Physiological and Biochemical Analysis for the Salt Tolerance of Transgenic Cotton Transformed by the Vacuolar H+-Pyrophosphatase Gene(VP1) from Halostachys caspica

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Physiological and Biochemical Analysis for the Salt Tolerance of Transgenic Cotton Transformed by the Vacuolar H+-Pyrophosphatase Gene(VP1) from Halostachys caspica

Muherepiya Aierken;ZHANG Fu-chun

Received:2013-06-25 Revised:2013-06-25 Online:2013-06-25 Published:2013-06-25

盐穗木HcVP1转基因棉花耐盐性的生理生化分析

木合热皮亚·艾尔肯;张富春

新疆大学生命科学与技术学院,新疆生物资源基因工程重点实验室,乌鲁木齐 830046

Abstract

摘要： [目的]盐生植物盐穗木的液泡膜氢离子焦磷酸酶(vacuolar H+-Pyrophosphatase,HcVP1)作为质子泵可有效地形成H+梯度,促进细胞质中多余Na+的排除.将HcVP1基因导入棉花有望培育出耐盐性提高的转基因棉花新品种.[方法]研究对已获得的HcVP1转基因棉花经卡那霉素抗性筛选、PCR和RT-PCR检测分析后,对检测阳性的转基因棉花植株进行200 mmol/L NaCl胁迫处理4 wks,检测转HcVP1基因棉花的耐盐相关生理生化指标.[结果]盐胁迫处理的转基因棉花植株长势良好,叶绿素、脯氨酸、可溶性糖含量均显著高于非转基因棉花组,丙二醛(MDA)含量低于非转基因棉花组,而抗氧化物酶SOD、POD、CAT等的活性则显著高于非转基因棉花组.[结论]盐穗木HcVP1基因转化棉花可以有效地提高棉花的耐盐能力.

Muherepiya Aierken;ZHANG Fu-chun. Physiological and Biochemical Analysis for the Salt Tolerance of Transgenic Cotton Transformed by the Vacuolar H+-Pyrophosphatase Gene(VP1) from Halostachys caspica[J]. .

木合热皮亚·艾尔肯;张富春. 盐穗木HcVP1转基因棉花耐盐性的生理生化分析[J]. .