Dissection of arabidopsis ADP-ribosylation factor 1 function in epidermal cell polarity

Plant Cell

Volumn 17, Issue 2, 2005, Pages 525-536

  Xu, Jian ^a   Scheres, Ben ^a  

^a UTRECHT UNIVERSITY   (Netherlands)

Author keywords

[No Author keywords available]

Indexed keywords

CELLS; GENES;

SINGLE-CELL LEVEL; VESICLE TRAFFICKING; VESICLE TRANSPORT;

PLANTS (BOTANY);

CELLS; GENES; PLANTS;

ALLIUM CEPA; ARABIDOPSIS; ARABIDOPSIS THALIANA;

EID: 21744446803     PISSN: 10404651     EISSN: None     Source Type: Journal    
DOI: 10.1105/tpc.104.028449     Document Type: Article

References (53)

1. Alonso, J.M., et al. (2003). Genome-wide insertional mutagenesis of Arabidopsis thaliana. Science 301, 653-657.
2. Balch, W.E., Kahn, R.A., and 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.
3. Bernhardt, C., and Tierney, M.L. (2000). Expression of AtPRP3, a proline-rich structural cell wall protein from Arabidopsis, is regulated by cell-type-specific developmental pathways involved in root hair formation. Plant Physiol. 122, 705-714.
4. Brand, A.H., and Perrimon, N. (1993). Targeted gene expression as a means of altering cell fates and generating dominant phenotypes. Development 118, 401-415.
5. Casamitjana-Martinez, E., Hofhuis, H.F., Xu, J., Liu, C.M., Heidstra, R., and Scheres, B. (2003). Root-specific CLE19 overexpression and the sol1/2 suppressors implicate a CLV-like pathway in the control of Arabidopsis root meristem maintenance. Curr. Biol. 13, 1435-1441.
6. Chardin, P., and McCormick, F. (1999). Brefeldin A: The advantage of being uncompetitive. Cell 97, 153-155.
7. Clough, S.J., and Bent, A.F. (1998). Floral dip: A simplified method for Agrobacterium-mediated transformation of Arabidopsis thaliana. Plant J. 16, 735-743.
8. Dascher, C., and Balch, W.E. (1994). Dominant inhibitory mutants of ARF1 block endoplasmic reticulum to Golgi transport and trigger disassembly of the Golgi apparatus. J. Biol. Chem. 269, 1437-1448.
9. Erickson, J.W., Zhang, C., Kahn, R.A., Evans, T., and Cerione, R.A. (1996). Mammalian Cdc42 is a brefeldin A-sensitive component of the Golgi apparatus. J. Biol. Chem. 271, 26850-26854.
10. Etienne-Manneville, S., and Hall, A. (2002). Rho GTPases in cell biology. Nature 420, 629-635.
11. Gaynor, E.C., Chen, C.Y., Emr, S.D., and Graham, T.R. (1998). ARF is required for maintenance of yeast Golgi and endosome structure and function. Mol. Biol. Cell 9, 653-670.
12. Geldner, N., Anders, N., Wolters, H., Keicher, J., Komberger, W., Muller, P., Delbarre, A., Ueda, T., Nakano, A., and Jurgens, G. (2003). The Arabidopsis GNOM ARF-GEF mediates endosomal recycling, auxin transport, and auxin-dependent plant growth. Cell 112, 219-230.
13. Geldner, N., Friml, J., Stierhof, Y.D., Jurgens, G., and Palme, K. (2001). Auxin transport inhibitors block PIN1 cycling and vesicle trafficking. Nature 27, 425-428.
14. Goldberg, J. (2000). Decoding of sorting signals by coatomer through a GTPase switch in the COPI coat complex. Cell 100, 671-679.
15. Grebe, M., Friml, J., Swarup, R., Ljung, K., Sandberg, G., Terlou, M., Palme, K., Bennett, M.J., and Scheres, B. (2002). Cell polarity signaling in Arabidopsis involves a BFA-sensitive auxin influx pathway. Curr. Biol. 12, 329-334.
16. Grebe, M., Xu, J., Mobius, W., Ueda, T., Nakano, A., Geuze, H.J., Rook, M.B., and Scheres, B. (2003). Arabidopsis sterol endocytosis involves actin-mediated trafficking via ARA6-positive early endosomes. Curr. Biol. 13, 1378-1387.
17. Gu, F., and Gruenberg, J. (2000). ARF1 regulates pH-dependent COP functions in the early endocytic pathway. J. Biol. Chem. 275, 8154-8160.
18. Jones, M.A., Shen, J.J., Fu, Y., Li, H., Yang, Z., and Grierson, C.S. (2002). The Arabidopsis Rop2 GTPase is a positive regulator of both root hair initiation and tip growth. Plant Cell 14, 763-776.
19. Jürgens, G., and Geldner, N. (2002). Protein secretion in plants: From the trans-Golgi network to the outer space. Traffic 3, 605-613.
20. Kost, B., Spielhofer, P., and Chua, N.H. (1998). A GFP-mouse talin fusion protein labels plant actin filaments in vivo and visualizes the actin cytoskeleton in growing pollen tubes. Plant J. 16, 393-401.
21. Lee, M.H., Min, M.K., Lee, Y.J., Jin, J.B., Shin, D.H., Kim, D.H., Lee, K.H., and 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.
22. Lippincott-Schwartz, J., Yuan, L., Tipper, C., Amherdt, M., Orci, L., and Klausner, R.D. (1991). Brefeldin A's effects on endosomes, lysosomes, and the TGN suggest a general mechanism for regulating organelle structure and membrane traffic. Cell 67, 601-616.
23. Lippincott-Schwartz, J., Yuan, L.C., Bonifacino, J.S., and Klausner, R.D. (1989). Rapid redistribution of Golgi proteins into the ER in cells treated with brefeldin A: Evidence for membrane cycling from Golgi to ER. Cell 56, 801-813.
24. Luschnig, C., Gaxiola, R.A., Grisafi, P., and Fink, G.R. (1998). EIR1, a root-specific protein involved in auxin transport, is required for gravitropism in Arabidopsis thaliana. Genes Dev. 12, 2175-2187.
25. Masucci, J.D., and Schiefelbein, J.W. (1994). The rhd6 mutation of Arabidopsis thaliana alters root-hair initiation through an auxin- and ethylene-associated process. Plant Physiol. 106, 1335-1346.
26. Mayer, U., Buettner, G., and Juergens, G. (1993). Apical-basal pattern formation in the Arabidopsis embryo: Studies on the role of the gnom gene. Development 117, 149-162.
27. McElver, J., et al. (2001). Insertional mutagenesis of genes required for seed development in Arabidopsis thaliana. Genetics 159, 1751-1763.
28. Molendijk, A.J., Bischoff, F., Rajendrakumar, C.S., Friml, J., Braun, M., Gilroy, S., and Palme, K. (2001). Arabidopsis thaliana Rop GTPases are localized to tips of root hairs and control polar growth. EMBO J. 20, 2779-2788.
29. Morris, D.A., and Robinson, J.S. (1998). Targeting of auxin carriers to the plasma membrane: Differential effects of brefeldin A on the traffic of auxin uptake and efflux carriers. Planta 205, 606-612.
30. Mossessova, E., Corpina, R.A., and Goldberg, J. (2003). Crystal structure of ARF1*Sec7 complexed with Brefeldin A and its implications for the guanine nucleotide exchange mechanism. Mol. Cell 12, 1403-1411.
31. Mostov, K., Su, T., and ter Beest, M. (2003). Polarized epithelial membrane traffic: Conservation and plasticity. Nat. Cell Biol. 5, 287-293.
32. Muller, A., Guan, C., Galweiler, L., Tanzler, P., Huijser, P., Marchant, A., Parry, G., Bennett, M., Wisman, E., and Palme, K. (1998). AtPIN2 defines a locus of Arabidopsis for root gravitropism control. EMBO J. 17, 6903-6911.
33. Nebenfuhr, A., Ritzenthaler, C., and Robinson, D.G. (2002). Brefeldin A: Deciphering an enigmatic inhibitor of secretion. Plant Physiol. 130, 1102-1108.
34. Pepperkok, R., Whitney, J.A., Gomez, M., and Kreis, T.E. (2000). COPI vesicles accumulating in the presence of a GTP restricted arf1 mutant are depleted of anterograde and retrograde cargo. J. Cell Sci. 113, 135-144.
35. Pimpl, P., Hanton, S.L., Taylor, J.P., Pinto-DaSilva, L.L., and Denecke, J. (2003). The GTPase ARF1 p controls the sequence-specific vacuolar sorting route to the lytic vacuole. Plant Cell 15, 1242-1256.
36. Pimpl, P., Movafeghi, A., Coughlan, S., Denecke, J., Hillmer, S., and Robinson, D.G. (2000). In situ localization and in vitro induction of plant COPI-coated vesicles. Plant Cell 12, 2219-2235.
37. Presley, J.F., Ward, T.H., Pfeifer, A.C., Siggia, E.D., Phair, R.D., and Lippincott-Schwartz, J. (2002). Dissection of COPI and Arf1 dynamics in vivo and role in Golgi membrane transport. Nature 417, 187-193.
38. Ringli, C., Baumberger, N., Diet, A., Frey, B., and Keller, B. (2002). ACTIN2 is essential for bulge site selection and tip growth during root hair development of Arabidopsis. Plant Physiol. 129, 1464-1472.
39. Ritzenthaler, C., Nebenfuhr, A., Movafeghi, A., Stussi-Garaud, C., Behnia, L., Pimpl, P., Staehelin, L.A., and Robinson, D.G. (2002). Reevaluation of the effects of brefeldin A on plant cells using tobacco Bright Yellow 2 cells expressing Golgi-targeted green fluorescent protein and COPI antisera. Plant Cell 14, 237-261.
40. Sabatini, S., Beis, D., Wolkenfelt, H., Murfett, J., Guilfoyle, T., Malamy, J., Benfey, P., Leyser, O., Bechtold, N., Weisbeek, P., and Scheres, B. (1999). An auxin-dependent distal organizer of pattern and polarity in the Arabidopsis root. Cell 99, 463-472.
41. Saint-Jore, C.M., Evins, J., Batoko, H., Brandizzi, F., Moore, I., and Hawes, C. (2002). Redistribution of membrane proteins between the Golgi apparatus and endoplasmic reticulum in plants is reversible and not dependent on cytoskeletal networks. Plant J. 29, 661-678.
42. Sanderfoot, A.A., Pilgrim, M., Adam, L., and Raikhel, N.V. (2001). Disruption of individual members of Arabidopsis syntaxin gene families indicates each has essential functions. Plant Cell 13, 659-666.
43. Shaw, S.L., and Quatrano, R.S. (1996). The role of targeted secretion in the establishment of cell polarity and the orientation of the division plane in Fucus zygotes. Development 122, 2623-2630.
44. Shevell, D.E., Leu, W.M., Gillmor, C.S., Xia, G., Feldmann, K.A., and Chua, N.H. (1994). EMB30 is essential for normal cell division, cell expansion, and cell adhesion in Arabidopsis and encodes a protein that has similarity to Sec7. Cell 77, 1051-1062.
45. Spang, A. (2002). ARF1 regulatory factors and COPI vesicle formation. Curr. Opin. Cell Biol. 14, 423-427.
46. Steinmann, T., Geldner, N., Grebe, M., Mangold, S., Jackson, C.L., Paris, S., Gälweiler, L., Palme, K., and Jürgens, G. (1999). Coordinated polar localization of auxin efflux carrier PIN1 by GNOM ARF GEF. Science 286, 316-318.
47. Takahashi, T., Yabe, N., and Komeda, Y. (1993). Expression in yeast of a fusion gene composed of the promoter of a heat-shock gene from Arabidopsis and a bacterial gene for beta-glucuronidase. Plant Cell Physiol. 34, 161-164.
48. Takeuchi, M., Ueda, T., Yahara, N., and 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.
49. Ueda, T., Yamaguchi, M., Uchimiya, H., and Nakano, A. (2001). Ara6, a plant-unique novel type Rab GTPase, functions in the endocytic pathway of Arabidopsis thaliana. EMBO J. 20, 4730-4741.
50. Vasudevan, C., Han, W., Tan, Y., Nie, Y., Li, D., Shome, K., Watkins, S.C., Levitan, E.S., and Romero, G. (1998). The distribution and translocation of the G protein ADP-ribosylation factor 1 in live cells is determined by its GTPase activity. J. Cell Sci. 111, 1277-1285.
51. Vernoud, V., Horton, A.C., Yang, Z., and Nielsen, E. (2003). Analysis of the small GTPase gene superfamily of Arabidopsis. Plant Physiol. 131, 1191-1208.
52. Zhang, C.J., Rosenwald, A.G., Willingham, M.C., Skuntz, S., Clark, J., and Kahn, R.A. (1994). Expression of a dominant allele of human ARF1 inhibits membrane traffic in vivo. J. Cell Biol. 124, 289-300.
53. Zizioli, D., Meyer, C., Guhde, G., Saftig, P., von Figura, K., and Schu, P. (1999). Early embryonic death of mice deficient in gamma-adaptin. J. Biol. Chem. 274, 5385-5390.