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利用酵母功能筛选方法快速鉴定马铃薯中的潜在耐旱基因。

Rapid identification of potential drought tolerance genes from Solanum tuberosum by using a yeast functional screening method.

机构信息

Department of Molecular Biotechnology, Konkuk University, Seoul 143 701, South Korea.

出版信息

C R Biol. 2013 Nov-Dec;336(11-12):530-45. doi: 10.1016/j.crvi.2013.09.006. Epub 2013 Nov 8.

Abstract

Identification of major stress tolerance genes of a crop plant is important for the rapid development of its stress-tolerant cultivar. Here, we used a yeast functional screen method to identify potential drought-tolerance genes from a potato plant. A cDNA expression library was constructed from hyperosmotic stressed potato plants. The yeast transformants expressing different cDNAs were selected for their ability to survive in hyperosmotic stress conditions. The relative tolerances of the selected yeast transformants to multiple abiotic stresses were also studied. Specific potato cDNAs expressed in the tolerant yeast transformants were identified. Sixty-nine genes were found capable of enhancing hyperosmotic stress tolerance of yeast. Based on the relative tolerance data generated, 12 genes were selected, which could be most effective in imparting higher drought tolerance to potato with better survival in salt and high-temperature stresses. Orthologues of few genes identified here are previously known to increase osmotic stress tolerance of yeast and plants; however, specific studies are needed to confirm their role in the osmotic stress tolerance of potato.

摘要

鉴定作物主要抗逆基因对于快速培育其抗逆品种非常重要。本研究采用酵母功能筛选方法,从马铃薯植株中鉴定潜在的耐旱基因。从高渗胁迫的马铃薯植株中构建 cDNA 表达文库。选择表达不同 cDNA 的酵母转化体,以其在高渗胁迫条件下生存的能力为标准。还研究了所选酵母转化体对多种非生物胁迫的相对耐受性。鉴定了在耐胁迫酵母转化体中特异表达的马铃薯 cDNA。发现 69 个基因能够增强酵母的高渗胁迫耐受性。根据生成的相对耐受性数据,选择了 12 个基因,这些基因在赋予马铃薯更高耐旱性方面最有效,同时在盐和高温胁迫下具有更好的生存能力。这里鉴定的少数基因的同源物先前已知能提高酵母和植物的耐渗胁迫能力;然而,需要进行具体研究来确认它们在马铃薯耐渗胁迫中的作用。

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