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作物学报 ›› 2009, Vol. 35 ›› Issue (3): 541-545.doi: 10.3724/SP.J.1006.2009.00541

• 研究简报 • 上一篇    下一篇

花生NAC转录因子AhNAC2AhNAC3的克隆及转录特征

刘旭;李玲*   

  1. 华南师范大学生命科学学院/广东省植物发育生物工程重点实验室,广东广州510631
  • 收稿日期:2008-08-20 修回日期:2008-10-06 出版日期:2009-03-12 网络出版日期:2009-01-16
  • 通讯作者: 李玲
  • 基金资助:

    本研究由国家科学基金项目(30771297),广东省自然科学基金(06025049),广东省教育厅自然科学重点项目(C10033)资助

Cloning and characterization of the NAC-Like Gene AhNAC2 and AhNAC3 in Peanut

LIU Xu;LI Ling*   

  1. Guangdong Key Laboratory of Biotechnology for Plant Development, College of Life Science, South China Normal University, Guangzhou 510631
  • Received:2008-08-20 Revised:2008-10-06 Published:2009-03-12 Published online:2009-01-16
  • Contact: LI Ling

PDF

2454

被引次数

27

摘要:

NAC转录因子是特异存在于植物中具有多种生物功能的新型转录因子。本实验从花生中克隆了2NAC基因AhNAC2AhNAC3(GenBank登录号EU755023EU755022);蛋白序列分析表明,两者具有典型NAC转录因子特征,N端含有保守NAC结构域。半定量RT-PCR显示,在ABAGA3处理,以及控水和低温条件下,AhNAC2AhNAC3在花生组织中的表达上调,呈现不同的表达模式。AhNAC2AhNAC3为典型的NAC转录因子新基因,蛋白序列与拟南芥RD26同源性较高,推测与响应干旱和ABA信号有关。

关键词: NAC转录因子, 基因表达调控, 信号转导

Abstract:

NAC transcription factors existed differentially in plant are the new transcription regulatory factors with multiple biological functions. Two NAC-like genes from peanut were cloned by RT-PCR and RACE methods, named AhNAC2 and AhNAC3 (GenBank accession No. EU755023 and EU755022), which contain an ORF of 1 050 bp and 1 008 bp and encode 349 and 335 amino acids, respectively. Gene sequence analysis showed that the putative protein of both two genes contained conserved NAC domain and highly different C terminal which is the typical characteristics of NAC transcription factors. Meanwhile, the transcription levels of the two genes were investigated by semi-quantitative RT-PCR, and the result showed that the expressions of AhNAC2 and AhNAC3 genes were enhanced by ABA, GA3, water stress, and cold stress respectively. Furthermore, the two genes expressed constitutively in peanut tissues, and their expression patterns were different in various tissues. In conclusion, AhNAC2 and AhNAC3 genes isolated from peanut were new members of NAC transcription factor family, their comparison to RD26 (AT4G27410) reveals a high amino acid homology. We suggested that they play key roles in ABA signal transduction and drought response in peanut.

Key words: NAC transcription factor, Gene expression and regulation, Signal transduction

[1]Giayetto O, Cerioni G A. Water stress in peanut (Arachis hypogaea L.). J Peanut Sci, 2002, 31: 19–23
[2]Wang S-B(万书波), Feng H-S(封海胜), Zhang J-C (张建成). National competition by building a strong peanut industry. J Peanut Sci (花生学报), 2003, (suppl): 5–10(in Chinese)
[3]Singh K, Foley R C, Onate-Sanchez L. Transcription factors in plant defense and stress response. Curr Opin Plant Biol, 2002, 5: 430–436
[4]Liu Z-J(柳展基), Shao F-X(邵凤霞), Tang G-Y(唐桂英). The research progress of structure, function and regulation of plant NAC transcription factors. Acta Bot Boreal-Occident Sin (西北植物学报), 2007, 27(9): 1915–1920(in Chinese with English abstract)
[5]Ernst H A, Olsen A N, Larsen S, Lo Leggio L. Structure of the conserved domain of ANAC, a member of the NAC family of transcription factors. EMBO Rep, 2004, 5: 297–303
[6]Olsen A N, Ernst H A, Leggio L L, Skriver K. NAC transcription factors: Structurally distinct, functionally diverse. Trends Plant Sci, 2005, 10: 79–87
[7]Lu P L, Chen N Z, An R Su Z, Qi B S, Ren F, Chen J, Wang X C. A novel drought-inducible gene, ATAF1, encodes a NAC family protein that negatively regulates the expression of stress-responsive genes in Arabidopsis. Plant Mol Biol, 2007, 63: 289–305
[8]Hu H H, Dai M Q, Yao J L Xiao B, Li X, Zhang Q, Xiong L. Overexpressing a NAM, ATAF and CUC(NAC) transcription factor enhances drought resistance and salt tolerance in rice. Proc Natl Acad Sci USA, 2006, 103: 12987–12992
[9]Hu H H, Jun Y, Yu J F Zhu X, Qi Z, Xiong L. Characterization of transcription factor gene SNAC2 conferring cold and salt tolerance in rice. Plant Mol Biol, 2008, 67: 169–181
[10]Tran L S, Nakashima K, Sakuma Y, Simpson S D, Fujita Y, Maruyama K, Fujita M, Seki M, Shinozaki K, Yamaguchi-Shinozaki K. Isolation and functional analysis of Arabidopsis stress-inducible NAC transcription factors that bind to a drought-responsive cis-element in the early responsive to dehydration stress 1 promoter. Plant Cell, 2004, 16: 2481–2498
[11]Fujita M, Fujita Y, Maruyama K, Seki M, Hiratsu K, Ohme-Takagi M, Tran L S, Yamaguchi-Shinozaki K, Shinozaki K. A dehydration-induced NAC protein, RD26, is involved in a novel ABA-dependent stress-signaling pathway. Plant J, 2004, 39: 863–876
[12]Bannai H, Tamada Y, Maruyama O, Nakai K, Miyano S. Extensive feature detection of N-terminal protein sorting signals. Bioinformatics, 2002, 18: 298–305
[13]Wan X R, Li L. Regulation of ABA level and water-stress tolerance of Arabidopsis by ectopic expression of a peanut 9-cis-epoxycarotenoid dioxygenase gene. Biochem Biophys Res Commun, 2006, 347: 1030–1038
[14]Bhagwat A S, Krishna T G, Jawali N, Mitra R K. Cloning and characterization of a ribosomal RNA gene repeat unit from groundnut. Plant Cell Rep, 2001, 20: 193–197
[15]Ooka H, Satoh K, Doi K, Nagata T, Otomo Y, Murakami K, Matsubara K, Osato N, Kawai J, Carninci P, Hayashizaki Y, Suzuki K, Kojima K, Takahara Y, Yamamoto K, Kikuchi S. Comprehensive analysis of NAC family genes in Oryza sativa and Arabidopsis thaliana. DNA Res, 2003, 10: 239–247
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