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Mark G Rush

 ORCID
Affiliation
NYU School of Medicine, Department of Biochemistry
Reviewed Reactions (230)
Date Identifier Reaction Reference
2024-03-06 R-HSA-482804 (d)NDP + ATP <=> (d)NTP + ADP (NME4) BibTex
2024-03-06 R-HSA-482812 (d)NTP + ADP <=> (d)NDP + ATP (NME4) BibTex
2024-03-06 R-HSA-482621 (d)NTP + ADP <=> (d)NDP + ATP (NME1,2,3) BibTex
2024-03-06 R-HSA-482619 (d)NDP + ATP <=> (d)NTP + ADP (NME1,2,3) BibTex
2024-03-06 R-HSA-514604 GMP + NADPH + H+ => IMP + NADP+ + NH4+ (GMPR,GMPR2) BibTex
2024-03-06 R-HSA-450088 GLUT1 tetramer binds 4xATP BibTex
2017-01-10 R-HSA-1676203 PI(3,5)P2 is dephosphorylated to PI5P by SYNJ/MTMs at the plasma membrane BibTex
2017-01-10 R-HSA-1675994 PI3P is dephosphorylated to PI by SYNJ/MTMs at the plasma membrane BibTex
2017-01-10 R-HSA-1676141 PI3P is dephosphorylated to PI by MTM proteins at the early endosome membrane BibTex
2017-01-10 R-HSA-1675795 PI3P is dephosphorylated to PI by MTM proteins at the late endosome membrane BibTex
2017-01-10 R-HSA-6809238 MTMR7 binds MTMR9 BibTex
2017-01-10 R-MMU-6809495 Mtmr7 binds Mtmr9 BibTex
2017-01-10 R-HSA-6809565 I(1,3)P2 is dephosphorylated into I1P by MTMR7:MTMR9 BibTex
2017-01-10 R-MMU-6809627 I(1,3)P2 is dephosphorylated into I1P by Mtmr7:Mtmr9 BibTex
2017-01-10 R-HSA-6809561 I(1,3)P2 is dephosphorylated into I1P by MTMR7 BibTex
2017-01-10 R-MMU-6809624 I(1,3)P2 is dephosphorylated into I1P by Mtmr7 BibTex
2017-01-10 R-HSA-6809764 SBF1 binds MTMR2 BibTex
2017-01-10 R-HSA-6809778 PI(3,5)P2 is dephosphorylated to PI5P by MTMR2:SBF1 BibTex
2017-01-10 R-HSA-6809777 PI3P is dephosphorylated to PI by MTMR2:SBF1 BibTex
2017-01-10 R-HSA-6809254 MTMR8 binds MTMR9 BibTex
2017-01-10 R-HSA-6809325 PI3P is dephosphorylated to PI by MTMR9-bound MTMR8 or MTMR6 at the plasma membrane BibTex
2017-01-10 R-HSA-6809320 PI(3,5)P2 is dephosphorylated to PI5P by MTMR9-bound MTMR6 or MTMR8 at the plasma membrane BibTex
2017-01-10 R-HSA-6809975 PI3P is dephosphorylated to PI by the MTMR2:SBF2 tetramer at the plasma membrane BibTex
2017-01-10 R-HSA-6809793 MTMR2 binds SBF2 BibTex
2017-01-10 R-HSA-6809785 MTMR2 dimerizes BibTex
2017-01-10 R-MMU-6809916 Mtmr2 homodimerizes BibTex
2017-01-10 R-MMU-6809875 Mtmr2 binds Sbf2 BibTex
2017-01-10 R-MMU-6809977 PI3P is dephosphorylated to PI by the Mtmr2:Sbf2 tetramer at the plasma membrane BibTex
2017-01-10 R-HSA-6809309 MTMR6 binds MTMR9 BibTex
2017-01-10 R-HSA-6809944 PI(3,5)P2 is dephosphorylated to PI5P by the MTMR2:SBF2 tetramer at the plasma membrane BibTex
2017-01-10 R-MMU-6809945 PI(3,5)P2 is dephosphorylated to PI5P by the Mtmr2:Sbf2 tetramer at the plasma membrane BibTex
2017-01-10 R-HSA-1676065 PI(3,5)P2 is dephosphorylated to PI5P by MTM proteins at the late endosome membrane BibTex
2017-01-10 R-HSA-6810030 MTMR2 binds MTMR10 BibTex
2017-01-10 R-NUL-6810026 Mtmr2 binds MTMR10 BibTex
2017-01-10 R-HSA-6809707 MTMR12 binds MTMR2 BibTex
2017-01-10 R-HSA-1676105 PI(3,5)P2 is dephosphorylated to PI5P by MTM proteins at the early endosome membrane BibTex
2017-01-10 R-HSA-6809680 MTMR12 binds MTM1 BibTex
2017-01-10 R-HSA-6809720 PI3P is dephosphorylated to PI by MTM1:MTMR12 BibTex
2015-08-30 R-HSA-5263616 MeSeO2H is reduced to MeSeOH by TXNRD1 BibTex
2015-08-30 R-HSA-5333612 MeSebGalNac is oxidatively cleaved to MeSeO2H and 2-acetamidoglucal BibTex
2015-08-30 R-HSA-5333608 GSSebGalNac is reduced and methylated to MeSebGalNac BibTex
2015-08-30 R-HSA-5333607 GSSeH combines with bGalNAc derivative to form GSSebGalNac BibTex
2015-08-30 R-HSA-2408542 GSSeSG is reduced to GSSeH and GSH by GSR BibTex
2015-08-30 R-HSA-2408556 SeO3(2-) combines with GSH to form GSSeSG and GSSG BibTex
2015-08-30 R-HSA-2408548 PAPSe is reduced to SeO3(2-) by PAPSe reductase BibTex
2015-08-30 R-HSA-2408540 APSe is phosphorylated to PAPSe by PAPSS1,2 BibTex
2015-08-30 R-HSA-2408525 H2SeO4 is converted to APSe by PAPSS1,2 BibTex
2015-08-30 R-RNO-2408504 H2SeO4 is converted to APSe by PAPSS1,2 BibTex
2015-08-30 R-PCH-2408503 APSe is phosphorylated to PAPSe by Kaps BibTex
2015-08-30 R-SCE-2408518 PAPSe is reduced to SeO3(2-) by MET16 BibTex
2015-08-30 R-RNO-2408553 SeO3(2-) combines with GSH to form GSSeSG and GSSG BibTex
2015-08-30 R-RNO-2408514 GSSeSG is reduced to GSSeH and GSH by Gsr BibTex
2015-08-30 R-RNO-5333617 GSSeH combines with bGalNAc derivative to form GSSebGalNac BibTex
2015-08-30 R-RNO-5333614 GSSebGalNac is reduced and methylated to MeSebGalNac BibTex
2015-08-30 R-RNO-5333613 MeSebGalNac is oxidatively cleaved to MeSeO2H and 2-acetamidoglucal BibTex
2015-08-30 R-HSA-5263614 MeSeOH is reduced to MeSeH by TXNRD1 BibTex
2015-08-30 R-HSA-2408500 GSSeH condenses with GSH to form H2Se and GSSG BibTex
2015-08-30 R-RNO-2408520 GSSeH condenses with GSH to form H2Se and GSSG BibTex
2015-08-30 R-HSA-2408558 SeO3(2-) is reduced to H2Se by TXNRD1 BibTex
2015-08-30 R-BTA-2408527 SeO3(2-) is reduced to H2Se by TXNRD1 BibTex
2015-08-30 R-HSA-2408546 tRNA(Met) is selenomethionylated to SeMet-tRNA(Met) by multisynthetase complex BibTex
2015-08-30 R-TAE-2408513 tRNA(Met) is selenomethionylated to SeMet-tRNA(Met) by Mars BibTex
2015-08-30 R-VRA-2408510 tRNA(Met) is selenomethionylated to SeMet-tRNA(Met) by Mars BibTex
2015-08-30 R-HSA-5333609 MeSebGalNac is hydrolysed to MeSeH and bGalNac BibTex
2015-08-30 R-RNO-5333611 MeSebGalNac is hydrolysed to MeSeH and bGalNac BibTex
2015-08-30 R-HSA-2408532 AdeSeHCys is hydrolysed to SeHCys by AHCY BibTex
2015-08-30 R-HSA-2408544 AdoSeMet is converted to AdeSeHCys by MetTrans(1) BibTex
2015-08-30 R-HSA-2408551 SeMet is converted to AdoSeMet by MAT BibTex
2015-08-30 R-RNO-2408545 AdoSeMet is converted to AdeSeHCys by MetTrans(2) BibTex
2015-08-30 R-RNO-2408512 AdeSeHCys is hydrolysed to SeHCys by Ahcy BibTex
2015-08-30 R-HSA-2408530 MeSeH is hydrolysed to H2Se by methylselenol demethylase BibTex
2015-08-30 R-HSA-2408536 H2Se is methylated to MeSeH by H2Se methyltransferase BibTex
2015-08-30 R-HSA-2408524 Sec is reduced to H2Se by PXLP-K259-SCLY dimer BibTex
2015-08-30 R-HSA-2408543 SeCysta is hydrolysed to Sec by PXLP-K212-CTH BibTex
2015-08-30 R-HSA-2408559 SeHCys and Ser are dehydrated into SeCysta by CBS BibTex
2015-08-30 R-RNO-2408533 SeHCys and Ser are dehydrated into SeCysta by Cbs BibTex
2015-08-30 R-RNO-2408502 SeCysta is hydrolysed to Sec by PXLP-K211-Cth BibTex
2015-08-30 R-RNO-2408511 H2Se is methylated to MeSeH by H2Se methyltransferase BibTex
2015-08-30 R-HSA-2408537 Excess SeMet is cleaved into MeSeH by PXLP-K212-CTH BibTex
2015-08-30 R-MMU-2408528 Excess SeMet is cleaved into MeSeH by PXLP-K211-Cth BibTex
2015-08-30 R-HSA-2408539 MeSec is hydrolysed to MeSeH by PXLP-K212-CTH BibTex
2015-08-30 R-RNO-2408538 MeSec is hydrolysed to MeSeH by PXLP-K211-Cth BibTex
2015-08-30 R-RNO-2408521 MeSeH is hydrolysed to H2Se by methylselenol demethylase BibTex
2015-08-30 R-HSA-2408529 Sec-tRNA(Sec):EEFSEC:GTP binds to 80S Ribosome BibTex
2015-08-30 R-HSA-2408509 Sec-tRNA(Sec) binds to EEFSEC:GTP BibTex
2015-08-30 R-HSA-2408555 Sep-tRNA(Sec) is converted to Sec-tRNA(Sec) by PXLP-K284-SEPSECS tetramer BibTex
2015-08-30 R-HSA-2408507 Ser-tRNA(Sec) is phosphorylated to Sep-tRNA(Sec) by PSTK BibTex
2015-08-30 R-HSA-2408526 tRNA(Sec) is serylated to Ser-tRNA(Sec) by SARS dimer BibTex
2015-08-30 R-MMU-2408505 Ser-tRNA(Sec) is phosphorylated to Sep-tRNA(Sec) by Pstk BibTex
2015-08-30 R-MMU-2408515 Sec-tRNA(Sec) binds to Eefsec:GTP BibTex
2015-08-30 R-RNO-2408535 Sec-tRNA(Sec):Eefsec:GTP binds to Rpl30 BibTex
2015-08-30 R-HSA-5333615 80S:Met-tRNAi:mRNA:SECISBP2:Sec-tRNA(Sec):EEFSEC:GTP is hydrolysed to 80S:Met-tRNAi:mRNA:SECISBP2:Sec and EEFSEC:GDP by EEFSEC BibTex
2015-08-30 R-RNO-5333610 Rpl30:Met-tRNAi:mRNA:Secisbp2:Sec-tRNA(Sec):Eefsec:GTP is hydrolysed to Rpl30:Met-tRNAi:mRNA:Secisbp2:Sec and Eefsec:GDP by Eefsec BibTex
2015-08-30 R-HSA-2408541 MeSeH is methylated to Me2Se by MeSeH methyltransferase BibTex
2015-08-30 R-RNO-2408501 MeSeH is methylated to Me2Se by MeSeH methyltransferase BibTex
2015-08-30 R-HSA-2408554 Me2Se is methylated to Me3Se+ by INMT BibTex
2015-08-30 R-MMU-2408549 Me2Se is methylated to Me3Se+ by Inmt BibTex
2012-11-10 R-HSA-2161917 ALOX5 oxidises 15S-HpETE to LXA4/B4 BibTex
2012-11-10 R-HSA-2162002 Arachidonic acid is oxidised to 15S-HpETE by ALOX15/15B BibTex
2012-11-10 R-HSA-428990 Arachidonate diffuses across the ER membrane BibTex
2012-11-10 R-HSA-111883 Hydrolysis of phosphatidylcholine BibTex
2012-11-10 R-HSA-76496 PTGIS, CYP8A1 isomerise PGH2 to PGI2 BibTex
2012-11-10 R-HSA-140359 PGG2 is reduced to PGH2 by PTGS1 BibTex
2012-11-10 R-HSA-140355 Arachidonic acid is oxidised to PGG2 by PTGS1 BibTex
2012-11-10 R-HSA-2309773 PGG2 is reduced to PGH2 by PTGS2 BibTex
2012-11-10 R-HSA-2309787 Arachidonic acid is oxidised to PGG2 by PTGS2 BibTex
2012-11-10 R-HSA-2314686 ASA- acetylates PTGS2 BibTex
2012-11-10 R-HSA-266012 LTD4 is converted to LTE4 by DPEP1/2 BibTex
2012-11-10 R-HSA-266046 GGT1, 5 dimers hydrolyse LTC4 to LTD4 BibTex
2012-11-10 R-HSA-266070 LTC4 is exported from the cytosol by ABCC1 BibTex
2012-11-10 R-HSA-266050 LTA4 is converted to LTC4 by LTC4S BibTex
2012-11-10 R-HSA-266051 5S-HpETE is dehydrated to LTA4 by ALOX5 BibTex
2012-11-10 R-HSA-265296 Arachidonic acid is oxidised to 5S-HpETE by ALOX5 BibTex
2012-11-10 R-HSA-429016 ALOX5 is phosphorylated by MAPKAP2 BibTex
2012-11-10 R-HSA-211873 CYP4F2, 4F3 20-hydroxylate LTB4 BibTex
2012-11-10 R-HSA-266072 LTA4 is hydolysed to LTB4 by LTA4H BibTex
2012-11-10 R-HSA-2161949 HXA3/B3 is hydrolysed to TrXA3/B3 by HXEH BibTex
2012-11-10 R-HSA-2161794 Arachidonic acid is converted to HXA3/B3 by ALOX12 BibTex
2012-11-10 R-HSA-76500 TBXAS1 isomerises PGH2 to TXA2 BibTex
2012-11-10 R-HSA-2161701 PGH2 is isomerised to PGD2 by HPGDS BibTex
2012-11-10 R-HSA-265295 Prostaglandin E synthase isomerizes PGH2 to PGE2 BibTex
2012-11-10 R-HSA-2299725 PGH2 diffuses from the endoplasmic reticulum lumen to the cytosol BibTex
2012-11-10 R-HSA-2161651 PGE2 is converted to PGF2a by CBR1 BibTex
2012-11-10 R-HSA-2161588 Delta12-PGJ2 is dehydrated to 15d-PGJ2 BibTex
2012-11-10 R-HSA-2161563 PGJ2 is isomerised to delta12-PGJ2 BibTex
2012-11-10 R-HSA-2161733 PGD2 is dehydrated to PGJ2 BibTex
2012-11-10 R-HSA-2161620 PGH2 is isomerised to PGD2 by PTGDS BibTex
2012-11-10 R-HSA-2314678 ASA- acetylates PTGS1 BibTex
2012-11-10 R-HSA-2161659 PGE2 is dehydrated to PGA2 BibTex
2012-11-10 R-HSA-2161660 PGH2 is isomerised to PGE2 by PTGES BibTex
2012-11-10 R-HSA-2161662 PGD2/E2/F2a is oxidised to 15k-PGD2/E2/F2a by HPGD BibTex
2012-11-10 R-OCU-2161568 PGD2/E2/F2a is oxidised to 15k-PGD2/E2/F2a by HPGD BibTex
2012-11-10 R-HSA-2161666 PGA2 is isomerised to PGC2 BibTex
2012-11-10 R-HSA-2161668 PGA2 is dehydrated to 15d-PGA2 BibTex
2012-11-10 R-MMU-2161646 PGA2 is dehydrated to 15d-PGA2 BibTex
2012-11-10 R-HSA-2161732 TXB2 is converted to 11dh-TXB2 by TXDH BibTex
2012-11-10 R-HSA-443894 TXA2 is hydrolysed to TXB2 BibTex
2012-11-10 R-HSA-2161735 PGC2 is isomerised to PGB2 BibTex
2012-11-10 R-HSA-2161673 PGD2 is dehydrated to 15d-PGD2 BibTex
2012-11-10 R-HSA-2161612 PGH2 is reduced to PGF2a by FAM213B BibTex
2012-11-10 R-MMU-2161718 PGH2 is reduced to PGF2a by Fam213b BibTex
2012-11-10 R-HSA-2161549 PGH2 is reduced to PGF2a by AKR1C3 BibTex
2012-11-10 R-HSA-2161613 PGH2 is degraded to 12S-HHT and MDA by TBXAS1 BibTex
2012-11-10 R-HSA-2161614 PGD2 is reduced to 11-epi-PGF2a by AKRIC3 BibTex
2012-11-10 R-HSA-2309779 PTGS2 dimer binds PTGS2 inhibitors BibTex
2012-11-10 R-HSA-2161619 PGI2 is hydrolysed to 6k-PGF1a BibTex
2012-11-10 R-HSA-2161692 15k-PGE2/F2a is reduced to dhk-PGE2/F2a by PTGR1 BibTex
2012-11-10 R-MMU-2161638 15k-PGE2/F2a is reduced to dhk-PGE2/F2a by Ptgr2 BibTex
2012-11-10 R-HSA-2161776 5S-HETE is oxidised to 5-oxoETE by 5-HEDH BibTex
2012-11-10 R-HSA-2161946 5S-HpETE is reduced to 5S-HETE by GPX1/2/4 BibTex
2012-11-10 R-OCU-2161896 5S-HpETE is reduced to 5S-HETE by GPX1 BibTex
2012-11-10 R-HSA-2161795 Arachidonic acid is hydroxylated to 16/17/18-HETE by CYP(1) BibTex
2012-11-10 R-HSA-2161940 Arachidonic acid is hydroxylated to 20-HETE by CYP(3) BibTex
2012-11-10 R-HSA-2161814 Arachidonic acid is hydroxylated to 19-HETE by CYP(2) BibTex
2012-11-10 R-HSA-2161792 20cho-LTB4 is oxidised to 20cooh-LTB4 by CYP4F2/4F3 BibTex
2012-11-10 R-HSA-2161745 20oh-LTB4 is oxidised to 20cho-LTB4 by CYP4F2/4F3 BibTex
2012-11-10 R-HSA-2162019 LTA4 is converted to EXA4 by ALOX15 BibTex
2012-11-10 R-HSA-2161768 EXA4 is converted to EXC4 by LTC4S BibTex
2012-11-10 R-HSA-2161962 LTA4 is hydrolysed to 6t-/6t,12epi-LTB4 BibTex
2012-11-10 R-HSA-2161868 EXD4 is converted to EXE4 by DPEP BibTex
2012-11-10 R-HSA-2161945 EXC4 is converted to EXD4 by GGT BibTex
2012-11-10 R-HSA-2161979 20cho-LTB4 is oxidised to 20cooh-LTB4 by ALDH BibTex
2012-11-10 R-HSA-2161790 20cooh-LTB4 is converted to 18cooh-LTB4 BibTex
2012-11-10 R-HSA-2161567 LTB4 is oxidised to 12-oxoLTB4 by PTGR1 BibTex
2012-11-10 R-SSC-2161617 LTB4 is oxidised to 12-oxoLTB4 by PTGR1 BibTex
2012-11-10 R-HSA-2161890 Arachidonic acid is epoxidated to 5,6-EET by CYP(4) BibTex
2012-11-10 R-HSA-2161961 EET(1) is hydrolysed to DHET(1) by EPHX2 BibTex
2012-11-10 R-HSA-2161899 Arachidonic acid is epoxidated to 8,9/11,12/14,15-EET by CYP(5) BibTex
2012-11-10 R-HSA-2161789 15S-HETE is oxidised to 15-oxoETE by 15-HEDH BibTex
2012-11-10 R-HSA-2161791 15S-HpETE is reduced to 15S-HETE by GPX1/2/4 BibTex
2012-11-10 R-HSA-2161951 Arachidonic acid is oxidised to 15R-HETE by Acetyl-PTGS2 BibTex
2012-11-10 R-HSA-2161959 12R-HpETE is reduced to 12R-HETE by GPX1/2/4 BibTex
2012-11-10 R-HSA-2161950 Arachidonic acid is oxidised to 12R-HpETE by ALOX12B BibTex
2012-11-10 R-HSA-2161964 Arachidonic acid is oxidised to 12S-HpETE by ALOX12/15 BibTex
2012-11-10 R-HSA-2161948 Arachidonic acid is converted to 12-oxoETE by ALOX12 BibTex
2012-11-10 R-HSA-2161999 12S-HpETE is reduced to 12S-HETE by GPX1/2/4 BibTex
2012-11-10 R-HSA-2161907 ALOX5 oxidises 15R-HETE to 15epi-LXA4/B4 BibTex
2012-11-10 R-HSA-2161779 LXA4 is oxidised to 15k-LXA4 by HPGD BibTex
2012-11-10 R-HSA-2161775 ALOX12 oxidises LTA4 to LXA4/B4 BibTex
2012-11-10 R-HSA-2161844 15k-LXA4 is reduced to dhk-LXA4 by PTGR1 BibTex
2012-11-10 R-SSC-2161847 15k-LXA4 is reduced to dhk-LXA4 by PTGR1 BibTex
2011-01-31 R-HSA-880050 (S)-2-hydroxyglutarate + FAD => 2-oxoglutarate + FADH2 BibTex
2011-01-31 R-HSA-880002 (R)-2-hydroxyglutarate + succinate semialdehyde <=> 2-oxoglutarate + 4-hydroxybutyrate BibTex
2011-01-31 R-HSA-880033 2-oxoglutarate + 4-hydroxybutyrate <=> (R)-2-hydroxyglutarate + succinate semialdehyde BibTex
2011-01-31 R-HSA-880007 (R)-2-hydroxyglutarate + FAD => 2-oxoglutarate + FADH2 BibTex
2011-01-31 R-HSA-880053 2-oxoglutarate + NADPH + H+ => (R)-2-hydroxyglutarate + NADP+ [mutant IDH1] BibTex
2008-01-11 R-HSA-74448 Calcium binds calmodulin BibTex
2008-01-11 R-HSA-445797 MYLK (MLCK) Active Calmodulin Binding BibTex
2008-01-11 R-HSA-445700 Myosin Binds ATP BibTex
2008-01-11 R-HSA-445705 Release Of ADP From Myosin BibTex
2008-01-11 R-HSA-445813 Phosphorylation of Smooth Muscle Myosin Light Chains BibTex
2008-01-11 R-HSA-445699 ATP Hydrolysis By Myosin BibTex
2008-01-11 R-HSA-445704 Calcium Binds Caldesmon BibTex
2008-01-11 R-HSA-390597 Release Of ADP From Myosin BibTex
2008-01-11 R-HSA-390593 ATP Hydrolysis By Myosin BibTex
2008-01-11 R-HSA-390598 Myosin Binds ATP BibTex
2008-01-11 R-HSA-390595 Calcium Binds Troponin-C BibTex
2008-01-11 R-HSA-375330 Connexin 45/Connexin 36 mediated neuronal gap junction communication BibTex
2008-01-11 R-HSA-375340 Connexin 62 mediated neuronal gap junction communication BibTex
2008-01-11 R-HSA-375342 Connexin 36 mediated neuronal gap junction communication BibTex
2008-01-11 R-HSA-375339 Pannexin 1/Pannexin2 mediated neuronal gap junction communication BibTex
2008-01-11 R-HSA-376357 Vamp7 associated Lysosome to Plasma membrane transport BibTex
2008-01-11 R-HSA-350769 trans-Golgi Network Coat Activation BibTex
2008-01-11 R-HSA-376369 Vamp2 associated secretory vesicle to plasma membrane transport BibTex
2008-01-11 R-HSA-376364 Vamp8 associated secretory vesicle to plasma membrane transport BibTex
2008-01-11 R-HSA-917693 ESCRT Disassembly BibTex
2008-01-11 R-HSA-917700 MVB Vesicle Formation BibTex
2008-01-11 R-HSA-917696 Cargo Sequestration BibTex
2008-01-11 R-HSA-917730 Cargo Recognition And Sorting BibTex
2007-05-01 R-HSA-168870 Neuraminidase enzymatic release from sialic acid BibTex
2007-05-01 R-HSA-168860 Membrane fusion BibTex
2007-05-01 R-HSA-195926 Association with M1 at cell membrane BibTex
2007-05-01 R-HSA-168895 RNP association BibTex
2007-05-01 R-HSA-188544 Assembly of M2 tetramers BibTex
2007-05-01 R-HSA-195733 M2 protein synthesis BibTex
2007-05-01 R-HSA-169921 Glycosylation and Folding of HA BibTex
2007-05-01 R-HSA-168884 Hemagglutinin (HA) protein synthesis BibTex
2007-05-01 R-HSA-168871 Fusion of vesicle containing the HA trimer, NA tetramer and M2 tetramer to the Golgi apparatus BibTex
2007-05-01 R-HSA-168869 Budding of vesicle with the HA trimer, NA tetramer and M2 tetramer from the endoplasmic reticulum into the cytosol BibTex
2007-05-01 R-HSA-169847 Assembly of NA tetramers BibTex
2007-05-01 R-HSA-169919 Glycosylation of NA BibTex
2007-05-01 R-HSA-195734 Neuraminidase (NA) synthesis BibTex
2007-05-01 R-HSA-168875 Trimerization of HA BibTex
2007-05-01 R-HSA-195726 Association of NA into rafts BibTex
2007-05-01 R-HSA-168882 Association of NP into rafts BibTex
2007-05-01 R-HSA-195730 Transport of processed viral proteins to the cell membrane BibTex
2007-05-01 R-HSA-195739 Palmitoylation of cysteine residues on M2 in the cis-golgi network BibTex
2007-05-01 R-HSA-168862 Association of HA into rafts BibTex
2007-05-01 R-HSA-168858 Palmitoylation of cysteine residues on HA in the cis-Golgi network BibTex
2007-05-01 R-HSA-168894 Accumulation of M1 at the inner leaflet of the lipid bilayer BibTex
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