
R-HSA-9694367
|
Glycosylated M localizes to the Golgi membrane
|
BibTex
|
2020-08-28
|
R-HSA-9694525
|
M protein gets N-glycosylated
|
BibTex
|
2020-08-28
|
R-HSA-9694294
|
E pentamer is transported to the Golgi
|
BibTex
|
2020-08-28
|
R-HSA-9694452
|
Protein E forms a homopentamer
|
BibTex
|
2020-08-28
|
R-HSA-9694529
|
Ubiquination of protein E
|
BibTex
|
2020-08-28
|
R-HSA-9694401
|
E protein gets palmitoylated
|
BibTex
|
2020-08-28
|
R-HSA-9694568
|
Nucleoprotein translocates to the ERGIC outer membrane
|
BibTex
|
2020-08-28
|
R-HSA-9694572
|
3a localizes to the cell membrane
|
BibTex
|
2020-08-28
|
R-HSA-9694308
|
3a is externalized together with membrane structures
|
BibTex
|
2020-08-28
|
R-HSA-9694373
|
Unphosphorylated nucleoprotein translocates to the plasma membrane
|
BibTex
|
2020-08-28
|
R-HSA-9694345
|
Nucleoprotein translocates to the nucleolus
|
BibTex
|
2020-08-28
|
R-HSA-9694575
|
Nucleoprotein translocates to the plasma membrane
|
BibTex
|
2020-08-28
|
R-HSA-9694727
|
Endocytosis of protein 3a
|
BibTex
|
2020-08-28
|
R-HSA-9694790
|
E protein gets N-glycosylated
|
BibTex
|
2020-08-28
|
R-HSA-9694441
|
3CLp cleaves pp1a
|
BibTex
|
2020-08-28
|
R-HSA-9694334
|
mRNA1 is translated to pp1a
|
BibTex
|
2020-08-28
|
R-HSA-9694317
|
Nsp3, nsp4, and nsp6 produce replicative organelles
|
BibTex
|
2020-08-28
|
R-HSA-9694611
|
nsp4 is glycosylated
|
BibTex
|
2020-08-28
|
R-HSA-9694625
|
nsp3 cleaves nsp1-4
|
BibTex
|
2020-08-28
|
R-HSA-9694389
|
nsp3 is glycosylated
|
BibTex
|
2020-08-28
|
R-HSA-9694601
|
nsp3-4 cleaves itself
|
BibTex
|
2020-08-28
|
R-HSA-9694338
|
nsp1-4 cleaves itself
|
BibTex
|
2020-08-28
|
R-HSA-9694377
|
pp1a cleaves itself
|
BibTex
|
2020-08-28
|
R-HSA-9694567
|
pp1a forms a dimer
|
BibTex
|
2020-08-28
|
R-HSA-9694732
|
3CLp cleaves pp1ab
|
BibTex
|
2020-08-28
|
R-HSA-9694274
|
mRNA1 is translated to pp1ab
|
BibTex
|
2020-08-28
|
R-HSA-9694331
|
nsp3-4 is glycosylated
|
BibTex
|
2020-08-28
|
R-HSA-9694551
|
3CLp cleaves nsp6-11
|
BibTex
|
2020-08-14
|
R-HSA-9698333
|
Spike trimer moves into the ERGIC membrane
|
BibTex
|
2020-07-30
|
R-HSA-9694333
|
3CLp forms a homodimer
|
BibTex
|
2020-07-30
|
R-HSA-9694261
|
nsp9 forms a homotetramer
|
BibTex
|
2020-07-30
|
R-HSA-9697018
|
Addition of sialic acids on some Spike glycosyl sidechains
|
BibTex
|
2020-07-22
|
R-HSA-9694794
|
mRNA3 is translated to protein 3a
|
BibTex
|
2020-07-22
|
R-HSA-9694370
|
mRNA9a is translated to Nucleoprotein
|
BibTex
|
2020-07-22
|
R-HSA-9694656
|
Spike trimer glycoside chains are extended
|
BibTex
|
2020-07-22
|
R-HSA-9694467
|
Spike protein forms a homotrimer
|
BibTex
|
2020-07-22
|
R-HSA-9694341
|
Spike protein gets palmitoylated
|
BibTex
|
2020-07-22
|
R-HSA-9694780
|
Spike translocates to ERGIC
|
BibTex
|
2020-07-22
|
R-HSA-9694337
|
Trimmed spike protein binds to calnexin
|
BibTex
|
2020-07-22
|
R-HSA-9696807
|
N-glycan mannose trimming of Spike
|
BibTex
|
2020-07-22
|
R-HSA-9694364
|
N-glycan glucose trimming of Spike
|
BibTex
|
2020-07-22
|
R-HSA-9694793
|
Spike protein gets N-glycosylated
|
BibTex
|
2020-07-22
|
R-HSA-9694447
|
mRNA2 is translated to Spike
|
BibTex
|
2020-07-22
|
R-HSA-9694681
|
mRNA5 is translated to protein M
|
BibTex
|
2020-07-22
|
R-HSA-9694280
|
mRNA4 is translated to protein E
|
BibTex
|
2020-05-12
|
R-HSA-9687724
|
GSK3B binds GSKi
|
BibTex
|
2020-05-05
|
R-HSA-9686790
|
ER-alpha glucosidases bind ER-alpha glucosidase inhibitors
|
BibTex
|
2020-04-28
|
R-HSA-9686061
|
Nucleoprotein is ADP-ribosylated
|
BibTex
|
2020-04-28
|
R-HSA-9686013
|
Nsp3:nsp4 binds to nsp6
|
BibTex
|
2020-04-28
|
R-HSA-9686005
|
nsp3 binds to nsp7-8 and nsp12-16
|
BibTex
|
2020-04-28
|
R-HSA-9685956
|
3a is externalized together with membrane structures
|
BibTex
|
2020-04-28
|
R-HSA-9685939
|
3a localizes to the cell membrane
|
BibTex
|
2020-04-28
|
R-HSA-9685950
|
Endocytosis of protein 3a
|
BibTex
|
2020-04-22
|
R-HSA-9686015
|
Nsp3, nsp4, and nsp6 produce replicative organelles
|
BibTex
|
2020-04-14
|
R-HSA-9684350
|
pp1a forms a dimer
|
BibTex
|
2020-04-14
|
R-HSA-9684301
|
mRNA1 is translated to pp1a
|
BibTex
|
2020-04-14
|
R-HSA-9684277
|
mRNA1 is translated to pp1ab
|
BibTex
|
2020-04-14
|
R-HSA-9684336
|
nsp1-4 cleaves itself
|
BibTex
|
2020-04-14
|
R-HSA-9684273
|
3CLp cleaves pp1a
|
BibTex
|
2020-04-14
|
R-HSA-9684323
|
3CLp forms a homodimer
|
BibTex
|
2020-04-14
|
R-HSA-9684351
|
pp1a cleaves itself
|
BibTex
|
2020-04-14
|
R-HSA-9684340
|
3CLp cleaves pp1ab
|
BibTex
|
2020-04-14
|
R-HSA-9684275
|
nsp3-4 is glycosylated
|
BibTex
|
2020-04-14
|
R-HSA-9684352
|
nsp3-4 cleaves itself
|
BibTex
|
2020-04-14
|
R-HSA-9684290
|
nsp3 is glycosylated
|
BibTex
|
2020-04-14
|
R-HSA-9684261
|
nsp4 is glycosylated
|
BibTex
|
2020-04-14
|
R-HSA-9684321
|
nsp3 cleaves nsp1-4
|
BibTex
|
2020-04-14
|
R-HSA-9684309
|
3CLp cleaves nsp6-11
|
BibTex
|
2020-04-14
|
R-HSA-9684282
|
nsp9 forms a homodimer
|
BibTex
|
2020-04-08
|
R-HSA-9683735
|
mRNA9 is translated to Nucleoprotein
|
BibTex
|
2020-04-08
|
R-HSA-9683664
|
GSK3 phosphorylates Nucleoprotein
|
BibTex
|
2020-04-08
|
R-HSA-9683687
|
Nucleoprotein is SUMOylated
|
BibTex
|
2020-04-08
|
R-HSA-9683746
|
Protein 3a forms a homotetramer
|
BibTex
|
2020-04-08
|
R-HSA-9683769
|
O-glycosylation of 3a is terminated
|
BibTex
|
2020-04-08
|
R-HSA-9683760
|
GalNAc is transferred onto 3a
|
BibTex
|
2020-04-08
|
R-HSA-9683712
|
3a translocates to the ERGIC
|
BibTex
|
2020-04-08
|
R-HSA-9683618
|
mRNA3 is translated to protein 3a
|
BibTex
|
2020-04-08
|
R-HSA-9683648
|
Spike trimer glycoside chains are extended
|
BibTex
|
2020-04-08
|
R-HSA-9683764
|
Spike trimer translocates to ERGIC
|
BibTex
|
2020-04-08
|
R-HSA-9683719
|
Spike protein forms a homotrimer
|
BibTex
|
2020-04-08
|
R-HSA-9683653
|
Spike protein gets palmitoylated
|
BibTex
|
2020-04-08
|
R-HSA-9683772
|
Trimmed spike protein binds to calnexin
|
BibTex
|
2020-04-08
|
R-HSA-9683663
|
N-glycan trimming of Spike
|
BibTex
|
2020-04-08
|
R-HSA-9683755
|
Spike protein gets N-glycosylated
|
BibTex
|
2020-04-08
|
R-HSA-9683624
|
mRNA2 is translated to Spike
|
BibTex
|
2020-04-08
|
R-HSA-9683718
|
Protein M localizes to the Golgi membrane
|
BibTex
|
2020-04-08
|
R-HSA-9683622
|
mRNA5 is translated to protein M
|
BibTex
|
2020-04-08
|
R-HSA-9683734
|
Glycosylated M localizes to the Golgi membrane
|
BibTex
|
2020-04-08
|
R-HSA-9683751
|
M protein gets N-glycosylated
|
BibTex
|
2020-04-08
|
R-HSA-9683765
|
Nucleoprotein translocates to the ERGIC outer membrane
|
BibTex
|
2020-04-08
|
R-HSA-9683634
|
Dimerisation of nucleoprotein
|
BibTex
|
2020-04-08
|
R-HSA-9683720
|
E protein gets palmitoylated
|
BibTex
|
2020-04-08
|
R-HSA-9683656
|
mRNA4 is translated to protein E
|
BibTex
|
2020-04-08
|
R-HSA-9683679
|
Ubiquination of protein E
|
BibTex
|
2020-04-08
|
R-HSA-9683635
|
E pentamer is transported to the Golgi
|
BibTex
|
2020-04-08
|
R-HSA-9683670
|
Protein E forms a homopentamer
|
BibTex
|
2020-04-08
|
R-HSA-9683669
|
E protein gets N-glycosylated
|
BibTex
|
2020-04-08
|
R-HSA-9683714
|
Unphosphorylated nucleoprotein translocates to the plasma membrane
|
BibTex
|
2020-04-08
|
R-HSA-9683606
|
Nucleoprotein translocates to the nucleolus
|
BibTex
|
2020-04-08
|
R-HSA-9683630
|
Nucleoprotein translocates to the plasma membrane
|
BibTex
|
2019-03-25
|
R-HSA-9640307
|
DeHA hydrolyses to 2,3-DKG
|
BibTex
|
2019-03-25
|
R-HSA-9640302
|
Asc.- radical dissociates to AscH- and DeHA
|
BibTex
|
2019-03-25
|
R-HSA-9640321
|
2,3-DKG hydrolyses to ERU and oxalate
|
BibTex
|
2019-03-25
|
R-HSA-9640316
|
DeHA hydrolyses to threonate and oxalate
|
BibTex
|
2019-03-06
|
R-HSA-9697086
|
Rifampicin binds Mtb RNAP
|
BibTex
|
2019-03-06
|
R-HSA-9697085
|
RNAP transcribes Mtb RNA polyanion
|
BibTex
|
2019-03-06
|
R-HSA-9697084
|
Defective rpoB in Mtb RNAP transcribes RNA polyanion
|
BibTex
|
2019-02-19
|
R-HSA-9637651
|
esxA translocates from Mtb cytosol to the host's ER
|
BibTex
|
2019-02-19
|
R-HSA-9637635
|
esxA binds B2M
|
BibTex
|
2019-02-19
|
R-HSA-9637638
|
esxA binds TLR2
|
BibTex
|
2019-02-19
|
R-HSA-9637605
|
PstS1 binds MRC1
|
BibTex
|
2019-02-19
|
R-HSA-9637641
|
Rv2779c binds TLR2
|
BibTex
|
2019-02-12
|
R-HSA-9635424
|
Rv3364c binds cathepsin G
|
BibTex
|
2019-02-12
|
R-HSA-9636304
|
Mce3E binds MAPK3
|
BibTex
|
2019-02-12
|
R-HSA-9635446
|
Rv3654c binds SFPQ
|
BibTex
|
2019-02-12
|
R-HSA-9635461
|
PtpA dephosphorylates GSK3A
|
BibTex
|
2019-02-12
|
R-HSA-9635609
|
Rv3655c binds RNF213
|
BibTex
|
2019-02-12
|
R-HSA-9636297
|
PtpA binds TRIM27
|
BibTex
|
2019-02-12
|
R-HSA-9636296
|
Mce3E binds MAPK1
|
BibTex
|
2019-02-06
|
R-HSA-9697064
|
lprG binds to LAM,LM
|
BibTex
|
2019-02-06
|
R-HSA-9636404
|
LAM translocates from the cell wall to the plasma membrane
|
BibTex
|
2019-02-06
|
R-HSA-9697070
|
lprG dissociates from LAM,LM
|
BibTex
|
2019-02-06
|
R-HSA-9636397
|
PtpA binds ATP6V1H
|
BibTex
|
2019-02-06
|
R-HSA-9636242
|
PPE2:KPNA1:KPNB1 dissociates, releasing PPE2 into the nucleus
|
BibTex
|
2019-02-06
|
R-HSA-9636247
|
PPE2:KPNA1:KPNB1 translocates to the nucleus
|
BibTex
|
2019-02-06
|
R-HSA-9636251
|
PPE2 binds KPNA1:KPNB1
|
BibTex
|
2019-02-06
|
R-HSA-9636240
|
PPE2 binds NOS2 gene
|
BibTex
|
2019-02-06
|
R-HSA-9636261
|
NOS2 gene produces NOS2 protein
|
BibTex
|
2019-02-06
|
R-HSA-9635667
|
esxG:esxH binds HGS
|
BibTex
|
2019-02-06
|
R-HSA-9635666
|
esxG:esxH translocates from MTb cytosol to host phagosomal lumen
|
BibTex
|
2019-02-06
|
R-HSA-9697057
|
esxG binds esxH
|
BibTex
|
2019-02-06
|
R-HSA-9636439
|
PtpA:Ub dephosphorylates p-Y133-VPS33B
|
BibTex
|
2019-02-06
|
R-HSA-9636461
|
PtpA binds Ubiquitin
|
BibTex
|
2019-02-06
|
R-HSA-9636375
|
SecA2 transports SapM from cytoplasm to cytosol
|
BibTex
|
2019-02-06
|
R-HSA-9697077
|
Rv1410c transports lprG:LM,LAM from cytosol to the cell wall
|
BibTex
|
2019-02-06
|
R-HSA-9636457
|
SapM dephosphorylates PI3P
|
BibTex
|
2019-02-06
|
R-HSA-9636396
|
lpdC binds to CORO1A
|
BibTex
|
2019-02-06
|
R-HSA-9636684
|
ndkA dephosphorylates RAB5A:GTP,RAB7A:GTP
|
BibTex
|
2019-02-06
|
R-HSA-9636658
|
esxA binds PGK1
|
BibTex
|
2019-02-06
|
R-HSA-9636669
|
esxA binds ENO1
|
BibTex
|
2019-02-06
|
R-HSA-9636560
|
Eis acetylates DUSP16
|
BibTex
|
2019-02-06
|
R-HSA-9636564
|
SapM binds RAB7A
|
BibTex
|
2019-02-06
|
R-HSA-9637699
|
CpnT hydrolyses NAD+
|
BibTex
|
2011-01-10
|
R-HSA-1562626
|
Ferritin Complex oxidises 4Fe2+ to Fe(3+)O(OH)
|
BibTex
|
2011-01-10
|
R-HSA-1222685
|
Cathelicidin LL-37 binds to bacterial cell wall
|
BibTex
|
2011-01-10
|
R-HSA-1222491
|
Lactoferrin scavenges iron ions
|
BibTex
|
2011-01-10
|
R-HSA-1222407
|
Superoxide and nitric oxide react to peroxynitrite
|
BibTex
|
2011-01-10
|
R-HSA-1222376
|
NOX2 generates superoxide from oxygen
|
BibTex
|
2011-01-10
|
R-HSA-1222516
|
Intraphagosomal pH is lowered to 5 by V-ATPase
|
BibTex
|
2011-01-10
|
R-HSA-1222353
|
Protonation of superoxide
|
BibTex
|
2011-01-10
|
R-HSA-1222686
|
Nitric oxide diffuses into the phagosome
|
BibTex
|
2011-01-10
|
R-HSA-1222662
|
Nitric oxide enters the bacterium
|
BibTex
|
2011-01-10
|
R-HSA-1222342
|
Hydroperoxyl enters the bacterium
|
BibTex
|
2011-01-10
|
R-HSA-1222411
|
Peroxynitrite oxidizes Peptide-Methionine residues
|
BibTex
|
2011-01-10
|
R-HSA-1470073
|
Peroxynitrite enters the bacterium
|
BibTex
|
2011-01-10
|
R-HSA-1222512
|
Nitric oxide oxidizes to nitrosyl ion
|
BibTex
|
2011-01-10
|
R-HSA-1222384
|
Glutathione scavenges nitrosyl
|
BibTex
|
2011-01-10
|
R-HSA-1222704
|
KatG reduces H2O2
|
BibTex
|
2011-01-10
|
R-HSA-1222469
|
SodC reduces superoxide to H2O2
|
BibTex
|
2011-01-10
|
R-HSA-1222462
|
SodB reduces superoxide to H2O2
|
BibTex
|
2011-01-10
|
R-HSA-1222341
|
H2O2 gets scavenged by unsaturated lipid
|
BibTex
|
2011-01-10
|
R-HSA-1222346
|
AhpC reduces H2O2
|
BibTex
|
2011-01-10
|
R-HSA-1222523
|
SodB gets secreted
|
BibTex
|
2011-01-10
|
R-HSA-1222526
|
AhpC reduces peroxidated lipids
|
BibTex
|
2011-01-10
|
R-HSA-1222738
|
Carboxymycobactin gets secreted
|
BibTex
|
2011-01-10
|
R-HSA-1222722
|
Mycobactin is exported
|
BibTex
|
2011-01-10
|
R-HSA-1222641
|
Carboxymycobactin binds LTF:2xFe3+:2xCO3(2-)
|
BibTex
|
2011-01-10
|
R-HSA-8951549
|
Carbocymycobactin binds Fe3+ from LTF:2xFe3+:2xCO3(2-)
|
BibTex
|
2011-01-10
|
R-HSA-1222325
|
Carboxymycobactin and mycobactin exchange their iron load
|
BibTex
|
2011-01-10
|
R-HSA-1222597
|
Loaded mycobactin gets imported
|
BibTex
|
2011-01-10
|
R-HSA-8951552
|
LTF:2xCO3(2-) dissociates from Carbocymycobactin:Fe3+
|
BibTex
|
2011-01-10
|
R-HSA-1562604
|
BfrA stores iron
|
BibTex
|
2011-01-10
|
R-HSA-1562603
|
BfrB stores iron
|
BibTex
|
2011-01-10
|
R-HSA-1222399
|
Iron is reduced and separates from mycobactin
|
BibTex
|
2011-01-10
|
R-ECO-1222667
|
Iron is reduced and separates from enterobactin
|
BibTex
|
2011-01-10
|
R-HSA-1222594
|
Mycothiol scavenges nitrosyl
|
BibTex
|
2011-01-10
|
R-HSA-1222723
|
Nitric oxide is oxidized to nitrate
|
BibTex
|
2011-01-10
|
R-HSA-1222755
|
Peroxynitrite is reduced to nitrite by Tpx
|
BibTex
|
2011-01-10
|
R-HSA-1222583
|
MscR reduces nitrosomycothiol to ammonia
|
BibTex
|
2011-01-10
|
R-HSA-1500817
|
Glutathione is taken up by the bacterium
|
BibTex
|
2011-01-10
|
R-HSA-1222363
|
MsrA/B reduces peptide-methionine S/R-sulfoxides
|
BibTex
|
2011-01-10
|
R-HSA-1222712
|
Nitrosoglutathione gets cleaved to Cys(NO)-Gly
|
BibTex
|
2011-01-10
|
R-HSA-1222431
|
Peroxynitrite is reduced to nitrite by AhpC
|
BibTex
|
2011-01-10
|
R-HSA-1500761
|
Nitrogen dioxide is reduced to NO by F420
|
BibTex
|
2011-01-10
|
R-HSA-1222690
|
DlaT reactivates AhpD
|
BibTex
|
2011-01-10
|
R-HSA-1222655
|
AhpD reactivates AhpC
|
BibTex
|
2011-01-10
|
R-HSA-1222417
|
TrxA reactivates AhpC
|
BibTex
|
2011-01-10
|
R-HSA-1222644
|
TrxA/B1 reactivates Tpx
|
BibTex
|
2011-01-10
|
R-HSA-1222485
|
TrxB reactivates TrxA
|
BibTex
|
2011-01-10
|
R-HSA-1500781
|
Fgd1 reactivates F420
|
BibTex
|
2011-01-10
|
R-HSA-1222412
|
lpdC dimer reactivates dlaT
|
BibTex
|
2010-10-24
|
R-HSA-1614546
|
Sulfate is exported to the cytosol in exchange for dicarboxylate
|
BibTex
|
2010-10-24
|
R-HSA-1614544
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Sulfite is oxidized to sulfate
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BibTex
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2010-10-24
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R-HSA-1614605
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Persulfide sulfur is dioxygenated
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BibTex
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2010-10-24
|
R-HSA-1614665
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SQR oxidizes sulfide to bound persulfide
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BibTex
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2010-10-24
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R-HSA-1614614
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Cysteine is degraded to serine and H2S
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BibTex
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2010-10-24
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R-HSA-1614583
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PXLP-K212-CTH cleaves L-Cystathionine
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BibTex
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2010-10-24
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R-HSA-1614524
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PXLP-CBS tetramers condenses HCYS and L-Ser to form L-Cystathionine
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BibTex
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2010-10-24
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R-AMA-1614571
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Sqr oxidizes sulfide to bound persulfide
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BibTex
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2010-10-24
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R-HSA-1614654
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BHMT tetramer transfers CH3 group from BET to HCYS to form DMGLY
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BibTex
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2010-10-24
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R-HSA-1614645
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CDO1:Fe2+ oxidises L-Cys to 3-Sulfinoalanine
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BibTex
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2010-10-24
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R-HSA-1614591
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Excess cysteine yields lanthionine and H2S
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BibTex
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2010-10-24
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R-HSA-1614618
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Persulfide sulfur is transferred onto sulfite
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BibTex
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2010-10-24
|
R-RNO-1614611
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Persulfide sulfur is transferred onto sulfite
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BibTex
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2010-10-24
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R-HSA-1614631
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Homocysteine is degraded to oxobutanoate and H2S
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BibTex
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2010-10-24
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R-HSA-1614567
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Excess homocysteine yields homolanthionine and H2S
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BibTex
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2010-10-24
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R-HSA-1237096
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Methylthio-ribose-P = Methylthio-ribulose-P
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BibTex
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2010-10-24
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R-HSA-1237160
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MTA is cleaved and phosphorylated
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BibTex
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2010-10-24
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R-HSA-1237140
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Dehydration of methylthio-ribulose-P
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BibTex
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2010-10-24
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R-SCE-1237121
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Dehydration of methylthio-ribulose-P
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BibTex
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2010-10-24
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R-HSA-1237129
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Acireductone is created
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BibTex
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2010-10-24
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R-HSA-1237102
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Transamination of MOB to methionine
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BibTex
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2010-10-24
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R-HSA-1237119
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Acireductone is oxidized to MOB
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BibTex
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2010-10-24
|
R-CFS-1237106
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Transamination of MOB to methionine
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BibTex
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2010-10-16
|
R-HSA-977348
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PHGDH tetramer dehydrogenates 3PG
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BibTex
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2010-10-16
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R-HSA-977333
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PXLP-K200-PSAT1 dimer transfers amino group from L-Glu to 3POPA
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BibTex
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2010-10-16
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R-HSA-977324
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PSPH:Mg2+ dimer dephosphorylates O-P-Ser
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BibTex
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2010-10-15
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R-HSA-977317
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malonyl-CoA is decarboxylated to acetyl-CoA in peroxisome
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BibTex
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2010-10-15
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R-HSA-977301
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Histidine is decarboxylated to histamine
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BibTex
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2010-09-19
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R-HSA-975593
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PNLIP:CLPS hydrolyses RPALM to atROL and PALM
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BibTex
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2010-09-19
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R-HSA-975608
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LRAT esterifies RBP2:atROL and FACYLs to atREs
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BibTex
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2010-09-19
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R-HSA-975629
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RDH11 reduces RBP2:atRAL to RBP2:atROL
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BibTex
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2010-09-19
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R-HSA-975635
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BCMO1:Fe2+ cleaves betaC to atRAL
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BibTex
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2010-09-19
|
R-HSA-975633
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atROL binds to RBP2
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BibTex
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2010-09-19
|
R-HSA-975594
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PLB1 hydrolyses RPALM to atROL
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BibTex
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2010-09-18
|
R-HSA-965019
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2xPNPO:2xFMN oxidizes PDXP to PXLP
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BibTex
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2010-09-18
|
R-HSA-965079
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2xPNPO:2xFMN oxidizes PXAP to PXLP
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BibTex
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2010-09-16
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R-HSA-965067
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THTPA:Mg2+ hydrolyzes ThTP to TDP
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BibTex
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2010-09-16
|
R-HSA-964958
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2xPDXK:2xZn2+ phosphorylates PXA
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BibTex
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2010-09-16
|
R-HSA-964970
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2xPDXK:2xZn2+ phosphorylates PXL
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BibTex
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2010-09-16
|
R-HSA-964962
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2xPDKX:2xZn2+ phosphorylates PDX
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BibTex
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2010-09-13
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R-MTU-964842
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Shikimate results from hydration of DHS
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BibTex
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2010-09-13
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R-MTU-964851
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Dehydratation of DHQ yields DHS
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BibTex
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2010-09-13
|
R-MTU-964914
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DHQ from DAHP dephosphorylation
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BibTex
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2010-09-13
|
R-MTU-964912
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DHAP from Ery4P and PEP
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BibTex
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2010-09-13
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R-MTU-964939
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Phosphorylation of shikimate
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BibTex
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2010-09-13
|
R-MTU-964886
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EPSP from shikimate 3-phosphate
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BibTex
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2010-09-13
|
R-MTU-964884
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Dephosphorylation of EPSP yields chorismate
|
BibTex
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2010-09-07
|
R-HSA-947499
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Exchange of oxygen with sulfur in MoCo
|
BibTex
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2010-09-05
|
R-HSA-947531
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Molybdenum ion transfer onto molybdopterin
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BibTex
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2010-09-05
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R-HSA-947541
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Sulfhydrylation and ring cleavage of precursor Z
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BibTex
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2010-09-05
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R-HSA-947538
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Transfer of sulfur from MOCS3-S-S onto MOCS2A
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BibTex
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2010-09-02
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R-HSA-947514
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PXLP-K198-NFS1 transfers sulfur from cysteine onto MOCS3
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BibTex
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2010-09-01
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R-HSA-947535
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Cyclisation of GTP to precursor Z
|
BibTex
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2010-08-19
|
R-MTU-936659
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PAPS is dephosphorylated to APS
|
BibTex
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2010-08-19
|
R-MTU-937192
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Cysteine from cystathionine and vice versa
|
BibTex
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2010-08-16
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R-MTU-936747
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cleavage of L-cysteine from carrier protein
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BibTex
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2010-08-12
|
R-MTU-936665
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OPS is added to the carrier sulfide
|
BibTex
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2010-08-10
|
R-MTU-936590
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sulfur transfer to carrier protein
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BibTex
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2010-07-28
|
R-HSA-917839
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apo-Transferrin dissociates from the receptor complex
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BibTex
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2010-07-20
|
R-HSA-917814
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apoTF:TFRC dimer translocates from endosome membrane to plasma membrane
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BibTex
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2010-07-20
|
R-HSA-917936
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MCOLN1 transports Fe2+ from endosome lumen to cytosol
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BibTex
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2010-07-14
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R-HSA-917835
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Fe3+ dissociates from holoTF:TFRC dimer
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BibTex
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2010-07-14
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R-HSA-917811
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STEAP3,STEAP4 reduce Fe3+ to Fe2+
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BibTex
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2010-07-13
|
R-HSA-917841
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Acidification of Tf:TfR1 containing endosome
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BibTex
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2010-07-12
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R-HSA-917807
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holoTF:TFRC dimer translocates from plasma membrane to endosome membrane
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BibTex
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2010-07-11
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R-HSA-917987
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TFRC dimer binds 2xholoTF
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BibTex
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2010-07-07
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R-HSA-917888
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apoTF binds 2Fe3+ to form holoTF
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BibTex
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2010-07-07
|
R-HSA-917979
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ABCG2 tetramer transports heme from cytosol to extracellular region
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BibTex
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2010-07-06
|
R-HSA-917892
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FLVCR1-1 transports heme from cytosol to extracellular region
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BibTex
|
2010-07-05
|
R-HSA-917805
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CYBRD1:Heme reduces Fe3+ to Fe2+
|
BibTex
|
2010-07-04
|
R-HSA-917891
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SLC40A1:CP:6Cu2+ oxidises Fe2+ to Fe3+
|
BibTex
|
2010-07-04
|
R-HSA-917933
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SLC40A1:HEPH:6Cu2+ oxidises 4Fe2+ to 4Fe3+
|
BibTex
|
2010-07-01
|
R-HSA-917870
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SLC46A1 transports hemes from extracellular region to cytosol
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BibTex
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2010-06-24
|
R-MTU-936615
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acetylation of serine
|
BibTex
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2010-06-21
|
R-MTU-936745
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deacetylation of O-acetylserine and sulfhydrylation using CysK2
|
BibTex
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2010-06-21
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R-MTU-936642
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deacetylation of O-acetylserine and sulfhydrylation using CysK1
|
BibTex
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2010-06-20
|
R-MTU-936655
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sulfite results from reduction of APS
|
BibTex
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2010-06-20
|
R-MTU-936703
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sulfite is reduced to sulfide
|
BibTex
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2010-06-18
|
R-MTU-936729
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sulfate is activated to APS
|
BibTex
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2010-06-18
|
R-MTU-936583
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APS is phosphorylated to PAPS
|
BibTex
|
2010-06-17
|
R-MTU-936667
|
sulfate binds to SubI outside the membrane
|
BibTex
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2010-06-17
|
R-MTU-936631
|
sulfate uptake in the cytosol
|
BibTex
|
2010-06-15
|
R-MTU-879245
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mycothiol binds formaldehyde and is dehydrogenated
|
BibTex
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2010-06-15
|
R-MTU-879293
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formylmycothiol hydrolyzes into mycothiol and formate
|
BibTex
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2010-06-15
|
R-MTU-879311
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mycothiol S-conjugate is cleaved into mercapturic acid and GlcN-Ins
|
BibTex
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2010-06-13
|
R-MTU-879273
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mycothiol conjugates with electrophilic xenobiotic
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BibTex
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2010-06-12
|
R-MTU-879281
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mycothiol is cleaved to acetylcysteine and glucosaminylinositol
|
BibTex
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2010-06-12
|
R-MTU-879266
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mycothiol is oxidized to mycothione
|
BibTex
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2010-06-08
|
R-MTU-879322
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mycothione is reduced to mycothiol
|
BibTex
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2010-06-07
|
R-MTU-879327
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acetylglucosamine-inositol is deacetylated by Mca
|
BibTex
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2010-06-07
|
R-MTU-879274
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acetylglucosamine-inositol-phosphate is dephosphorylated
|
BibTex
|
2010-06-07
|
R-MTU-879298
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acetylglucosamine is transferred from UDP-GlcNAc onto inositol-1-phosphate
|
BibTex
|
2010-06-07
|
R-MTU-879331
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glucose-6-phosphate is converted to inositol-1-phosphate
|
BibTex
|
2010-06-07
|
R-MTU-879319
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glucosaminyl-inositol and cysteine are ligated to desacetylmycothiol
|
BibTex
|
2010-06-07
|
R-MTU-879248
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desacetylmycothiol is acetylated to mycothiol using acetyl-CoA
|
BibTex
|
2010-05-29
|
R-MTU-868622
|
Glucose is transferred from UDP-glucose onto glucose-6-phosphate
|
BibTex
|
2010-05-29
|
R-MTU-868709
|
Maltose is converted to trehalose
|
BibTex
|
2010-05-29
|
R-MTU-868657
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Glucanotrehalose is hydrolyzed to 1,4-alpha-glucan and trehalose
|
BibTex
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2010-05-29
|
R-MTU-868658
|
1,4-alpha-glucan is converted to glucanotrehalose
|
BibTex
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2010-05-29
|
R-MTU-868608
|
Trehalose-6-phosphate is hydrolyzed to trehalose
|
BibTex
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2010-05-26
|
R-HSA-804969
|
HSD17B1 hydrogenates E1 to EST17b
|
BibTex
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