Arabidopsis thaliana acyl-CoA-binding protein ACBP2 interacts with heavy-metal-binding farnesylated protein AtFP6

New Phytologist

Volumn 181, Issue 1, 2009, Pages 89-102

  Gao, Wei ^a   Xiao, Shi ^a   Li, Hong Ye ^a   Tsao, Sai Wah ^b   Chye, Mee Len ^a,c  

^a UNIVERSITY OF HONG KONG   (Hong Kong)

^b UNIVERSITY OF HONG KONG   (Hong Kong)

^c CHINESE UNIVERSITY OF HONG KONG   (Hong Kong)

Author keywords

Arabidopsis thaliana acyl CoA binding protein (ACBP); AtFP6; Farnesylated protein; Heavy metals; Metal binding motif; Plasma membrane; Protein protein interaction

Indexed keywords

ACBP2 PROTEIN, ARABIDOPSIS; ANKYRIN; ARABIDOPSIS PROTEIN; CARRIER PROTEIN; FR6 PROTEIN, ARABIDOPSIS; HEAVY METAL; HYDROGEN PEROXIDE; MESSENGER RNA;

ANGIOSPERM; CADMIUM; COPPER; GENE EXPRESSION; HEAVY METAL; LEAD; POLYMERASE CHAIN REACTION; PROTEIN; RNA; TOBACCO;

ARABIDOPSIS; ARTICLE; BIOSYNTHESIS; CELL MEMBRANE; LIPID PEROXIDATION; METABOLISM; PHYSIOLOGY; PROTEIN PRENYLATION; TWO HYBRID SYSTEM;

ANKYRIN REPEAT; ARABIDOPSIS; ARABIDOPSIS PROTEINS; CARRIER PROTEINS; CELL MEMBRANE; HYDROGEN PEROXIDE; LIPID PEROXIDATION; METALS, HEAVY; PROTEIN PRENYLATION; RNA, MESSENGER; TWO-HYBRID SYSTEM TECHNIQUES;

ARABIDOPSIS; ARABIDOPSIS THALIANA; NICOTIANA TABACUM;

EID: 57449094676     PISSN: 0028646X     EISSN: 14698137     Source Type: Journal    
DOI: 10.1111/j.1469-8137.2008.02631.x     Document Type: Article

References (43)

1. Andrés-Colás N, Sancenón V, Rodríguez-Navarro S, Mayo S, Thiele DJ, Ecker JR, Puig S, Peñarrubia L. 2006. The Arabidopsis heavy metal P-type ATPase HMA5 interacts with metallochaperones and functions in copper detoxification of roots. Plant Journal 45 : 225 236.
2. Baxter I, Tchieu J, Sussman MR, Boutry M, Palmgren MG, Gribskov M, Harper JF, Axelsen KB. 2003. Genomic comparison of P-type ATPase ion pumps in Arabidopsis and rice. Plant Physiology 132 : 618 628.
3. Chye ML. 1998. Arabidopsis cDNA encoding a membrane-associated protein with an acyl-CoA-binding domain. Plant Molecular Biology 38 : 827 838.
4. Chye ML, Huang BQ, Zee SY. 1999. Isolation of a gene encoding Arabidopsis membrane-associated acyl-CoA-binding protein and immunolocalization of its gene product. Plant Journal 18 : 205 214.
5. 14[C]palmitoyl-CoA binding of ACBP2, an Arabidopsis acyl-CoA-binding protein with ankyrin repeats. Plant Molecular Biology 44 : 711 721.
6. Clemens S. 2006. Toxic metal accumulation, responses to exposure and mechanisms of tolerance in plants. Biochimie 88 : 1707 1719.
7. Clough SJ, Bent AF. 1998. Floral dip: a simplified method for Agrobacterium-mediated transformation of Arabidopsis thaliana. Plant Journal 16 : 735 743.
8. Dykema PE, Sipes PR, Marie A, Biermann BJ, Crowell DN, Randall SK. 1999. A new class of proteins capable of binding transition metals. Plant Molecular Biology 41 : 139 150.
9. Engeseth NJ, Pacovsky RS, Newman T, Ohlrogge JB. 1996. Characterization of an acyl-CoA-binding protein from Arabidopsis thaliana. Archives of Biochemistry and Biophysics 331 : 55 62.
10. Erickson MG, Moon DL, Yue DT. 2003. DsRed as a potential FRET partner with CFP and GFP. Biophysical Journal 85 : 599 611.
11. Goodin MM, Dietzgen RG, Schichnes D, Ruzin S, Jackson AO. 2002. pGD vectors: versatile tools for the expression of green and red fluorescent protein fusions in agroinfiltrated plant leaves. Plant Journal 31 : 375 383.
12. Guerrero C, Martín-Rufián M, Reina JJ, Heredia A. 2006. Isolation and characterization of a cDNA encoding a membrane bound acyl-CoA-binding protein from Agave americana L. epidermis. Plant Physiology and Biochemistry 44 : 85 90.
13. Hancock JF, Cadwallader K, Paterson H, Marshall CJ. 1991. A CAAX or a CAAL motif and a second signal are sufficient for plasma membrane targeting of ras proteins. EMBO Journal 10 : 4033 4039.
14. Himelblau E, Mira H, Lin SJ, Culotta VC, Peñarrubia L, Amasino RM. 1998. Identification of a functional homolog of the yeast copper homeostasis gene ATX1 from Arabidopsis. Plant Physiology 117 : 1227 1234.
15. Hirayama T, Kieber JJ, Hirayama N, Kogan M, Guzman P, Nourizadeh S, Alonso JM, Dailey WP, Dancis A, Ecker JR. 1999. RESPONSIVE-TO-ANTAGINIST1, a Menkes/Wilson disease-related copper transporter, is required for ethylene signaling in Arabidopsis. Cell 97 : 383 393.
16. Hussain D, Haydon MJ, Wang Y, Wong E, Sherson SM, Young J, Camakaris J, Harper JF, Cobbett CS. 2004. P-type ATPase heavy metal transporters with roles in essential zinc homeostasis in Arabidopsis. Plant Cell 16 : 1327 1339.
17. James P, Halladay J, Craig EA. 1996. Genomic libraries and a host strain designed for highly efficient two-hybrid selection in yeast. Genetics 144 : 1425 1436.
18. Jasinski M, Sudre D, Schansker G, Schellenberg M, Constant S, Martinoia E, Bovet L. 2008. AtOSA1, a member of the Abc1-like family, as a new factor in cadmium and oxidative stress response. Plant Physiology 147 : 719 731.
19. Kim DY, Bovet L, Maeshima M, Martinoia E, Lee Y. 2007. The ABC transporter AtPDR8 is a cadmium extrusion pump conferring heavy metal resistance. Plant Journal 50 : 207 218.
20. Lee M, Lee K, Lee J, Noh EW, Lee Y. 2005. AtPDR12 contributes to lead resistance in Arabidopsis. Plant Physiology 138 : 827 836.
21. Leung KC, Li HY, Mishra G, Chye ML. 2004. ACBP4 and ACBP5, novel Arabidopsis acyl-CoA-binding proteins with kelch motifs that bind oleoyl-CoA. Plant Molecular Biology 55 : 297 309.
22. Leung KC, Li HY, Xiao S, Tse MH, Chye ML. 2006. Arabidopsis ACBP3 is an extracellularly targeted acyl-CoA-binding protein. Planta 223 : 871 881.
23. Li HY, Chye ML. 2003. Membrane localization of Arabidopsis acyl-CoA-binding protein ACBP2. Plant Molecular Biology 51 : 483 492.
24. Li HY, Chye ML. 2004. Arabidopsis Acyl-CoA-binding protein ACBP2 interacts with an ethylene-responsive element-binding protein, AtEBP, via its ankyrin repeats. Plant Molecular Biology 54 : 233 243.
25. Mira H, Martínez-García F, Peñarrubia L. 2001. Evidence for the plant-specific intercellular transport of the Arabidopsis copper chaperone CCH. Plant Journal 25 : 521 528.
26. Murashige T, Skoog F. 1962. A revised medium for rapid growth and bioassays with tobacco tissue cultures. Physiologia Plantarum 15 : 473 497.
27. Mylne J, Botella JR. 1998. Binary vectors for sense and antisense expression of Arabidopsis ESTs. Plant Molecular Biology Reporter 16 : 257 262.
28. 2s and lipid peroxidation. Biochimica et Biophysica Acta 1488 : 167 181.
29. Pufahl RA, Singer CP, Peariso KL, Lin SJ, Schmidt PJ, Fahrni CJ, Culotta VC, Penner-Hahn JE, O'Halloran TV. 1997. Metal ion chaperone function of the soluble Cu(I) receptor Atx1. Science 278 : 853 856.
30. Schützendübel A, Polle A. 2002. Plant responses to abiotic stresses: heavy metal-induced oxidative stress and protection by mycorrhization. Journal of Experimental Botany 53 : 1351 1365.
31. Smith DR, Kahng MW, Quintanilla-Vega B, Fowler BA. 1998. High-affinity renal lead-binding proteins in environmentally-exposed humans. Chemico-Biological Interactions 115 : 39 52.
32. Soupene E, Fyrst H, Kuypers FA. 2008. Mammalian acyl-CoA: lysophosphatidylcholine acyltransferase enzymes. Proceedings of the National Academy of Sciences, USA 105 : 88 93.
33. Stohs SJ, Bagchi D. 1995. Oxidative mechanisms in the toxicity of metal ions. Free Radical Biology and Medicine 18 : 321 336.
34. Stymne S, Stobart AK. 1984. Evidence for the reversibility of the acyl-CoA:lysophosphatidylcholine acyltransferase in microsomal preparations from developing safflower (Carthamus tinctorius L.) cotyledons and rat liver. Biochemical Journal 223 : 305 314.
35. Suzuki N, Yamaguchi Y, Koizumi N, Sano H. 2002. Functional characterization of a heavy metal binding protein CdI19 from Arabidopsis. Plant Journal 32 : 165 173.
36. Tamaki H, Shimada A, Ito Y, Ohya M, Takase J, Miyashita M, Miyagawa H, Nozaki H, Nakayama R, Kumagai H. 2007. LPT1 encodes a membrane-bound O-acyltransferase involved in the acylation of lysophospholipids in the yeast Saccharomyces cerevisiae. Journal of Biological Chemistry 282 : 34288 34298.
37. Vellosillo T, Martínez M, López MA, Vicente J, Cascón T, Dolan L, Hamberg M, Castresana C. 2007. Oxylipins produced by the 9-lipoxygenase pathway in Arabidopsis regulate lateral root development and defense responses through a specific signaling cascade. Plant Cell 19 : 831 846.
38. Willumsen BM, Christensen A, Hubbert NL, Papageorge AG, Lowy DR. 1984. The p21 ras C-terminus is required for transformation and membrane association. Nature 310 : 583 586.
39. Woeste KE, Keiber JJ. 2000. A strong loss-of-function Mutation in RAN1 results in constitutive activation of the ethylene response pathway as well as a rosette-lethal phenotype. Plant Cell 12 : 443 455.
40. Xiao S, Gao W, Chen QF, Ramalingam S, Chye ML. 2008. Overexpression of membrane-associated acyl-CoA-binding protein ACBP1 enhances lead tolerance in Arabidopsis. Plant Journal 54 : 141 151.
41. Xu ZF, Teng WL, Chye ML. 2004. Inhibition of endogenous trypsin- and chymotrypsin-like activities in transgenic lettuce expressing heterogeneous proteinase inhibitor SaPIN2a. Planta 218 : 623 629.
42. Zhang FL, Casey PJ. 1996. Protein prenylation: molecular mechanisms and functional consequences. Annual Review of Biochemistry 65 : 241 269.
43. Zhao Y, Chen YQ, Bonacci TM, Bredt DS, Li S, Bensch WR, Moller DE, Kowala M, Konrad RJ, Cao G. 2008. Identification and characterization of a major liver lysophosphatidylcholine acyltransferase. Journal of Biological Chemistry 283 : 8258 8265.