地点:安徽 发布时间:2013-09-17 00:10:02
中国科技大学生命科学院向成斌实验室招聘博士后
 
 
研究方向:(1) 植物抗旱节水分子机制;(2) 植物硫营养高效利用的遗传基础;(3) “复苏”模式植物系统建立
 
招聘范围:校内外公开招聘
 
招聘名额:1-2名/研究方向
 
(1) 利用本实验室已经获得的拟南芥抗旱与耐盐突变体等资源,研究植物抗旱节水和耐盐分子机制(相关文献:Wang et al., 2007; Du et al., 2008; Gao and Xiang, 2008; Yu et al., 2008) 。
 
(2) 利用本实验室已经获得的拟南芥耐低硫突变体(Wu et al., submitted)以及硫营养代谢途径的功能获得与缺失突变体等资源,研究植物硫高效利用的分子机制与植物分子硫营养与植物抗逆性(相关文献:Xiang and Oliver, 1998; Xiang et al., 2001; Ohkama-Ohtsu et al., 2007b; Ohkama-Ohtsu et al., 2007a; Wu et al., 2007)。
 
(3) 利用安徽旋蒴巨苔(一种还魂草),建立“复苏”植物模式系统,研究“复苏”性状的分子机制和发掘抗脱水基因(相关文献:Xiang et al., 1999; Lei et al., 2007; Du et al., 2008)。
 
要求应聘的博士后能够利用分子生物学、生物化学、遗传学,转录组和蛋白质组学等研究手段进行相对独立的研究,目标是解析相关基因的功能及其调控网路。
 
在生物化学、分子遗传学、植物生理学、农作物组织培养和转化等方面经验丰富者将得到优先考虑。此外,因国际合作需要,英语水平(特别是写作和口语)将是影响招聘的重要因素。
 
博士后待遇:与中科大副教授待遇相同。博士后工作期间成绩优异者有可能优先被中国科技大学正式聘用。
 
申请方法:将申请函通过电子邮件发送,要求写明申请人的个人简历及详细的工作经历和研究成果,并提供2-3位推荐人的姓名及联系方式。
 
联系人:向成斌 0551-3607332。
 
相关文献:
 
Du, J., Huang, Y.P., Xi, J., Cao, M.J., Ni, W.S., Chen, X., Zhu, J.K., Oliver, D.J., and Xiang, C.B. (2008). Functional Gene-mining for Salt Tolerance Genes with the Power of Arabidopsis. Plant Journal. In press.
 
Gao, L., and Xiang, C.B. (2008). The genetic locus At1g73660 encodes a putative MAPKKK and negatively regulates salt tolerance in Arabidopsis. Plant Mol Biol 67, 125-134.
 
Lei, Z.-Y., Zhao, P., Cao, M.-J., Cui, R., Chen, X., Xiong, L.-Z., Zhang, Q.-F., Oliver, D.J., and Xiang, C.-B. (2007). High-throughput binary vectors for plant gene function analysis. Journal of Integrative Plant Biology 49, 556-567.
 
Ohkama-Ohtsu, N., Zhao, P., Xiang, C., and Oliver, D.J. (2007a). Glutathione conjugates in the vacuole are degraded by gamma-glutamyl transpeptidase GGT3 in Arabidopsis. Plant J 49, 878-888.
 
Ohkama-Ohtsu, N., Radwan, S., Peterson, A., Zhao, P., Badr, A.F., Xiang, C., and Oliver, D.J. (2007b). Characterization of the extracellular gamma-glutamyl transpeptidases, GGT1 and GGT2, in Arabidopsis. Plant J 49, 865-877.
 
Wang, Y., Chen, X., and Xiang, C.B. (2007). Stomatal density and bio-water saving. Journal of Integrative Plant Biology 49, 1435-1444.
 
Wu, Y., Gao, L., Cao, M.J., and Xiang, C.B. (2007). Plant Sulfur Metabolism, Regulation, and Biological Functions. Chin. Bull. Bot. 24, 735-761.
 
Wu, Y., Gao, L., Zhao, Q., Yu, X.M., Fang, P., Oliver, D.J., and Xiang, C.B. Isolation and characterization of low-sulfur tolerant mutants of Arabidopsis. Submitted.
 
Xiang, C., and Oliver, D.J. (1998). Glutathione metabolic genes coordinately respond to heavy metals and jasmonic acid in Arabidopsis. Plant Cell 10, 1539-1550.
 
Xiang, C., Werner, B.L., Christensen, E.M., and Oliver, D.J. (2001). The biological functions of glutathione revisited in arabidopsis transgenic plants with altered glutathione levels. Plant Physiol 126, 564-574.
 
Xiang, C., Han, P., Lutziger, I., Wang, K., and Oliver, D.J. (1999). A mini binary vector series for plant transformation. Plant Mol Biol 40, 711-717.
 
Yu, H., Chen, X., Hong, Y.Y., Wang, Y., Xu, P., Ke, S.D., Liu, H.Y., Zhu, J.K., Oliver, D.J., and Xiang, C.B. (2008). Activated Expression of an Arabidopsis HD-START Protein Confers Drought Tolerance with Improved Root System and Reduced Stomatal Density. Plant Cell 20, 1134-1151.
 
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