Recruitment of Arf1-GDP to Golgi by Glo3p-type ArfGAPs is crucial for golgi maintenance and plant growth

Plant Physiology

Volumn 161, Issue 2, 2013, Pages 676-691

  Min, Myung Ki ^a,c   Jang, Mihue ^a   Lee, Myounghui ^a   Lee, Junho ^a   Song, Kyungyoung ^a   Lee, Yongjik ^a   Choi, Kwan Yong ^a   Robinson, David G ^b   Hwang, Inhwan ^a  

^a Pohang University of Science and Technology (POSTECH)   (South Korea)

^b UNIVERSITY OF HEIDELBERG   (Germany)

^c National Institute of Animal Science   (South Korea)

Author keywords

[No Author keywords available]

Indexed keywords

EID: 84873261175     PISSN: 00320889     EISSN: 15322548     Source Type: Journal    
DOI: 10.1104/pp.112.209148     Document Type: Article

References (57)

1. Abramoff MD, Magelhaes PJ, Ram SJ (2004) Image processing with ImageJ. Biophotonics Int 11: 36-42
2. Aoe T, Cukierman E, Lee A, Cassel D, Peters PJ, Hsu VW (1997) The KDEL receptor, ERD2, regulates intracellular traffic by recruiting a GTPase-activating protein for ARF1. EMBO J 16: 7305-7316
3. Aoyama T, Chua NH (1997) A glucocorticoid-mediated transcriptional induction system in transgenic plants. Plant J 11: 605-612
4. Balch WE, Kahn RA, Schwaninger R (1992) ADP-ribosylation factor is required for vesicular trafficking between the endoplasmic reticulum and the cis-Golgi compartment. J Biol Chem 267: 13053-13061
5. Bigay J, Gounon P, Robineau S, Antonny B (2003) Lipid packing sensed by ArfGAP1 couples COPI coat disassembly to membrane bilayer curvature. Nature 426: 563-566
6. Brandizzi F, Frangne N, Marc-Martin S, Hawes C, Neuhaus JM, Paris N (2002) The destination for single-pass membrane proteins is influenced markedly by the length of the hydrophobic domain. Plant Cell 14: 1077-1092
7. Clough SJ, Bent AF (1998) Floral dip: a simplified method for Agrobacteriummediated transformation of Arabidopsis thaliana. Plant J 16: 735-743
8. Cukierman E, Huber I, Rotman M, Cassel D (1995) The ARF1 GTPaseactivating protein: zinc finger motif and Golgi complex localization. Science 270: 1999-2002
9. Denecke J, Aniento F, Frigerio L, Hawes C, Hwang I, Mathur J, Neuhaus JM, Robinson DG (2012) Secretory pathway research: the more experimental systems the better. Plant Cell 24: 1316-1326
10. Donaldson JG, Jackson CL (2000) Regulators and effectors of the ARF GTPases. Curr Opin Cell Biol 12: 475-482 D'
11. Souza-Schorey C, Chavrier P (2006) ARF proteins: roles in membrane traffic and beyond. Nat Rev Mol Cell Biol 7: 347-358
12. French AP, Mills S, Swarup R, Bennett MJ, Pridmore TP (2008) Colocalization of fluorescent markers in confocal microscope images of plant cells. Nat Protoc 3: 619-628
13. Frigerio G, Grimsey N, Dale M, Majoul I, Duden R (2007) Two human ARFGAPs associated with COP-I-coated vesicles. Traffic 8: 1644-1655
14. Gillingham AK, Munro S (2007) The small G proteins of the Arf family and their regulators. Annu Rev Cell Dev Biol 23: 579-611
15. Goldberg J (1999) Structural and functional analysis of the ARF1-ARFGAP complex reveals a role for coatomer in GTP hydrolysis. Cell 96: 893-902
16. Gommel DU, Memon AR, Heiss A, Lottspeich F, Pfannstiel J, Lechner J, Reinhard C, Helms JB, Nickel W, Wieland FT (2001) Recruitment to Golgi membranes of ADP-ribosylation factor 1 is mediated by the cytoplasmic domain of p23. EMBO J 20: 6751-6760
17. Honda A, Al-Awar OS, Hay JC, Donaldson JG (2005) Targeting of Arf-1 to the early Golgi by membrin, an ER-Golgi SNARE. J Cell Biol 168: 1039-1051
18. Hwang I, Robinson DG (2009) Transport vesicle formation in plant cells. Curr Opin Plant Biol 12: 660-669
19. Hyunjong B, Lee DS, Hwang I (2006) Dual targeting of xylanase to chloroplasts and peroxisomes as a means to increase protein accumulation in plant cells. J Exp Bot 57: 161-169
20. Inoue H, Randazzo PA (2007) Arf GAPs and their interacting proteins. Traffic 8: 1465-1475
21. Jensen RB, Lykke-Andersen K, Frandsen GI, Nielsen HB, Haseloff J, Jespersen HM, Mundy J, Skriver K (2000) Promiscuous and specific phospholipid binding by domains in ZAC, a membrane-associated Arabidopsis protein with an ARF GAP zinc finger and a C2 domain. Plant Mol Biol 44: 799-814
22. Jin JB, Kim YA, Kim SJ, Lee SH, Kim DH, Cheong GW, Hwang I (2001) A new dynamin-like protein, ADL6, is involved in trafficking from the trans-Golgi network to the central vacuole in Arabidopsis. Plant Cell 13: 1511-1526
23. Kartberg F, Asp L, Dejgaard SY, Smedh M, Fernandez-Rodriguez J, Nilsson T, Presley JF (2010) ARFGAP2 and ARFGAP3 are essential for COPI coat assembly on the Golgi membrane of living cells. J Biol Chem 285: 36709-36720
24. Kim DH, Eu YJ, Yoo CM, Kim YW, Pih KT, Jin JB, Kim SJ, Stenmark H, Hwang I (2001a) Trafficking of phosphatidylinositol 3-phosphate from the trans-Golgi network to the lumen of the central vacuole in plant cells. Plant Cell 13: 287-301
25. Kim H, Park M, KimSJ, Hwang I (2005) Actin filaments play a critical role in vacuolar trafficking at the Golgi complex in plant cells. Plant Cell 17: 888-902
26. Kim MH, Roh HE, Lee MN, Hur MW (2007). New fast BiFC plasmid assay system for in vivo protein-protein interactions. Cell Physiol Biochem 20: 703-714
27. Kim YW, Park DS, Park SC, Kim SH, Cheong GW, Hwang I (2001b) Arabidopsis dynamin-like 2 that binds specifically to phosphatidylinositol 4-phosphate assembles into a high-molecular weight complex in vivo and in vitro. Plant Physiol 127: 1243-1255
28. Kliouchnikov L, Bigay J, Mesmin B, Parnis A, Rawet M, Goldfeder N, Antonny B, Cassel D (2009) Discrete determinants in ArfGAP2/3 conferring Golgi localization and regulation by the COPI coat. Mol Biol Cell 20: 859-869
29. Koizumi K, Naramoto S, Sawa S, Yahara N, Ueda T, Nakano A, Sugiyama M, Fukuda H (2005) VAN3 ARF-GAP-mediated vesicle transport is involved in leaf vascular network formation. Development 132: 1699-1711
30. Lanoix J, Ouwendijk J, Lin CC, Stark A, Love HD, Ostermann J, Nilsson T (1999) GTP hydrolysis by arf-1 mediates sorting and concentration of Golgi resident enzymes into functional COP I vesicles. EMBO J 18: 4935-4948
31. Lee LY, Fang MJ, Kuang LY, Gelvin SB (2008) Vectors for multi-color bimolecular fluorescence complementation to investigate protein-protein interactions in living plant cells. Plant Methods 4: 24-34
32. Lee MH, Min MK, Lee YJ, Jin JB, Shin DH, Kim DH, Lee KH, Hwang I (2002) ADP-ribosylation factor 1 of Arabidopsis plays a critical role in intracellular trafficking and maintenance of endoplasmic reticulum morphology in Arabidopsis. Plant Physiol 129: 1507-1520
33. Lee SY, Yang JS, Hong W, Premont RT, Hsu VW (2005) ARFGAP1 plays a central role in coupling COPI cargo sorting with vesicle formation. J Cell Biol 168: 281-290
34. Lewis SM, Poon PP, Singer RA, Johnston GC, Spang A (2004) The Arf-GAP Glo3 is required for the generation of COPI vesicles. Mol Biol Cell 15: 4064-4072
35. Liu W, Duden R, Phair RD, Lippincott-Schwartz J (2005) ArfGAP1 dynamics and its role in COPI coat assembly on Golgi membranes of living cells. J Cell Biol 168: 1053-1063
36. Livak KJ, Schmittgen TD (2001) Analysis of relative gene expression data using real-time quantitative PCR and the 22DDCT method. Methods 25: 402-408
37. Matheson LA, Suri SS, Hanton SL, Chatre L, Brandizzi F (2008) Correct targeting of plant ARF GTPases relies on distinct protein domains. Traffic 9: 103-120
38. Min MK, Kim SJ, Miao Y, Shin J, Jiang L, Hwang I (2007) Overexpression of Arabidopsis AGD7 causes relocation of Golgi-localized proteins to the endoplasmic reticulum and inhibits protein trafficking in plant cells. Plant Physiol 143: 1601-1614
39. Pimpl P, Movafeghi A, Coughlan S, Denecke J, Hillmer S, Robinson DG (2000) In situ localization and in vitro induction of plant COPI-coated vesicles. Plant Cell 12: 2219-2236
40. Presley JF, Ward TH, Pfeifer AC, Siggia ED, Phair RD, Lippincott-Schwartz J (2002) Dissection of COPI and Arf1 dynamics in vivo and role in Golgi membrane transport. Nature 417: 187-193
41. Rein U, Andag U, Duden R, Schmitt HD, Spang A (2002) ARF-GAPmediated interaction between the ER-Golgi v-SNAREs and the COPI coat. J Cell Biol 157: 395-404
42. Saitoh A, Shin HW, Yamada A, Waguri S, Nakayama K (2009) Three homologous ArfGAPs participate in coat protein I-mediated transport. J Biol Chem 284: 13948-13957
43. Sanderfoot AA, Kovaleva V, Bassham DC, Raikhel NV (2001) Interactions between syntaxins identify at least five SNARE complexes within the Golgi/prevacuolar system of the Arabidopsis cell. Mol Biol Cell 12: 3733-3743
44. Sanderfoot AA, Kovaleva V, Zheng H, Raikhel NV (1999) The t-SNARE AtVAM3p resides on the prevacuolar compartment in Arabidopsis root cells. Plant Physiol 121: 929-938
45. Schindler C, Rodriguez F, Poon PP, Singer RA, Johnston GC, Spang A (2009) The GAP domain and the SNARE, coatomer and cargo interaction region of the ArfGAP2/3 Glo3 are sufficient for Glo3 function. Traffic 10: 1362-1375
46. Sieburth LE, Muday GK, King EJ, Benton G, Kim S, Metcalf KE, Meyers L, Seamen E, Van Norman JM (2006) SCARFACE encodes an ARF-GAP that is required for normal auxin efflux and vein patterning in Arabidopsis. Plant Cell 18: 1396-1411
47. Sohn EJ, Kim ES, Zhao M, Kim SJ, Kim H, Kim YW, Lee YJ, Hillmer S, Sohn U, Jiang L, et al (2003) Rha1, an Arabidopsis Rab5 homolog, plays a critical role in the vacuolar trafficking of soluble cargo proteins. Plant Cell 15: 1057-1070
48. Song XF, Yang CY, Liu J, Yang WC (2006) RPA, a class II ARFGAP protein, activates ARF1 and U5 and plays a role in root hair development in Arabidopsis. Plant Physiol 141: 966-976
49. Spang A, Shiba Y, Randazzo PA (2010) Arf GAPs: gatekeepers of vesicle generation. FEBS Lett 584: 2646-2651
50. Stefano G, Renna L, Rossi M, Azzarello E, Pollastri S, Brandizzi F, Baluska F, Mancuso S (2010) AGD5 is a GTPase-activating protein at the trans-Golgi network. Plant J 64: 790-799
51. Takeuchi M, Ueda T, Yahara N, Nakano A (2002) Arf1 GTPase plays roles in the protein traffic between the endoplasmic reticulum and the Golgi apparatus in tobacco and Arabidopsis cultured cells. Plant J 31: 499-515
52. Tamura K, Shimada T, Kondo M, Nishimura M, Hara-Nishimura I (2005) KATAMARI1/MURUS3 is a novel Golgi membrane protein that is required for endomembrane organization in Arabidopsis. Plant Cell 17: 1764-1776
53. Weimer C, Beck R, Eckert P, Reckmann I, Moelleken J, Brügger B, Wieland F (2008) Differential roles of ArfGAP1, ArfGAP2, and ArfGAP3 in COPI trafficking. J Cell Biol 183: 725-735
54. Wesley SV, Helliwell CA, Smith NA, Wang MB, Rouse DT, Liu Q, Gooding PS, Singh SP, Abbott D, Stoutjesdijk PA, et al (2001) Construct design for efficient, effective and high-throughput gene silencing in plants. Plant J 27: 581-590
55. Yoo CM, Wen J, Motes CM, Sparks JA, Blancaflor EB (2008) A class I ADP-ribosylation factor GTPase-activating protein is critical for maintaining directional root hair growth in Arabidopsis. Plant Physiol 147: 1659-1674
56. Zhang CJ, Cavenagh MM, Kahn RA (1998) A family of Arf effectors defined as suppressors of the loss of Arf function in the yeast Saccharomyces cerevisiae. J Biol Chem 273: 19792-19796
57. Zhuang X, Xu Y, Chong K, Lan L, Xue Y, Xu Z (2005) OsAGAP, an ARFGAP from rice, regulates root development mediated by auxin in Arabidopsis. Plant Cell Environ 28: 147-156