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Creating drought- and salt-tolerant cotton by overexpressing a vacuolar pyrophosphatase gene

Hong ZhangDepartment of Biological Sciences, Texas Tech University, Lubbock, TX, USA. [email protected]Guoxin ShenZhejiang Academy of Agricultural Sciences; Hangzhou, Zhejiang Province, ChinaSundaram KuppuLubbock, TX, USARoberto A. GaxiolaSchool of Life Sciences, Arizona State University; Tempe, AZ, USAPaxton PaytonUSDA-ARS Cropping Systems Research Laboratory; Lubbock, TX, USA
2011en
ABI

Аннотация

Increased expression of an Arabidopsis vacuolar pyrophosphatase gene, AVP1, leads to increased drought and salt tolerance in transgenic plants, which has been demonstrated in laboratory and field conditions. The molecular mechanism of AVP1-mediated drought resistance is likely due to increased proton pump activity of the vacuolar pyrophosphatase, which generates a higher proton electrochemical gradient across the vacuolar membrane, leading to lower water potential in the plant vacuole and higher secondary transporter activities that prevent ion accumulation to toxic levels in the cytoplasm. Additionally, overexpression of AVP1 appears to stimulate auxin polar transport, which in turn stimulates root development. The larger root system allows AVP1-overexpressing plants to absorb water more efficiently under drought and saline conditions, resulting in stress tolerance and increased yields. Multi-year field-trial data indicate that overexpression of AVP1 in cotton leads to at least 20% more fiber yield than wild-type control plants in dry-land conditions, which highlights the potential use of AVP1 in improving drought tolerance in crops in arid and semiarid areas of the world.

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