The NAC family transcription factor OsNAP confers abiotic stress response through the ABA pathway

Plant and Cell Physiology

Volumn 55, Issue 3, 2014, Pages 604-619

  Chen, Xu ^a   Wang, Yaofeng ^a   Lv, Bo ^a   Li, Jie ^b   Luo, Liqiong ^a   Lu, Songchong ^a   Zhang, Xuan ^a   Ma, Hong ^a   Ming, Feng ^a  

^a FUDAN UNIVERSITY   (China)

^b SHANGHAI NORMAL UNIVERSITY   (China)

Author keywords

ABA; Abiotic stress; NAC transcription factor; Rice

Indexed keywords

SODIUM CHLORIDE; TRANSCRIPTION FACTOR; VEGETABLE PROTEIN;

COLD; DRUG EFFECTS; GENE EXPRESSION REGULATION; GENETICS; METABOLISM; RICE; SALINITY; TRANSGENIC PLANT;

COLD TEMPERATURE; GENE EXPRESSION REGULATION, PLANT; ORYZA SATIVA; PLANT PROTEINS; PLANTS, GENETICALLY MODIFIED; SALINITY; SODIUM CHLORIDE; TRANSCRIPTION FACTORS;

EID: 84899066007     PISSN: 00320781     EISSN: 14719053     Source Type: Journal    
DOI: 10.1093/pcp/pct204     Document Type: Article

References (56)

1. Aida, M., Ishida, T., Fukaki, H., Fujisawa, H. and Tasaka, M. (1997) Genes involved in organ separation in Arabidopsis: An analysis of the cup-shaped cotyledon mutant. Plant Cell 9: 841-857
2. Anderson, J.P., Badruzsaufari, E., Schenk, P.M., Manners, J.M., Desmond, O.J., Ehlert, C. et al. (2004) Antagonistic interaction between abscisic acid and jasmonate-ethylene signaling pathways modulates defense gene expression and disease resistance in Arabidopsis. Plant Cell 16: 3460-3479
3. Balazadeh, S., Kwasniewski, M., Caldana, C., Mehrnia, M., Zanor, M.I., Xue, G.P. et al. (2011) ORS1, an H2O2-responsive NAC transcription factor, controls senescence in Arabidopsis thaliana. Mol. Plant 4: 346-360
4. Claes, B., Dekeyser, R., Villarroel, R., Van Den Bulcke, M., Bauw, G., Van Montagu, M. et al. (1990) Characterization of a rice gene showing organ-specific expression in response to salt stress and drought. Plant Cell 2: 19-27
5. Dubouzet, J.G., Sakuma, Y., Ito, Y., Kasuga, M., Dubouzet, E.G., Miura, S. et al. (2003) OsDREB genes in rice, Oryza sativa L., encode transcription activators that function in Drought-, high-salt- and cold-responsive gene expression. Plant J. 33: 751-763
6. El-Kereamy, A., Bi, Y.M., Ranathunge, K., Beatty, P.H., Good, A.G. and Rothstein, S.J. (2012) The rice R2R3-MYB transcription factor OsMYB55 is involved in the tolerance to high temperature and modulates amino acid metabolism. PLoS One 7: E52030
7. Fukao, T., Yeung, E. and Bailey-Serres, J. (2011) The submergence tolerance regulator SUB1A mediates crosstalk between submergence and drought tolerance in rice. Plant Cell 23: 412-427
8. Ganeteg, U., Kulheim, C., Andersson, J. and Jansson, S. (2004) Is each light-harvesting complex protein important for plant fitness?. Plant Physiol. 134: 502-509
9. Guo, H.S., Xie, Q., Fei, J.F. and Chua, N.H. (2005) MicroRNA directs mRNA cleavage of the transcription factor NAC1 to downregulate auxin signals for arabidopsis lateral root development. Plant Cell 17: 1376-1386
10. Guo, Y. and Gan, S. (2006) AtNAP, a NAC family transcription factor, has an important role in leaf senescence. Plant J. 46: 601-612
11. He, X.J., Mu, R.L., Cao, W.H., Zhang, Z.G., Zhang, J.S. and Chen, S.Y. (2005) AtNAC2, a transcription factor downstream of ethylene and auxin signaling pathways, is involved in salt stress response and lateral root development. Plant J. 44: 903-916
12. Hellens, R.P., Allan, A.C., Friel, E.N., Bolitho, K., Grafton, K., Templeton, M.D. et al. (2005) Transient expression vectors for functional genomics, quantification of promoter activity and RNA silencing in plants. Plant Methods 1: 13
13. Hiratsu, K., Matsui, K., Koyama, T. and Ohme-Takagi, M. (2003) Dominant repression of target genes by chimeric repressors that include the EAR motif, a repression Domain, in Arabidopsis. Plant J. 34: 733-739
14. Hiratsu, K., Ohta, M., Matsui, K. and Ohme-Takagi, M. (2002) The SUPERMAN protein is an active repressor whose carboxy-Terminal repression Domain is required for the development of normal flowers. FEBS Lett. 514: 351-354
15. Hu, H., Dai, M., Yao, J., Xiao, B., Li, X., Zhang, Q. et al. (2006) Overexpressing a NAM, ATAF, and CUC (NAC) transcription factor enhances drought resistance and salt tolerance in rice. Proc. Natl Acad. Sci. USA 103: 12987-12992
16. Hu, H., You, J., Fang, Y., Zhu, X., Qi, Z. and Xiong, L. (2008) Characterization of transcription factor gene SNAC2 conferring cold and salt tolerance in rice. Plant Mol. Biol. 67: 169-181
17. Jeong, J.S., Kim, Y.S., Baek, K.H., Jung, H., Ha, S.H., Do Choi, Y. et al. (2010) Root-specific expression of OsNAC10 improves drought tolerance and grain yield in rice under field drought conditions. Plant Physiol. 153: 185-197
18. Kazan, K. and Manners, J.M. (2008) Jasmonate signaling: Toward an integrated view. Plant Physiol. 146: 1459-1468
19. Kikuchi, S., Satoh, K., Nagata, T., Kawagashira, N., Doi, K., Kishimoto, N. et al. (2003) Collection, mapping, and annotation of over 28,000 cDNA clones from japonica rice. Science 301: 376-379
20. Kim, J.H., Woo, H.R., Kim, J., Lim, P.O., Lee, I.C., Choi, S.H. et al. (2009) Trifurcate feed-forward regulation of age-dependent cell death involving miR164 in Arabidopsis. Science 323: 1053-1057
21. Kim, S.G., Kim, S.Y. and Park, C.M. (2007) A membraneassociated NAC transcription factor regulates salt-responsive flowering via FLOWERING LOCUS T in Arabidopsis. Planta 226: 647-654
22. Kim, Y.S., Kim, S.G., Park, J.E., Park, H.Y., Lim, M.H., Chua, N.H. et al. (2006) A membrane-bound NAC transcription factor regulates cell division in Arabidopsis. Plant Cell 18: 3132-3144
23. Lackman, P., González-Guzmán, M., Tilleman, S., Carqueijeiro, I., Pérez, A.C., Moses, T. et al. (2011) Jasmonate signaling involves the abscisic acid receptor PYL4 to regulate metabolic reprogramming in Arabidopsis and tobacco. Proc. Natl Acad. Sci. USA 108: 5891-5896
24. Lafitte, H.R., Price, A.H. and Courtois, B. (2004) Yield response to water deficit in an upland rice mapping population: Associations among traits and geneticmarkers. Theor. Appl. Genet. 109: 1237-1246
25. Li, H., Sun, J., Xu, Y., Jiang, H., Wu, X. and Li, C. (2007) The bHLH-Type transcription factor AtAIB positively regulates ABA response in Arabidopsis. Plant Mol. Biol. 65: 655-665
26. Mao, D. and Chen, C. (2012) Colinearity and similar expression pattern of rice DREB1s reveal their functional conservation in the cold-responsive pathway. PLoS One 7: E47275
27. Mitsuda, N. and Ohme-Takagi, M. (2008) NAC transcription factors NST1 and NST3 regulate pod shattering in a partially redundant manner by promoting secondary wall formation after the establishment of tissue identity. Plant J. 56: 768-778
28. Nakashima, K., Ito, Y. and Yamaguchi-Shinozaki, K. (2009) Transcriptional regulatory networks in response to abiotic stresses in Arabidopsis and grasses. Plant Physiol. 149: 88-95
29. Nakashima, K., Takasaki, H., Mizoi, J., Shinozaki, K. and Yamaguchi-Shinozaki, K. (2012) NAC transcription factors in plant abiotic stress responses. Biochim. Biophys. Acta 1819: 97-103
30. Nakashima, K., Tran, L.S., Van Nguyen, D., Fujita, M., Maruyama, K., Todaka, D. et al. (2007) Functional analysis of a NAC-Type transcription factor OsNAC6 involved in abiotic and biotic stress-responsive gene expression in rice. Plant J. 51: 617-630
31. Nakata, M., Mitsuda, N., Herde, M., Koo, A.J.K., Moreno, J.E., Suzuki, K. et al. (2013) A bHLH-Type transcription factor, ABA-INDUCIBLE BHLH-TYPE TRANSCRIPTION FACTOR/JA-ASSOCIATED MYC2-LIKE1, acts as a repressor to negatively regulate jasmonate signaling in Arabidopsis. Plant Cell 25: 1641-1656
32. Nuruzzaman, M., Manimekalai, R., Sharoni, A.M., Satoh, K., Kondoh, H., Ooka, H. et al. (2010) Genome-wide analysis of NAC transcription factor family in rice. Gene 465: 30-44
33. Oh, S.J., Kim, Y.S., Kwon, C.W., Park, H.K., Jeong, J.S. and Kim, J.K. (2009) Overexpression of the transcription factor AP37 in rice improves grain yield under drought conditions. Plant Physiol. 150: 1368-1379
34. Ohta, M., Matsui, K., Hiratsu, K., Shinshi, H. and Ohme-Takagi, M. (2001) Repression Domains of class II ERF transcriptional repressors share an essential motif for active repression. Plant Cell 13: 1959-1968
35. Riechmann, J.L., Heard, J., Martin, G., Reuber, L., Jiang, C., Keddie, J. et al. (2000) Arabidopsis transcription factors: Genome-wide comparative analysis among eukaryotes. Science 290: 2105-2110
36. Sablowski, R.W. and Meyerowitz, E.M. (1998) A homolog of NO APICAL MERISTEM is an immediate target of the floral homeotic genes APETALA3/PISTILLATA. Cell 92: 93-103
37. Seo, P.J., Lee, S.B., Suh, M.C., Park, M.J., Go, Y.S. and Park, C.M. (2011) The MYB96 transcription factor regulates cuticular wax biosynthesis under drought conditions in Arabidopsis. Plant Cell 23: 1138-1152
38. Seo, P.J., Xiang, F., Qiao, M., Park, J.Y., Lee, Y.N., Kim, S.G. et al. (2009) The MYB96 transcription factor mediates abscisic acid signaling during drought stress response in Arabidopsis. Plant Physiol. 151: 275-289
39. Singh, A., Giri, J., Kapoor, S., Tyagi, A.K. and Pandey, G.K. (2010) Protein phosphatase complement in rice: Genome-wide identification and transcriptional analysis under abiotic stress conditions and reproductive development. BMC Genomics 11: 435
40. Song, S.Y., Chen, Y., Chen, J., Dai, X.Y. and Zhang, W.H. (2011) Physiological mechanisms underlying OsNAC5-dependent tolerance of rice plants to abiotic stress. Planta 234: 331-345
41. Souer, E., van Houwelingen, A., Kloos, D., Mol, J. and Koes, R. (1996) The no apical meristem gene of Petunia is required for pattern formation in embryos and flowers and is expressed at meristem and primordia boundaries. Cell 85: 159-170
42. Sugano, S., Jiang, C.J., Miyazawa, S., Masumoto, C., Yazawa, K., Hayashi, N. et al. (2010) Role of OsNPR1 in rice defense program as revealed by genome-wide expression analysis. Plant Mol. Biol. 74: 549-562
43. Takasaki, H., Maruyama, K., Kidokoro, S., Ito, Y., Fujita, Y., Shinozaki, K. et al. (2010) The abiotic stress-responsive NAC-Type transcription factor OsNAC5 regulates stress-inducible genes and stress tolerance in rice. Mol. Genet. Genomics 284: 173-183
44. Wang, X., Basnayake, B.M., Zhang, H., Li, G., Li, W., Virk, N. et al. (2009) The Arabidopsis ATAF1, a NAC transcription factor, is a negative regulator of defense responses against necrotrophic fungal and bacterial pathogens. Mol. Plant Microbe Interact. 22: 1227-1238
45. Xiang, Y., Tang, N., Du, H., Ye, H. and Xiong, L. (2008) Characterization of OsbZIP23 as a key player of the basic leucine zipper transcription factor family for conferring abscisic acid sensitivity and salinity and drought tolerance in rice. Plant Physiol. 148: 1938-1952
46. Xu, Y.H., Liu, R., Yan, L., Liu, Z.Q., Jiang, S.C., Shen, Y.Y. et al. (2012) Light-harvesting chlorophyll a/b-binding proteins are required for stomatal response to abscisic acid in Arabidopsis. J. Exp. Bot. 63: 1095-1106
47. Xue, T., Wang, D., Zhang, S., Ehlting, J., Ni, F., Jakab, S. et al. (2008) Genome-wide and expression analysis of protein phosphatase 2C in rice and Arabidopsis. BMC Genomics 9: 550
48. Yamaguchi, M., Kubo, M., Fukuda, H. and Demura, T. (2008) Vascularrelated NAC-DOMAIN7 is involved in the differentiation of all types of xylem vessels in Arabidopsis roots and shoots. Plant J. 55: 652-664
49. Yamaguchi, M., Ohtani, M., Mitsuda, N., Kubo, M., Ohme-Takagi, M., Fukuda, H. et al. (2010) VND-INTERACTING2, a NAC domain transcription factor, negatively regulates xylem vessel formation in Arabidopsis. Plant Cell 22: 1249-1263
50. Yang, A., Dai, X. and Zhang, W.H. (2012) A R2R3-Type MYB gene, OsMYB2, is involved in salt, cold, and dehydration tolerance in rice. J. Exp. Bot. 63: 2541-2556
51. Zhang, K. and Gan, S.S. (2012) An abscisic acid-AtNAP transcription factor-SAG113 protein phosphatase 2C regulatory chain for controlling dehydration in senescing Arabidopsis leaves. Plant Physiol. 158: 961-969
52. Zhang, K., Xia, X., Zhang, Y. and Gan, S.S. (2012) An ABA-regulated and Golgi-localized protein phosphatase controls water loss during leaf senescence in Arabidopsis. Plant J. 69: 667-678
53. Zheng, X., Chen, B., Lu, G. and Han, B. (2009) Overexpression of a NAC transcription factor enhances rice drought and salt tolerance. Biochem. Biophys. Res. Commun. 379: 985-989
54. Zhong, R., Richardson, E.A. and Ye, Z.H. (2007) Two NAC domain transcription factors, SND1 and NST1, function redundantly in regulation of secondary wall synthesis in fibers of Arabidopsis. Planta 225: 1603-1611
55. Zhou, Y., Huang, W., Liu, L., Chen, T., Zhou, F. and Lin, Y. (2013) Identification and functional characterization of a rice NAC gene involved in the regulation of leaf senescence. BMC Plant Biol. 13: 132
56. Zhu, Y., Nomura, T., Xu, Y., Zhang, Y., Peng, Y., Mao, B. et al. (2006) ELONGATED UPPERMOST INTERNODE encodes a cytochrome P450 monooxygenase that epoxidizes gibberellins in a novel deactivation reaction in rice. Plant Cell 18: 442-456