作物学报 ›› 2011, Vol. 37 ›› Issue (04): 620-628.doi: 10.3724/SP.J.1006.2011.00620
张龙雨,袁蕾,杨书玲,张改生*,王俊生,宋瑜龙,赵卓军,牛娜,马守才
ZHANG Long-Yu,YUAN Lei,YANG Shu-Ling,ZHANG Gai-Sheng*,WANG Jun-Sheng,SONG Yu-Long,ZHAO Zhuo-Jun,NIU Na,MA Shou-Cai
摘要: 为进一步研究杀雄剂SQ-1诱导小麦雄性不育的机制,采用电子克隆的方法分离TaPDC-E1a基因,并利用半定量RT-PCR技术分析该基因及其调节酶基因PDK和PDP的表达特性。结果表明,TaPDC-E1a基因编码388个氨基酸,具有TPP保守结构域,可能存在2个丝氨酸磷酸化位点;与可育系相比,TaPDC-E1a基因在生理型不育系和遗传型不育系中表达下调;PDK基因在生理型不育系中表达下调,而在遗传型不育系中表达上调;PDP基因在可育系及不育系中的表达趋势无明显变化。表明经杀雄剂SQ-1诱导形成的生理型不育系在败育过程中其能量代谢途径更容易受到影响,推测对PDK基因进行调节的上游信号机制在小麦生理型不育系与遗传型不育系中可能不一致。
[1]Liu H-W(刘宏伟), Zhang G-S(张改生), Wang J-W(王军卫), Wang X-L(王小利), Fang Z-W(方振武). Effect of male sterility on different wheat genotype induced by SQ-1. J Northwest Sci-Tech Univ Agric For (Nat Sci Edn)(西北农林科技大学学报·自然科学版), 2003, 31(4): 15–18 (in Chinese with English abstract) [2]Zhang G-S(张改生), Liu H-W(刘宏伟), Wang J-W(王军卫). High-yield, quality for hybrid wheat varieties: Xiza 1 and Xiza 5. New Technol Agric (农业新技术), 2003, (1): 25–26 (in Chinese) [3]Chen R-H(陈蕊红), Ye J-X(叶景秀), Zhang G-S(张改生), Wang J-S(王俊生), Niu N(牛娜), Ma S-C(马守才), Zhao J-X(赵继新), Zhu J-C(朱建楚). Differential proteomic analysis of anther proteins between cytoplasmic-nuclear male sterility line and its maintainer in wheat (Triticum aestivum L.). Prog Biochem Biophys (生物化学与生物物理进展), 2009, 36(4): 431–440 (in Chinese with English abstract) [4]Ye J-X(叶景秀), Zhang G-S(张改生), Wang S-P(王书平), Chen R-H(陈蕊红), Wang J-S(王俊生), Niu N(牛娜), Ma S-C(马守才), Li H-X(李红霞), Zhu J-C(朱建楚). Differential proteomic studies on pollen grain proteins of wheat male sterile line induced by chemical hybridizing agent SQ-1. Chin J Biochem Mol Biol (中国生物化学与分子生物学报), 2009, 25(10): 949–957 (in Chinese with English abstract) [5]Wei M-M(位明明), Wang J-S(王俊生), Zhang G-S(张改生), Zhang L-Y(张龙雨), Yuan Z-J(袁正杰), Sun R(孙瑞), Ye J-X(叶景秀), Niu N(牛娜), Ma S-C(马守才), Li H-X(李红霞). Relationship between the expression of GAPDH gene and anther abortion of physiological male sterile of wheat. Mol Plant Breed (分子植物育种), 2009, 7(4): 679–684 (in Chinese with English abstract) [6]Kok A D, Hengeveld A F, Martin A, Westphal A H. The pyruvate dehydrogenase multi-enzyme complex from Gramnegative bacteria. Biochim Biophy Acta, 1998, 1385: 353-366 [7]Yui R, Iketani S, Mikami T, Kubo T. Atisense inhibition of mitochondrial pyruvate dehydrogenase E1 [alpha] subunit in anther tapetum causes male sterility. Plant J, 2003, 34: 57–66 [8]Zhang L-Y(张龙雨), Li H-X(李红霞), Zhang G-S(张改生), Wang J-S(王俊生), Han Y-F(韩艳芬), Yuan Z-J(袁正杰), Niu N(牛娜), Ma S-C(马守才). Cloning and expression analysis of cMDH gene related to cytoplasmic male sterile wheat with Aegilops kotschyi cytoplasm. Acta Agron Sin (作物学报), 2009, 35(9): 1620–1627 (in Chinese with English abstract) [9]Korotchkina L G, Patel M S. Probing the mechanism of inactivation of human pyruvate dehydrogenase by phosphorylation of three sites. J Biol Chem, 2001, 276: 5731–5738 [10]Randall D D, Miernyk J A, David N R, Gemel J, Luethy M H. Regulation of leaf mitochondrial pyruvate dehydrogenase complex activity by reversible phosphorylation. Proc Phytochem Soc Eur, 1996, 39: 87–10 [11]Thelen J J, Miernyk J A, Randall D D. Molecular cloning and expression analysis of the mitochondrial pyruvate dehydrogenase from maize. Plant Physiol, 1999, 119: 635–643 [12]Luethy M H, Miernyk J A, Randall D D. The mitochondrial pyruvate dehydrogenase complex: nucleotide and deduced amino-acid sequences of a cDNA encoding the Arabidopsis thaliana E1a-subunit. Gene, 1995, 164: 251–254 [13]Wang Q-H(王琦环). Development of the structure and functional properties of the E1a natural mutants. J Baotou Univ Iron Steel Tech (包头钢铁学院学报), 2003, 22(4): 380–384 (in Chinese with English abstract) [14]Grof C P L, Winning B M, Scaysbrook T P, Hill S A, Leaver C J. Mitochondrial pyruvate dehydrogenase: molecular cloning of the E1a subunit and expression analysis. Plant Physiol, 1995, 108, 1623–1629 [15]Kamalay J, Cgoldberg R B. Organ-specific nuclear RNAs in tobacco. Proc Natl Acad Sci USA, 1984, 81: 2801–2805 [16]Marillia E F, Micallef B J, Micallef M, Weninger A, Pedersen K K, Zou J T, Taylor D C. Biochemical and pysiological studies of Arabidopsis thaliana transgenic lines with repressed expression of the mitochondrial pyruvate dehydrogenase kinase. J Exp Bot, 2003, 54: 259–270 [17]Papandreou I, Cairns R A, Fontana L, Lim A L, Denko N C. HIF-1-mediates adaptation to hypoxia by actively down-regulating mitochondrial oxygen consumption. Cell Metabolism, 2006, 3: 187–197 [18]Kim J W, Tchernyshyov I, Semenza G L, Dang C V. HIF-1-mediated expression of pyruvate dehydrogenase kinase: a metabolic switch required for cellular adaptation to hypoxia. Cell Metabolism, 2006, 3: 177–185 [19]Millar A H, Leaver C J. The cytotoxic lipid peroxidation product, 4-hydroxy-2-nonenal, speci?cally inhibits decarboxylating dehydrogenases in the matrix of plant mitochondria. FEBS Lett, 2000, 481: 117–121 [20]Uchida K. 4-Hydroxy-2-nonenal: a product and mediator of oxidative stress. Prog Lipid Res, 2003, 42: 318–343 [21]Wang J-S(王俊生), Zhang G-S(张改生), Yuan L(袁蕾), Zhang M-Z(张明珠), Niu N(牛娜), Ma S-C(马守才). Metabolism of reactive oxygen species of physiological male-sterile anther induced by chemical hybrid agent in wheat. Acta Bot Boreali-Occident Sin (西北植物学报), 2009, 29(7): 1351–1357 (in Chinese with English abstract) [22]Qi Z-T(漆正堂), Ding S-Z(丁树哲), He J(贺杰). The role of pyruvate dehydrogenase activity regulating mitochondria metabolism and growth balance. Chem Life (生命的化学), 2008, 28(3): 307–309 (in Chinese) [23]Araki M, Nozaki Y, Motojima K. Transcriptional regulation of metabolic switching PDK4 gene under various physiological conditions. Yakugaku Zasshi, 2007, 127: 153–162 [24]Zou J T, Qi Q G, Katavic V, Marillia E F, Taylor D C. Effects of antisense repression of an Arabidopsis thaliana pyruvate dehydrogenase kinase cDNA on plant development. Plant Mol Biol, 1999, 41: 837–849 |
No related articles found! |
|