COPII-mediated vesicle transport (Homo sapiens)

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6, 334, 20, 564, 18, 20, 37, 44...434, 20, 333, 2245, 629, 11, 34, 36, 39...2, 5, 13, 534, 207, 8, 16, 19, 21...3, 23, 40, 4531, 5, 12, 15, 29...5, 14, 25, 27, 28, 32...43, 614, 20cytosolendoplasmic reticulum-Golgi intermediate compartment membraneendoplasmic reticulum lumentransport vesicleRAB1A NSF SEC22B GPI-FOLR1 CSNK1DAREG precursor SEC23A 3x4Hyp-5Hyl-COL7A1 TBC1D20Glycoproteins with Man8 N-glycans 5Hyl-COL7A1 SEC243x4Hyp-3Hyp-COL7A1 SEC23IP TRAPPCIIGPI-FOLR1 Pi3x4Hyp-GalHyl-COL7A1 TRAPPC10 LMAN1L TRAPPC1 PalmC-YKT6 COPIIcargo:receptors:SEC23:SEC24:SEC13:SEC31:SEC23IP:v-SNAREsSEC24D PPP6C STX5 SEC24D AREG precursor SEC22C 3x4Hyp-GalHyl-COL7A1 SEC24B STX17 PalmC-YKT6 LMAN1 GDP GTPTMED2 GOSR2 GPI-FOLR1 AREG precursor 3x4Hyp-COL7A1 5Hyl-COL7A1 SEC23A TFG GOSR2 RAB1B SEC24C 3x4Hyp-3Hyp-COL7A1 TRAPPC5 (Glc)3(GlcNAc)2(Man)9-CTSZ AREG precursor Factor V precursor GRIA1 GTP 3x4Hyp-GlcGalHyl-COL7A1 PalmC-YKT6 5Hyl-COL7A1 SEC24C SEC24B GlcGalHyl-COL7A1 Glycoproteins with Man8 N-glycans SEC22B 5Hyl-COL7A1 STX5 (Glc)3(GlcNAc)2(Man)9-CTSZ LMAN1 GOSR2 SEC22C GPI-CD59 PPP6R1 TRAPPC6B 3x4Hyp-GlcGalHyl-COL7A1 LMAN1 GlcGalHyl-COL7A1 SEC24B SEC13 SEC24A SEC31A GOSR2 3x4Hyp-3Hyp-COL7A1 TMED10 Factor V precursor cis-SNARE:NSFhexamer:3xSNAPBET1 RAB1B SEC22A SEC24C TRAPPC3 Factor VIII precursor SEC23A SAR1B:GTPSEC23IP (Glc)3(GlcNAc)2(Man)9-CTSZ 3x4Hyp-GalHyl-COL7A1 SAR1B 5Hyl-COL7A1 Factor VIII precursor LMAN1L 3x4Hyp-3Hyp-GalHyl-COL7A1 3x4Hyp-3Hyp-COL7A1 RAB1B GRIA1 (Glc)3(GlcNAc)2(Man)9-SERPINA1 3x4Hyp-GalHyl-COL7A1 COL7A1 GOSR2 TMED10 MCFD2 CNIH2 LMAN1L MCFD2 STX5 GPI-FOLR1 RAB1A GOLGA2 GlcGalHyl-COL7A1 TRAPPC1 RAB1B GPI-FOLR1 AREG precursor TMED2 LMAN2 GDPGTP SEC22B TGFA precursor 3x4Hyp-5Hyl-COL7A1 RAB1A TRAPPC4 Factor VIII precursor 3x4Hyp-3Hyp-COL7A1 SEC23A GalHyl-COL7A1 SEC23IP COL7A1 COPIIcargo:receptors:SAR1B:GTP:SEC23:SEC24:SEC16A:SEC16B:TFG hexamerGOSR2 SEC24D SEC22B 3x4Hyp-COL7A1 3x4Hyp-3Hyp-GalHyl-COL7A1 3x4Hyp-3Hyp-GlcGalHyl-COL7A1 Glycoproteins with Man8 N-glycans SCFD1 TMED10 3x4Hyp-3Hyp-GlcGalHyl-COL7A1 TRAPPC6B GOLGA2 (Glc)3(GlcNAc)2(Man)9-CTSC CNIH1 TMED10 STX5 (Glc)3(GlcNAc)2(Man)9-SERPINA1 MCFD2 (Glc)3(GlcNAc)2(Man)9-CTSC (Glc)3(GlcNAc)2(Man)9-CTSC USO1 LMAN2 3x4Hyp-3Hyp-5Hyl-COL7A1 TRAPPC6B LMAN2 TRAPPC6A COL7A1 CNIH3 GalHyl-COL7A1 SEC22A COPIIcargo:receptors:SEC23:SEC24:SEC13:SEC31:SEC23IP:v-SNAREs:TRAPPCII:RAB1:GTP:USO1 homodimer:GOLGA2:GORASP1SCFD1STX17 SEC24C 3x4Hyp-3Hyp-GlcGalHyl-COL7A1 TGFA precursor PP6PalmC-YKT6 RAB1:GDP3x4Hyp-3Hyp-5Hyl-COL7A1 3x4Hyp-GlcGalHyl-COL7A1 TRAPPC2L RAB1:GDPTGFA precursor CNIH3 GOLGA2 SEC22A 3x4Hyp-5Hyl-COL7A1 TGFA precursor GPI-FOLR1 STX17 GORASP1 GPI-FOLR1 LMAN2 TRAPPC2L AREG precursor 3x4Hyp-5Hyl-COL7A1 TRAPPC4 COPIIcargo:receptors:SAR1B:GTP:SEC23:SEC24:SEC16A:SEC16B:TFG hexamer:SEC13:SEC31:SEC23IP:v-SNARESMCFD2 COL7A1 SEC24D Factor VIII precursor 3x4Hyp-3Hyp-5Hyl-COL7A1 TRAPPC6A Factor V precursor 3x4Hyp-GlcGalHyl-COL7A1 MCFD2 TRAPPC10 TFG CNIH1 AREG precursor COPIIcargoreceptors:SAR1B:GTP:SEC23:SEC24TRAPPC3 (Glc)3(GlcNAc)2(Man)9-CTSC PalmC-YKT6 GRIA1 SCFD1 SEC22B SEC23A SAR1B BET1 (Glc)3(GlcNAc)2(Man)9-CTSZ COL7A1 SEC23A RAB1A MCFD2 LMAN1 SEC31A SEC24C (Glc)3(GlcNAc)2(Man)9-CTSC GORASP1 3x4Hyp-3Hyp-COL7A1 SEC24C p-SEC24GTP LMAN1 GRIA1 GalHyl-COL7A1 COPIIcargo:receptorsSAR1B GPI-CD59 COPIIcargo:receptors:SEC23:SEC24:SEC13:SEC31:SEC23IP:v-SNAREs:TRAPPCII:RAB1:GDP3x4Hyp-5Hyl-COL7A1 TMED10 SEC24B (Glc)3(GlcNAc)2(Man)9-SERPINA1 TRAPPC4 GalHyl-COL7A1 CNIH3 ATPFactor V precursor GDPTMED10 SEC22C p-SEC24C TRAPPC1 GOSR2 GRIA1 Factor V precursor (Glc)3(GlcNAc)2(Man)9-SERPINA1 GlcGalHyl-COL7A1 5Hyl-COL7A1 PalmC-YKT6 SEC22C SEC22B MCFD2 SEC22C SEC31A TFG hexamer3x4Hyp-COL7A1 3x4Hyp-COL7A1 GalHyl-COL7A1 SEC22A LMAN2 SEC24D 3x4Hyp-5Hyl-COL7A1 LMAN1 Glycoproteins with Man8 N-glycans GalHyl-COL7A1 Glycoproteins with Man8 N-glycans SEC24C TRAPPC2 nascent procollagen VII vesicle (Glc)3(GlcNAc)2(Man)9-CTSC GlcGalHyl-COL7A1 SEC23A TRAPPC10 GPI-FOLR1 LMAN2 GOLGA2:GORASP1LMAN2L 3x4Hyp-3Hyp-GalHyl-COL7A1 SEC24D SEC24C LMAN1 Factor VIII precursor 3x4Hyp-3Hyp-GalHyl-COL7A1 CNIH3 COL7A1 TRAPPC3 CNIH3 GRIA1 nascent procollagen VII vesicle COPIIcargo:receptors:v:SNAREs:GOLGA2:GORASP1:USO1 homodimer3x4Hyp-GalHyl-COL7A1 3x4Hyp-5Hyl-COL7A1 SEC23A SEC24B Factor VIII precursor TRAPPC5 SEC22A CNIH3 (Glc)3(GlcNAc)2(Man)9-SERPINA1 (Glc)3(GlcNAc)2(Man)9-SERPINA1 STX5 TRAPPC6B 3x4Hyp-3Hyp-COL7A1 SEC23A 3x4Hyp-3Hyp-GalHyl-COL7A1 SEC24C H2OTRAPPC5 GDP CNIH1 CNIH3 COL7A1 GTP SNAPsSEC16A LMAN1L SEC24A BET1TRAPPC2L RAB1A PPP6R3 SEC23IP Glycoproteins with Man8 N-glycans AREG precursor (Glc)3(GlcNAc)2(Man)9-SERPINA1 SEC24A NAPA SEC24A CNIH1 GTP SEC24D COPIIcargo:receptors3x4Hyp-3Hyp-GalHyl-COL7A1 3x4Hyp-3Hyp-5Hyl-COL7A1 CNIH2 STX5 3x4Hyp-3Hyp-GlcGalHyl-COL7A1 GPI-CD59 LMAN1L GlcGalHyl-COL7A1 LMAN2L LMAN1 BET1 SEC24B SEC22A MCFD2 SEC24D LMAN2L TGFA precursor NSF 3x4Hyp-3Hyp-5Hyl-COL7A1 TRAPPC6A SEC23A SEC16B SEC23A (Glc)3(GlcNAc)2(Man)9-CTSZ LMAN1L 3x4Hyp-3Hyp-5Hyl-COL7A1 ANKRD28 GalHyl-COL7A1 GPI-CD59 Factor V precursor SEC24D GPI-FOLR1 CNIH3 SEC24C nascent procollagen VII vesicle SEC22A LMAN1 CNIH1 TRAPPC2 (Glc)3(GlcNAc)2(Man)9-CTSC STX5 (Glc)3(GlcNAc)2(Man)9-CTSZ NAPB 3x4Hyp-COL7A1 GRIA1 CNIH2 3x4Hyp-3Hyp-GalHyl-COL7A1 GlcGalHyl-COL7A1 TBC1D20 SEC23A ER-to-ERGIC v-SNARESSEC16B 3x4Hyp-GalHyl-COL7A1 p-SEC24A TMED10 CNIH2 TRAPPC4 SEC31A 3x4Hyp-COL7A1 GTP SEC24C LMAN2L LMAN2 Factor VIII precursor SEC24C SAR1BSEC13 3x4Hyp-3Hyp-GalHyl-COL7A1 NAPB GDP STX5 3x4Hyp-COL7A1 3x4Hyp-GlcGalHyl-COL7A1 SAR1B Pi3x4Hyp-3Hyp-5Hyl-COL7A1 cis-SNAREGOSR2 (Glc)3(GlcNAc)2(Man)9-CTSC SEC13 PiGOSR2Factor V precursor LMAN2L SCFD1 SEC22C TRAPPC3 3x4Hyp-GlcGalHyl-COL7A1 3x4Hyp-GalHyl-COL7A1 TMED2 Factor V precursor (Glc)3(GlcNAc)2(Man)9-SERPINA1 GalHyl-COL7A1 3x4Hyp-COL7A1 SEC23IP GlcGalHyl-COL7A1 STX5 3x4Hyp-GlcGalHyl-COL7A1 Factor VIII precursor COL7A1 3x4Hyp-3Hyp-5Hyl-COL7A1 SEC24C GTP SEC23A SEC23A GPI-FOLR1 5Hyl-COL7A1 LMAN2L GPI-CD59 STX5,17STX5 LMAN1 TRAPPC2 Factor V precursor 3x4Hyp-COL7A1 RAB1B PalmC-YKT6 3x4Hyp-GalHyl-COL7A1 LMAN2L GDP TGFA precursor TRAPPC10 MCFD2 SEC23A SEC24A PiGOSR2 CNIH2 3x4Hyp-GlcGalHyl-COL7A1 SEC24C CNIH2 SEC24D 3x4Hyp-3Hyp-5Hyl-COL7A1 TRAPPC9 SEC16A LMAN2 5Hyl-COL7A1 PalmC-YKT6 SAR1B:GDPUSO1 Glycoproteins with Man8 N-glycans SEC22C LMAN1L 3x4Hyp-3Hyp-COL7A1 GPI-CD59 3x4Hyp-3Hyp-COL7A1 (Glc)3(GlcNAc)2(Man)9-SERPINA1 GOSR2 SEC22B STX17 SEC24D TGFA precursor STX5 SEC24D (Glc)3(GlcNAc)2(Man)9-SERPINA1 CNIH1 TMED2 SEC24C LMAN2L CNIH3 SEC24D GOSR2 SEC24A SEC23A SEC23A SEC24D TFG TMED2 3x4Hyp-3Hyp-5Hyl-COL7A1 ER-to-ERGIC v-SNARESTMED10 RAB1A COL7A1 BET1:GOSR2:STX5:SCFD1RAB1A SEC24D SEC24A GPI-CD59 SEC31A GTP5Hyl-COL7A1 LMAN2 LMAN2L RAB1B p-SEC24D (Glc)3(GlcNAc)2(Man)9-CTSZ TRAPPC9 CNIH1 SEC13 COPIIcargo:receptors:SEC23:SEC24:SEC13:SEC31:SEC23IP:v-SNAREs:TRAPPCII:RAB1:GTPSEC22A CNIH1 AREG precursor SEC24A SEC13 (Glc)3(GlcNAc)2(Man)9-CTSZ 3x4Hyp-GalHyl-COL7A1 SEC22A NSF hexamer3x4Hyp-3Hyp-GlcGalHyl-COL7A1 (Glc)3(GlcNAc)2(Man)9-CTSC SEC16A:SEC16BRAB1B SEC24B NAPG TGFA precursor GRIA1 NAPA Factor V precursor CNIH3 TRAPPC2 TRAPPC6A (Glc)3(GlcNAc)2(Man)9-CTSZ Glycoproteins with Man8 N-glycans GRIA1 SEC24C 3x4Hyp-5Hyl-COL7A1 SEC24D SEC23IP STX5 LMAN1L GOSR2 GOSR2 SEC24C PalmC-YKT6 SEC24C TGFA precursor p-S742,T747 SEC23A3x4Hyp-3Hyp-COL7A1 GRIA1 STX5 GORASP1 SEC22B 3x4Hyp-3Hyp-GlcGalHyl-COL7A1 (Glc)3(GlcNAc)2(Man)9-CTSZ GalHyl-COL7A1 USO1 homodimerCNIH1 AREG precursor 3x4Hyp-3Hyp-GlcGalHyl-COL7A1 USO1 3x4Hyp-3Hyp-GalHyl-COL7A1 SEC24B Glycoproteins with Man8 N-glycans STX5 GlcGalHyl-COL7A1 TRAPPC2L PREBRAB1:GTP:TBC1D203x4Hyp-COL7A1 LMAN1L TMED2 Cargo concentrationin the ERSEC16A SEC23A 3x4Hyp-3Hyp-GlcGalHyl-COL7A1 3x4Hyp-3Hyp-GlcGalHyl-COL7A1 SEC22C TRAPPC5 SEC24D TMED2 TRAPPC9 CNIH2 TGFA precursor SEC23A 3x4Hyp-3Hyp-GalHyl-COL7A1 TMED2 3x4Hyp-5Hyl-COL7A1 LMAN2L SEC24D Factor VIII precursor TMED2 SEC24C TMED10 GTP LMAN2 SEC24B Factor VIII precursor GPI-CD59 SEC24C SEC22B CNIH2 PalmC-YKT6 CNIH2 nascent procollagen VII vesicle SEC31A LMAN1L NAPG TMED10 GlcGalHyl-COL7A1 SEC22C CNIH1 p-SEC24B 3x4Hyp-GlcGalHyl-COL7A1 Glycoproteins with Man8 N-glycans SEC31A:SEC13:SEC23IP5Hyl-COL7A1 SEC22B TRAPPC1 COL7A1 SEC16B SEC22A 3x4Hyp-GalHyl-COL7A1 SEC23:SEC24SAR1B SEC24A SEC13 MCFD2 3x4Hyp-3Hyp-GlcGalHyl-COL7A1 TMED2 (Glc)3(GlcNAc)2(Man)9-CTSC TRAPPC9 SEC24C GalHyl-COL7A1 SEC23A 3x4Hyp-GlcGalHyl-COL7A1 RAB1:GTP3x4Hyp-5Hyl-COL7A1 GPI-CD59 CNIH2 SEC22C GPI-CD59 SEC24D 10, 17, 24, 26, 30...


Description

COPII components (known as Sec13p, Sec23p, Sec24p, Sec31p, and Sar1p in yeast) traffic cargo from the endoplasmic reticulum to the ER-Golgi intermediate compartment (ERGIC). COPII-coated vesicles were originally discovered in the yeast Saccharomyces cerevisiae using genetic approaches coupled with a cell-free assay. The mammalian counterpart of this pathway is represented here. Newly synthesized proteins destined for secretion are sorted into COPII-coated vesicles at specialized regions of the ER. These vesicles leave the ER, become uncoated and subsequently fuse with the ERGIC membrane. View original pathway at:Reactome.

Comments

Reactome-Converter 
Pathway is converted from Reactome ID: 204005
Reactome-version 
Reactome version: 64
Reactome Author 
Reactome Author: Gillespie, Marc E

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Bibliography

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  1. Allan BB, Moyer BD, Balch WE.; ''Rab1 recruitment of p115 into a cis-SNARE complex: programming budding COPII vesicles for fusion.''; PubMed Europe PMC Scholia
  2. Yu RC, Jahn R, Brunger AT.; ''NSF N-terminal domain crystal structure: models of NSF function.''; PubMed Europe PMC Scholia
  3. Bhandari D, Zhang J, Menon S, Lord C, Chen S, Helm JR, Thorsen K, Corbett KD, Hay JC, Ferro-Novick S.; ''Sit4p/PP6 regulates ER-to-Golgi traffic by controlling the dephosphorylation of COPII coat subunits.''; PubMed Europe PMC Scholia
  4. Wang T, Grabski R, Sztul E, Hay JC.; ''p115-SNARE interactions: a dynamic cycle of p115 binding monomeric SNARE motifs and releasing assembled bundles.''; PubMed Europe PMC Scholia
  5. Hay JC, Chao DS, Kuo CS, Scheller RH.; ''Protein interactions regulating vesicle transport between the endoplasmic reticulum and Golgi apparatus in mammalian cells.''; PubMed Europe PMC Scholia
  6. Sprangers J, Rabouille C.; ''SEC16 in COPII coat dynamics at ER exit sites.''; PubMed Europe PMC Scholia
  7. Dascher C, Balch WE.; ''Mammalian Sly1 regulates syntaxin 5 function in endoplasmic reticulum to Golgi transport.''; PubMed Europe PMC Scholia
  8. Hughes H, Budnik A, Schmidt K, Palmer KJ, Mantell J, Noakes C, Johnson A, Carter DA, Verkade P, Watson P, Stephens DJ.; ''Organisation of human ER-exit sites: requirements for the localisation of Sec16 to transitional ER.''; PubMed Europe PMC Scholia
  9. Nakamura N, Lowe M, Levine TP, Rabouille C, Warren G.; ''The vesicle docking protein p115 binds GM130, a cis-Golgi matrix protein, in a mitotically regulated manner.''; PubMed Europe PMC Scholia
  10. Malhotra V, Erlmann P, Nogueira C.; ''Procollagen export from the endoplasmic reticulum.''; PubMed Europe PMC Scholia
  11. Hammond AT, Glick BS.; ''Dynamics of transitional endoplasmic reticulum sites in vertebrate cells.''; PubMed Europe PMC Scholia
  12. Gordon DE, Bond LM, Sahlender DA, Peden AA.; ''A targeted siRNA screen to identify SNAREs required for constitutive secretion in mammalian cells.''; PubMed Europe PMC Scholia
  13. Jahn R, Scheller RH.; ''SNAREs--engines for membrane fusion.''; PubMed Europe PMC Scholia
  14. Südhof TC, Rothman JE.; ''Membrane fusion: grappling with SNARE and SM proteins.''; PubMed Europe PMC Scholia
  15. Malhotra V, Erlmann P.; ''Protein export at the ER: loading big collagens into COPII carriers.''; PubMed Europe PMC Scholia
  16. Müller JM, Rabouille C, Newman R, Shorter J, Freemont P, Schiavo G, Warren G, Shima DT.; ''An NSF function distinct from ATPase-dependent SNARE disassembly is essential for Golgi membrane fusion.''; PubMed Europe PMC Scholia
  17. Yorimitsu T, Sato K.; ''Insights into structural and regulatory roles of Sec16 in COPII vesicle formation at ER exit sites.''; PubMed Europe PMC Scholia
  18. Whiteheart SW, Matveeva EA.; ''Multiple binding proteins suggest diverse functions for the N-ethylmaleimide sensitive factor.''; PubMed Europe PMC Scholia
  19. Shah N, Colbert KN, Enos MD, Herschlag D, Weis WI.; ''Three αSNAP and 10 ATP molecules are used in SNARE complex disassembly by N-ethylmaleimide-sensitive factor (NSF).''; PubMed Europe PMC Scholia
  20. Fuchs E, Haas AK, Spooner RA, Yoshimura S, Lord JM, Barr FA.; ''Specific Rab GTPase-activating proteins define the Shiga toxin and epidermal growth factor uptake pathways.''; PubMed Europe PMC Scholia
  21. Hui N, Nakamura N, Sönnichsen B, Shima DT, Nilsson T, Warren G.; ''An isoform of the Golgi t-SNARE, syntaxin 5, with an endoplasmic reticulum retrieval signal.''; PubMed Europe PMC Scholia
  22. Hong W, Lev S.; ''Tethering the assembly of SNARE complexes.''; PubMed Europe PMC Scholia
  23. Mancias JD, Goldberg J.; ''Structural basis of cargo membrane protein discrimination by the human COPII coat machinery.''; PubMed Europe PMC Scholia
  24. Supek F, Madden DT, Hamamoto S, Orci L, Schekman R.; ''Sec16p potentiates the action of COPII proteins to bud transport vesicles.''; PubMed Europe PMC Scholia
  25. Kirchhausen T.; ''Three ways to make a vesicle.''; PubMed Europe PMC Scholia
  26. Kung LF, Pagant S, Futai E, D'Arcangelo JG, Buchanan R, Dittmar JC, Reid RJ, Rothstein R, Hamamoto S, Snapp EL, Schekman R, Miller EA.; ''Sec24p and Sec16p cooperate to regulate the GTP cycle of the COPII coat.''; PubMed Europe PMC Scholia
  27. Watson P, Townley AK, Koka P, Palmer KJ, Stephens DJ.; ''Sec16 defines endoplasmic reticulum exit sites and is required for secretory cargo export in mammalian cells.''; PubMed Europe PMC Scholia
  28. Yamasaki A, Menon S, Yu S, Barrowman J, Meerloo T, Oorschot V, Klumperman J, Satoh A, Ferro-Novick S.; ''mTrs130 is a component of a mammalian TRAPPII complex, a Rab1 GEF that binds to COPI-coated vesicles.''; PubMed Europe PMC Scholia
  29. Saito K, Yamashiro K, Shimazu N, Tanabe T, Kontani K, Katada T.; ''Concentration of Sec12 at ER exit sites via interaction with cTAGE5 is required for collagen export.''; PubMed Europe PMC Scholia
  30. Cai H, Yu S, Menon S, Cai Y, Lazarova D, Fu C, Reinisch K, Hay JC, Ferro-Novick S.; ''TRAPPI tethers COPII vesicles by binding the coat subunit Sec23.''; PubMed Europe PMC Scholia
  31. Johnson A, Bhattacharya N, Hanna M, Pennington JG, Schuh AL, Wang L, Otegui MS, Stagg SM, Audhya A.; ''TFG clusters COPII-coated transport carriers and promotes early secretory pathway organization.''; PubMed Europe PMC Scholia
  32. Brunet S, Sacher M.; ''In sickness and in health: the role of TRAPP and associated proteins in disease.''; PubMed Europe PMC Scholia
  33. Hay JC, Klumperman J, Oorschot V, Steegmaier M, Kuo CS, Scheller RH.; ''Localization, dynamics, and protein interactions reveal distinct roles for ER and Golgi SNAREs.''; PubMed Europe PMC Scholia
  34. Otto H, Hanson PI, Jahn R.; ''Assembly and disassembly of a ternary complex of synaptobrevin, syntaxin, and SNAP-25 in the membrane of synaptic vesicles.''; PubMed Europe PMC Scholia
  35. Moyer BD, Allan BB, Balch WE.; ''Rab1 interaction with a GM130 effector complex regulates COPII vesicle cis--Golgi tethering.''; PubMed Europe PMC Scholia
  36. Witte K, Schuh AL, Hegermann J, Sarkeshik A, Mayers JR, Schwarze K, Yates JR, Eimer S, Audhya A.; ''TFG-1 function in protein secretion and oncogenesis.''; PubMed Europe PMC Scholia
  37. Brandizzi F, Barlowe C.; ''Organization of the ER-Golgi interface for membrane traffic control.''; PubMed Europe PMC Scholia
  38. Dancourt J, Barlowe C.; ''Protein sorting receptors in the early secretory pathway.''; PubMed Europe PMC Scholia
  39. Szul T, Sztul E.; ''COPII and COPI traffic at the ER-Golgi interface.''; PubMed Europe PMC Scholia
  40. Brandon E, Szul T, Alvarez C, Grabski R, Benjamin R, Kawai R, Sztul E.; ''On and off membrane dynamics of the endoplasmic reticulum-golgi tethering factor p115 in vivo.''; PubMed Europe PMC Scholia
  41. Muller JM, Shorter J, Newman R, Deinhardt K, Sagiv Y, Elazar Z, Warren G, Shima DT.; ''Sequential SNARE disassembly and GATE-16-GOS-28 complex assembly mediated by distinct NSF activities drives Golgi membrane fusion.''; PubMed Europe PMC Scholia
  42. Lord C, Ferro-Novick S, Miller EA.; ''The highly conserved COPII coat complex sorts cargo from the endoplasmic reticulum and targets it to the golgi.''; PubMed Europe PMC Scholia
  43. Cao X, Barlowe C.; ''Asymmetric requirements for a Rab GTPase and SNARE proteins in fusion of COPII vesicles with acceptor membranes.''; PubMed Europe PMC Scholia
  44. Flanagan JJ, Barlowe C.; ''Cysteine-disulfide cross-linking to monitor SNARE complex assembly during endoplasmic reticulum-Golgi transport.''; PubMed Europe PMC Scholia
  45. Miller E, Antonny B, Hamamoto S, Schekman R.; ''Cargo selection into COPII vesicles is driven by the Sec24p subunit.''; PubMed Europe PMC Scholia
  46. Zhao C, Smith EC, Whiteheart SW.; ''Requirements for the catalytic cycle of the N-ethylmaleimide-Sensitive Factor (NSF).''; PubMed Europe PMC Scholia
  47. Mayer A, Wickner W, Haas A.; ''Sec18p (NSF)-driven release of Sec17p (alpha-SNAP) can precede docking and fusion of yeast vacuoles.''; PubMed Europe PMC Scholia
  48. Kanapin A, Batalov S, Davis MJ, Gough J, Grimmond S, Kawaji H, Magrane M, Matsuda H, Schönbach C, Teasdale RD, Yuan Z, RIKEN GER Group, GSL Members.; ''Mouse proteome analysis.''; PubMed Europe PMC Scholia
  49. Haas AK, Yoshimura S, Stephens DJ, Preisinger C, Fuchs E, Barr FA.; ''Analysis of GTPase-activating proteins: Rab1 and Rab43 are key Rabs required to maintain a functional Golgi complex in human cells.''; PubMed Europe PMC Scholia
  50. Mossessova E, Bickford LC, Goldberg J.; ''SNARE selectivity of the COPII coat.''; PubMed Europe PMC Scholia
  51. Xu D, Joglekar AP, Williams AL, Hay JC.; ''Subunit structure of a mammalian ER/Golgi SNARE complex.''; PubMed Europe PMC Scholia
  52. Miller EA, Beilharz TH, Malkus PN, Lee MC, Hamamoto S, Orci L, Schekman R.; ''Multiple cargo binding sites on the COPII subunit Sec24p ensure capture of diverse membrane proteins into transport vesicles.''; PubMed Europe PMC Scholia
  53. Beetz C, Johnson A, Schuh AL, Thakur S, Varga RE, Fothergill T, Hertel N, Bomba-Warczak E, Thiele H, Nürnberg G, Altmüller J, Saxena R, Chapman ER, Dent EW, Nürnberg P, Audhya A.; ''Inhibition of TFG function causes hereditary axon degeneration by impairing endoplasmic reticulum structure.''; PubMed Europe PMC Scholia
  54. Söllner T, Bennett MK, Whiteheart SW, Scheller RH, Rothman JE.; ''A protein assembly-disassembly pathway in vitro that may correspond to sequential steps of synaptic vesicle docking, activation, and fusion.''; PubMed Europe PMC Scholia
  55. Barrowman J, Bhandari D, Reinisch K, Ferro-Novick S.; ''TRAPP complexes in membrane traffic: convergence through a common Rab.''; PubMed Europe PMC Scholia
  56. Bhattacharyya D, Glick BS.; ''Two mammalian Sec16 homologues have nonredundant functions in endoplasmic reticulum (ER) export and transitional ER organization.''; PubMed Europe PMC Scholia
  57. Stephens DJ, Lin-Marq N, Pagano A, Pepperkok R, Paccaud JP.; ''COPI-coated ER-to-Golgi transport complexes segregate from COPII in close proximity to ER exit sites.''; PubMed Europe PMC Scholia
  58. Weide T, Bayer M, Köster M, Siebrasse JP, Peters R, Barnekow A.; ''The Golgi matrix protein GM130: a specific interacting partner of the small GTPase rab1b.''; PubMed Europe PMC Scholia
  59. Sato K, Nakano A.; ''Mechanisms of COPII vesicle formation and protein sorting.''; PubMed Europe PMC Scholia
  60. Bentley M, Liang Y, Mullen K, Xu D, Sztul E, Hay JC.; ''SNARE status regulates tether recruitment and function in homotypic COPII vesicle fusion.''; PubMed Europe PMC Scholia
  61. Lord C, Bhandari D, Menon S, Ghassemian M, Nycz D, Hay J, Ghosh P, Ferro-Novick S.; ''Sequential interactions with Sec23 control the direction of vesicle traffic.''; PubMed Europe PMC Scholia
  62. Shorter J, Beard MB, Seemann J, Dirac-Svejstrup AB, Warren G.; ''Sequential tethering of Golgins and catalysis of SNAREpin assembly by the vesicle-tethering protein p115.''; PubMed Europe PMC Scholia
  63. Ong YS, Tang BL, Loo LS, Hong W.; ''p125A exists as part of the mammalian Sec13/Sec31 COPII subcomplex to facilitate ER-Golgi transport.''; PubMed Europe PMC Scholia
  64. Seemann J, Jokitalo EJ, Warren G.; ''The role of the tethering proteins p115 and GM130 in transport through the Golgi apparatus in vivo.''; PubMed Europe PMC Scholia

History

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CompareRevisionActionTimeUserComment
114690view16:16, 25 January 2021ReactomeTeamReactome version 75
113136view11:20, 2 November 2020ReactomeTeamReactome version 74
112367view15:29, 9 October 2020ReactomeTeamReactome version 73
101705view14:44, 1 November 2018DeSlOntology Term : 'transport pathway' added !
101269view11:16, 1 November 2018ReactomeTeamreactome version 66
100807view20:44, 31 October 2018ReactomeTeamreactome version 65
100718view20:11, 31 October 2018ReactomeTeamNew pathway

External references

DataNodes

View all...
NameTypeDatabase referenceComment
(Glc)3(GlcNAc)2(Man)9-CTSC ProteinP53634 (Uniprot-TrEMBL)
(Glc)3(GlcNAc)2(Man)9-CTSZ ProteinQ9UBR2 (Uniprot-TrEMBL)
(Glc)3(GlcNAc)2(Man)9-SERPINA1 ProteinP01009 (Uniprot-TrEMBL)
3x4Hyp-3Hyp-5Hyl-COL7A1 ProteinQ02388 (Uniprot-TrEMBL)
3x4Hyp-3Hyp-COL7A1 ProteinQ02388 (Uniprot-TrEMBL)
3x4Hyp-3Hyp-GalHyl-COL7A1 ProteinQ02388 (Uniprot-TrEMBL)
3x4Hyp-3Hyp-GlcGalHyl-COL7A1 ProteinQ02388 (Uniprot-TrEMBL)
3x4Hyp-5Hyl-COL7A1 ProteinQ02388 (Uniprot-TrEMBL)
3x4Hyp-COL7A1 ProteinQ02388 (Uniprot-TrEMBL)
3x4Hyp-GalHyl-COL7A1 ProteinQ02388 (Uniprot-TrEMBL)
3x4Hyp-GlcGalHyl-COL7A1 ProteinQ02388 (Uniprot-TrEMBL)
5Hyl-COL7A1 ProteinQ02388 (Uniprot-TrEMBL)
ANKRD28 ProteinO15084 (Uniprot-TrEMBL)
AREG precursor ProteinP15514 (Uniprot-TrEMBL)
ATPMetaboliteCHEBI:15422 (ChEBI)
BET1 ProteinO15155 (Uniprot-TrEMBL)
BET1:GOSR2:STX5:SCFD1ComplexR-HSA-5694305 (Reactome)
BET1ProteinO15155 (Uniprot-TrEMBL)
CNIH1 ProteinO95406 (Uniprot-TrEMBL)
CNIH2 ProteinQ6PI25 (Uniprot-TrEMBL)
CNIH3 ProteinQ8TBE1 (Uniprot-TrEMBL)
COL7A1 ProteinQ02388 (Uniprot-TrEMBL)
COPII

cargo

receptors:SAR1B:GTP:SEC23:SEC24
ComplexR-HSA-5694523 (Reactome)
COPII cargo:receptors:SAR1B:GTP:SEC23:SEC24:SEC16A:SEC16B:TFG hexamer:SEC13:SEC31:SEC23IP:v-SNARESComplexR-HSA-5694337 (Reactome)
COPII cargo:receptors:SAR1B:GTP:SEC23:SEC24:SEC16A:SEC16B:TFG hexamerComplexR-HSA-5694339 (Reactome)
COPII cargo:receptors:SEC23:SEC24:SEC13:SEC31:SEC23IP:v-SNAREs:TRAPPCII:RAB1:GDPComplexR-HSA-5694334 (Reactome)
COPII cargo:receptors:SEC23:SEC24:SEC13:SEC31:SEC23IP:v-SNAREs:TRAPPCII:RAB1:GTP:USO1 homodimer:GOLGA2:GORASP1ComplexR-HSA-5694332 (Reactome)
COPII cargo:receptors:SEC23:SEC24:SEC13:SEC31:SEC23IP:v-SNAREs:TRAPPCII:RAB1:GTPComplexR-HSA-5694330 (Reactome)
COPII cargo:receptors:SEC23:SEC24:SEC13:SEC31:SEC23IP:v-SNAREsComplexR-HSA-5694329 (Reactome)
COPII cargo:receptors:v:SNAREs:GOLGA2:GORASP1:USO1 homodimerComplexR-HSA-5694326 (Reactome)
COPII cargo:receptorsComplexR-HSA-5694244 (Reactome)
COPII cargo:receptorsComplexR-HSA-5694253 (Reactome)
CSNK1DProteinP48730 (Uniprot-TrEMBL)
Cargo concentration in the ERPathwayR-HSA-5694530 (Reactome) Computational analysis suggests that ~25% of the proteome may be exported from the ER in human cells (Kanapin et al, 2003). These cargo need to be recognized and concentrated into COPII vesicles, which range in size from 60-90 nm, and which move cargo from the ER to the ERGIC in mammalian cells (reviewed in Lord et al, 2013; Szul and Sztul, 2011). Recognition of transmembrane cargo is mediated by interaction with one of the 4 isoforms of SEC24, a component of the inner COPII coat (Miller et al, 2002; Miller et al, 2003; Mossessova et al, 2003; Mancias and Goldberg, 2008). Soluble cargo in the ER lumen is concentrated into COPII vesicles through interaction with a receptor of the ERGIC-53 family, the p24 family or the ERV family. Each of these families of transmembrane receptors interact with cargo through their lumenal domains and with components of the COPII coat with their cytoplasmic domains and are packaged into the COPII vesicle along with the cargo. The receptors are subsequently recycled to the ER in COPI vesicles through retrograde traffic (reviewed in Dancourt and Barlowe, 2010). Packaging of large cargo such as fibrillar collagen depends on the transmembrane accessory factors MIA3 (also known as TANGO1) and CTAGE5. Like the ERGIC, p24 and ERV cargo receptors, MIA3 and CTAGE5 interact both with the collagen cargo and with components of the COPII coat. Unlike the other cargo receptors, however, MIA3 and CTAGE5 are not loaded into the vesicle but remain in the ER membrane (reviewed in Malhotra and Erlmann, 2011; Malhotra et al, 2015).
ER-to-ERGIC v-SNARESComplexR-HSA-5694306 (Reactome)
ER-to-ERGIC v-SNARESComplexR-HSA-5694335 (Reactome)
Factor V precursor ProteinP12259 (Uniprot-TrEMBL)
Factor VIII precursor ProteinP00451 (Uniprot-TrEMBL)
GDP MetaboliteCHEBI:17552 (ChEBI)
GDPMetaboliteCHEBI:17552 (ChEBI)
GOLGA2 ProteinQ08379 (Uniprot-TrEMBL)
GOLGA2:GORASP1ComplexR-HSA-5694327 (Reactome)
GORASP1 ProteinQ9BQQ3 (Uniprot-TrEMBL)
GOSR2 ProteinO14653 (Uniprot-TrEMBL)
GOSR2ProteinO14653 (Uniprot-TrEMBL)
GPI-CD59 ProteinP13987 (Uniprot-TrEMBL)
GPI-FOLR1 ProteinP15328 (Uniprot-TrEMBL)
GRIA1 ProteinP42261 (Uniprot-TrEMBL)
GTP MetaboliteCHEBI:15996 (ChEBI)
GTPMetaboliteCHEBI:15996 (ChEBI)
GalHyl-COL7A1 ProteinQ02388 (Uniprot-TrEMBL)
GlcGalHyl-COL7A1 ProteinQ02388 (Uniprot-TrEMBL)
Glycoproteins with Man8 N-glycans R-HSA-5694207 (Reactome)
Glycoproteins with Man8 N-glycans R-HSA-5694216 (Reactome)
Glycoproteins with Man8 N-glycans R-HSA-5694224 (Reactome)
H2OMetaboliteCHEBI:15377 (ChEBI)
LMAN1 ProteinP49257 (Uniprot-TrEMBL)
LMAN1L ProteinQ9HAT1 (Uniprot-TrEMBL)
LMAN2 ProteinQ12907 (Uniprot-TrEMBL)
LMAN2L ProteinQ9H0V9 (Uniprot-TrEMBL)
MCFD2 ProteinQ8NI22 (Uniprot-TrEMBL)
NAPA ProteinP54920 (Uniprot-TrEMBL)
NAPB ProteinQ9H115 (Uniprot-TrEMBL)
NAPG ProteinQ99747 (Uniprot-TrEMBL)
NSF ProteinP46459 (Uniprot-TrEMBL)
NSF hexamerComplexR-HSA-2193131 (Reactome)
PP6ComplexR-HSA-5694294 (Reactome)
PPP6C ProteinO00743 (Uniprot-TrEMBL)
PPP6R1 ProteinQ9UPN7 (Uniprot-TrEMBL)
PPP6R3 ProteinQ5H9R7 (Uniprot-TrEMBL)
PREBProteinQ9HCU5 (Uniprot-TrEMBL)
PalmC-YKT6 ProteinO15498 (Uniprot-TrEMBL)
PiMetaboliteCHEBI:18367 (ChEBI)
RAB1:GDPComplexR-HSA-5694296 (Reactome)
RAB1:GTP:TBC1D20ComplexR-HSA-6814832 (Reactome)
RAB1:GTPComplexR-HSA-6807799 (Reactome)
RAB1A ProteinP62820 (Uniprot-TrEMBL)
RAB1B ProteinQ9H0U4 (Uniprot-TrEMBL)
SAR1B ProteinQ9Y6B6 (Uniprot-TrEMBL)
SAR1B:GDPComplexR-HSA-203989 (Reactome)
SAR1B:GTPComplexR-HSA-204003 (Reactome)
SAR1BProteinQ9Y6B6 (Uniprot-TrEMBL)
SCFD1 ProteinQ8WVM8 (Uniprot-TrEMBL)
SCFD1ProteinQ8WVM8 (Uniprot-TrEMBL)
SEC13 ProteinP55735 (Uniprot-TrEMBL)
SEC16A ProteinO15027 (Uniprot-TrEMBL)
SEC16A:SEC16BComplexR-HSA-5694307 (Reactome)
SEC16B ProteinQ96JE7 (Uniprot-TrEMBL)
SEC22A ProteinQ96IW7 (Uniprot-TrEMBL)
SEC22B ProteinO75396 (Uniprot-TrEMBL)
SEC22C ProteinQ9BRL7 (Uniprot-TrEMBL)
SEC23:SEC24ComplexR-HSA-203975 (Reactome)
SEC23A ProteinQ15436 (Uniprot-TrEMBL)
SEC23IP ProteinQ9Y6Y8 (Uniprot-TrEMBL)
SEC24A ProteinO95486 (Uniprot-TrEMBL)
SEC24B ProteinO95487 (Uniprot-TrEMBL)
SEC24C ProteinP53992 (Uniprot-TrEMBL)
SEC24D ProteinO94855 (Uniprot-TrEMBL)
SEC24ComplexR-HSA-203991 (Reactome)
SEC31A ProteinO94979 (Uniprot-TrEMBL)
SEC31A:SEC13:SEC23IPComplexR-HSA-5694316 (Reactome)
SNAPsComplexR-HSA-5694313 (Reactome)
STX17 ProteinP56962 (Uniprot-TrEMBL)
STX5 ProteinQ13190 (Uniprot-TrEMBL)
STX5,17ComplexR-HSA-6807784 (Reactome)
TBC1D20 ProteinQ96BZ9 (Uniprot-TrEMBL)
TBC1D20ProteinQ96BZ9 (Uniprot-TrEMBL)
TFG ProteinQ92734 (Uniprot-TrEMBL)
TFG hexamerComplexR-HSA-5694310 (Reactome)
TGFA precursor ProteinP01135 (Uniprot-TrEMBL)
TMED10 ProteinP49755 (Uniprot-TrEMBL)
TMED2 ProteinQ15363 (Uniprot-TrEMBL)
TRAPPC1 ProteinQ9Y5R8 (Uniprot-TrEMBL)
TRAPPC10 ProteinP48553 (Uniprot-TrEMBL)
TRAPPC2 ProteinP0DI81 (Uniprot-TrEMBL)
TRAPPC2L ProteinQ9UL33 (Uniprot-TrEMBL)
TRAPPC3 ProteinO43617 (Uniprot-TrEMBL)
TRAPPC4 ProteinQ9Y296 (Uniprot-TrEMBL)
TRAPPC5 ProteinQ8IUR0 (Uniprot-TrEMBL)
TRAPPC6A ProteinO75865 (Uniprot-TrEMBL)
TRAPPC6B ProteinQ86SZ2 (Uniprot-TrEMBL)
TRAPPC9 ProteinQ96Q05 (Uniprot-TrEMBL)
TRAPPCIIComplexR-HSA-5694315 (Reactome)
USO1 ProteinO60763 (Uniprot-TrEMBL)
USO1 homodimerComplexR-HSA-5694302 (Reactome)
cis-SNARE:NSF hexamer:3xSNAPComplexR-HSA-5694312 (Reactome)
cis-SNAREComplexR-HSA-5694303 (Reactome)
nascent procollagen VII vesicle R-ALL-5694171 (Reactome)
p-S742,T747 SEC23AProteinQ15436 (Uniprot-TrEMBL)
p-SEC24A ProteinO95486 (Uniprot-TrEMBL)
p-SEC24B ProteinO95487 (Uniprot-TrEMBL)
p-SEC24C ProteinP53992 (Uniprot-TrEMBL)
p-SEC24D ProteinO94855 (Uniprot-TrEMBL)
p-SEC24ComplexR-HSA-5694187 (Reactome)

Annotated Interactions

View all...
SourceTargetTypeDatabase referenceComment
ATPR-HSA-5694425 (Reactome)
BET1:GOSR2:STX5:SCFD1R-HSA-5694446 (Reactome)
BET1ArrowR-HSA-5694425 (Reactome)
COPII

cargo

receptors:SAR1B:GTP:SEC23:SEC24
ArrowR-HSA-5694522 (Reactome)
COPII

cargo

receptors:SAR1B:GTP:SEC23:SEC24
R-HSA-5694417 (Reactome)
COPII

cargo

receptors:SAR1B:GTP:SEC23:SEC24
R-HSA-5694527 (Reactome)
COPII

cargo

receptors:SAR1B:GTP:SEC23:SEC24
mim-catalysisR-HSA-5694527 (Reactome)
COPII cargo:receptors:SAR1B:GTP:SEC23:SEC24:SEC16A:SEC16B:TFG hexamer:SEC13:SEC31:SEC23IP:v-SNARESArrowR-HSA-204008 (Reactome)
COPII cargo:receptors:SAR1B:GTP:SEC23:SEC24:SEC16A:SEC16B:TFG hexamer:SEC13:SEC31:SEC23IP:v-SNARESR-HSA-203973 (Reactome)
COPII cargo:receptors:SAR1B:GTP:SEC23:SEC24:SEC16A:SEC16B:TFG hexamer:SEC13:SEC31:SEC23IP:v-SNARESmim-catalysisR-HSA-203973 (Reactome)
COPII cargo:receptors:SAR1B:GTP:SEC23:SEC24:SEC16A:SEC16B:TFG hexamerArrowR-HSA-5694417 (Reactome)
COPII cargo:receptors:SAR1B:GTP:SEC23:SEC24:SEC16A:SEC16B:TFG hexamerR-HSA-204008 (Reactome)
COPII cargo:receptors:SEC23:SEC24:SEC13:SEC31:SEC23IP:v-SNAREs:TRAPPCII:RAB1:GDPArrowR-HSA-5694439 (Reactome)
COPII cargo:receptors:SEC23:SEC24:SEC13:SEC31:SEC23IP:v-SNAREs:TRAPPCII:RAB1:GDPR-HSA-5694409 (Reactome)
COPII cargo:receptors:SEC23:SEC24:SEC13:SEC31:SEC23IP:v-SNAREs:TRAPPCII:RAB1:GDPmim-catalysisR-HSA-5694409 (Reactome)
COPII cargo:receptors:SEC23:SEC24:SEC13:SEC31:SEC23IP:v-SNAREs:TRAPPCII:RAB1:GTP:USO1 homodimer:GOLGA2:GORASP1ArrowR-HSA-5694418 (Reactome)
COPII cargo:receptors:SEC23:SEC24:SEC13:SEC31:SEC23IP:v-SNAREs:TRAPPCII:RAB1:GTP:USO1 homodimer:GOLGA2:GORASP1R-HSA-5694441 (Reactome)
COPII cargo:receptors:SEC23:SEC24:SEC13:SEC31:SEC23IP:v-SNAREs:TRAPPCII:RAB1:GTPArrowR-HSA-5694409 (Reactome)
COPII cargo:receptors:SEC23:SEC24:SEC13:SEC31:SEC23IP:v-SNAREs:TRAPPCII:RAB1:GTPR-HSA-5694418 (Reactome)
COPII cargo:receptors:SEC23:SEC24:SEC13:SEC31:SEC23IP:v-SNAREsArrowR-HSA-203973 (Reactome)
COPII cargo:receptors:SEC23:SEC24:SEC13:SEC31:SEC23IP:v-SNAREsR-HSA-5694439 (Reactome)
COPII cargo:receptors:v:SNAREs:GOLGA2:GORASP1:USO1 homodimerArrowR-HSA-5694441 (Reactome)
COPII cargo:receptors:v:SNAREs:GOLGA2:GORASP1:USO1 homodimerR-HSA-5694446 (Reactome)
COPII cargo:receptorsArrowR-HSA-5694446 (Reactome)
COPII cargo:receptorsArrowR-HSA-5694527 (Reactome)
COPII cargo:receptorsR-HSA-5694522 (Reactome)
CSNK1Dmim-catalysisR-HSA-5694441 (Reactome)
ER-to-ERGIC v-SNARESArrowR-HSA-5694425 (Reactome)
ER-to-ERGIC v-SNARESR-HSA-204008 (Reactome)
GDPArrowR-HSA-203977 (Reactome)
GDPArrowR-HSA-5694409 (Reactome)
GOLGA2:GORASP1ArrowR-HSA-5694446 (Reactome)
GOLGA2:GORASP1R-HSA-5694418 (Reactome)
GOSR2ArrowR-HSA-5694425 (Reactome)
GTPR-HSA-203977 (Reactome)
GTPR-HSA-5694409 (Reactome)
H2OR-HSA-5694421 (Reactome)
NSF hexamerArrowR-HSA-5694425 (Reactome)
NSF hexamerR-HSA-5694423 (Reactome)
PP6mim-catalysisR-HSA-5694421 (Reactome)
PREBmim-catalysisR-HSA-203977 (Reactome)
PiArrowR-HSA-203973 (Reactome)
PiArrowR-HSA-5694421 (Reactome)
PiArrowR-HSA-5694425 (Reactome)
PiArrowR-HSA-5694527 (Reactome)
R-HSA-203973 (Reactome) Once loaded the vesicles become fully sculpted, pinch off from the ER and bud into the cytosol. Budding depends on SAR1:GTPase activity and likely releases the SEC16 complex. SAR1:GTPase activity may result in partial uncoating of the emerging vesicle, allowing SEC23 to be exposed for subsequent TRAPPCII binding.
R-HSA-203977 (Reactome) SAR1-GDP is recruited to the ER membrane by the transmembrane GEF (Guanine nucleotide exchange factor) PREB (also known as SEC12), where it is converted to SAR1-GTP. PREB itself is recruited to ER exit sites through interaction with CTAGE5.
R-HSA-204008 (Reactome) The outer coat proteins SEC13 and SEC31A are thought to exist in a cytosolic heterohexamer with SEC23IP and are recruited to the ER through interaction with pre-bound SEC23-SEC24 complexes (Stephens et al, 2000; Hammond and Glick, 2000; Ong et al, 2010; reviewed in Szul and Sztul, 2011). v-SNAREs such as the SEC22 proteins are also incorporated into the emerging vesicle through interactions with components of the COPII coat (Xu et al, 2000; Mancias and Goldberg, 2008; Gordon et al, 2010; reviewed in Szul and Sztul, 2011; Lord et al, 2013).
R-HSA-5694409 (Reactome) The TRAPPC complex acts as a guanine-nucleotide exchange factor for RAB1, activating it (Yamasaki et al, 2009; reviewed in Brunet and Sacher, 2014).
R-HSA-5694417 (Reactome) The multimeric SEC16 complex marks sites of ER exit (ERES) and helps to localize nascent COPII coat complexes through interaction with SEC23 and SAR1 (Battacharyya et al, 2007; Watson et al, 2006; Hughes et al, 2009; Yorimitsu and Sato, 2012; reviewed in Sprangers and Rabouille, 2015). SEC16 may help to prevent premature dissociation of the COPII coats after activation of SEC13 GTPase (Supek et al, 2002; Kung et al, 2012). SEC16 functions with hexameric TFG1, which is recruited to the ERES through direct interaction with SEC16 and is required for cargo traffic out of the ER and for organization of the ER-to-ERGIC boundary (Witte et al, 2001; Beetz et al, 2012; Johnson et al, 2015).
R-HSA-5694418 (Reactome) Protein protein interactions involving activated RAB1:GTP help dock the ER-derived vesicle on the cis-Golgi membrane (reviewed in Lord et al, 2013) . Independently, RAB:GTP interacts with both the USO1 homodimer (a long coiled coil tethering factor also known as p115) and the GOLGA2 component of the GOLGA2:GORASP1 complex on the cis-Golgi membrane (Allan et al, 2000; Moyer et al, 2001; Weide et al, 2001). USO1 also contacts GOLGA2 directly (Nakamura et al, 1997; Seeman et al, 2000). t-SNARES such as STX5, GOSR1and GOSR2 also participate in this complex on the cis-ERGIC membrane (Brandon et al, 2006; Shorter et al, 2002; reviewed in Brandizzi and Barlowe, 2013).
R-HSA-5694421 (Reactome) PP6 dephosphorylates released coat proteins including SEC24, SEC31 and SEC23, allowing them to recycle for further rounds of vesicle budding from the ER (Lord et al, 2011; Bhandari et al, 2013).
R-HSA-5694423 (Reactome) After membrane fusion, the cis-SNARE complex is dissociated in an ATP-dependent fashion by the AAA protein NSF in conjunction with SNAP proteins (Mayer et al, 1996; Sollner et al, 1993; reviewed in Jahn and Scheller, 2006; Sudhof and Rothman, 2009).
R-HSA-5694425 (Reactome) NSF-dependent hydrolysis of ATP is required to disassociate the cis-SNARE complex, releasing the SNAREs for further rounds of membrane fusion (Mayer et al, 1996; Muller et al, 1999; Muller et al, 2002; Otto et al, 1997; Whiteheart et al, 2004; Yu et al, 1999; Zhao et al, 2012; Shah et al, 2015; reviewed in Sudhof and Rothman, 2009).
R-HSA-5694439 (Reactome) TRAPPC is a multi-subunit tethering complex that facilitates ER-to-Golgi traffic (reviewed in Barrowman et al, 2010; Brunet and Sacher, 2014). TRAPPC is a guanine-nucleotide exchange factor for RAB1 and is recruited to ER-derived vesicles by virtue of an interaction between the TRAPPC component TRAPPC3 and the coat protein SEC23 (Cai et al, 2007; Lord et al, 2011).
R-HSA-5694441 (Reactome) Coat release at the ERGIC membrane may be stimulated by CSNK1D-dependent phosphorylation of SEC23 and SEC24 (Lord et al, 2011).
R-HSA-5694446 (Reactome) After displacement of the COPII coat, a tetrameric SNAREpin forms between the v-SNARE and the three t-SNARE proteins (Hay et al, 1997; Hay et al, 1998; Hui et al, 1997; Bentley et al, 2006; reviewed in Hong and Lev 2014). This interaction is promoted by the tethering factor USO1 and by the STX5-interacting protein SCFD1 (Wang et al, 2014; Dascher and Balch, 1996; Cao and Barlowe 2000; Flanagan and Barlowe, 2006; reviewed in Lord et al, 2013). The zippering of the SNAREpin provides the mechanical force that drives membrane fusion, releasing cargo into the acceptor compartment (reviewed in Sudhof and Rothman, 2009).
R-HSA-5694522 (Reactome) SAR1:GTP recruits the cytoplasmic SEC23:SEC24 complex. SEC24, and to a lesser extent SEC23, also mediate interaction with COPII cargo, concentrating it into the emerging vesicle. Transmembrane cargo may interact directly with the inner coat proteins, often in an isoform specific manner; alternately, some transmembrane proteins and all soluble cargo interact first with a cargo receptor of the p24, LMAN or ERV families.
R-HSA-5694527 (Reactome) Sar1p-GTP hydrolysis is increased 15-30-fold by Sec23p. Sar1p-GDP is released as a result of this hydrolysis and used in further vesicle sculpting cycles. Sar1p-GTP hydrolysis occurs at two critical points during the cycle, first (as represented here) as a proofreading step, insuring that the cargo is loaded. Later in the cycle Sar1p-GTP hydrolysis triggers the uncoating of the budded vesicle.
R-HSA-6814831 (Reactome) TBC1D20 was identified as a GTPase activating protein for RAB1 that stimulates basal GTP hydrolysis by more than 5 orders of magnitude (Haas et al, 2007; Fuchs et al, 2007).
R-HSA-6814833 (Reactome) TBC1D20 was identified as a RAB1-specific GTPase activating protein (GAP) that stimulates RAB1-mediated GTP hydrolysis and plays roles in ER-to-Golgi trafficking. TBC1D20 is the only GAP that has been identified to block delivery of secretory cargo from the ER to the cell surface (Haas et al, 2007).
RAB1:GDPArrowR-HSA-6814833 (Reactome)
RAB1:GDPR-HSA-5694439 (Reactome)
RAB1:GTP:TBC1D20ArrowR-HSA-6814831 (Reactome)
RAB1:GTP:TBC1D20R-HSA-6814833 (Reactome)
RAB1:GTP:TBC1D20mim-catalysisR-HSA-6814833 (Reactome)
RAB1:GTPArrowR-HSA-5694441 (Reactome)
RAB1:GTPR-HSA-6814831 (Reactome)
SAR1B:GDPArrowR-HSA-5694527 (Reactome)
SAR1B:GDPR-HSA-203977 (Reactome)
SAR1B:GTPArrowR-HSA-203977 (Reactome)
SAR1B:GTPR-HSA-5694522 (Reactome)
SAR1BArrowR-HSA-203973 (Reactome)
SCFD1ArrowR-HSA-5694425 (Reactome)
SEC16A:SEC16BArrowR-HSA-203973 (Reactome)
SEC16A:SEC16BR-HSA-5694417 (Reactome)
SEC23:SEC24ArrowR-HSA-5694527 (Reactome)
SEC23:SEC24R-HSA-5694522 (Reactome)
SEC24ArrowR-HSA-5694421 (Reactome)
SEC31A:SEC13:SEC23IPArrowR-HSA-5694441 (Reactome)
SEC31A:SEC13:SEC23IPR-HSA-204008 (Reactome)
SNAPsArrowR-HSA-5694425 (Reactome)
SNAPsR-HSA-5694423 (Reactome)
STX5,17ArrowR-HSA-5694425 (Reactome)
TBC1D20ArrowR-HSA-6814833 (Reactome)
TBC1D20R-HSA-6814831 (Reactome)
TFG hexamerArrowR-HSA-203973 (Reactome)
TFG hexamerR-HSA-5694417 (Reactome)
TRAPPCIIArrowR-HSA-5694441 (Reactome)
TRAPPCIIR-HSA-5694439 (Reactome)
USO1 homodimerArrowR-HSA-5694446 (Reactome)
USO1 homodimerR-HSA-5694418 (Reactome)
cis-SNARE:NSF hexamer:3xSNAPArrowR-HSA-5694423 (Reactome)
cis-SNARE:NSF hexamer:3xSNAPR-HSA-5694425 (Reactome)
cis-SNARE:NSF hexamer:3xSNAPmim-catalysisR-HSA-5694425 (Reactome)
cis-SNAREArrowR-HSA-5694446 (Reactome)
cis-SNARER-HSA-5694423 (Reactome)
p-S742,T747 SEC23AArrowR-HSA-5694441 (Reactome)
p-SEC24ArrowR-HSA-5694441 (Reactome)
p-SEC24R-HSA-5694421 (Reactome)
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