机译:棉花中AVP1和AtNHX1的共过量表达进一步改善了转基因棉花植物的干旱和耐盐性
Sericultural Research Institute Zhejiang Academy of Agricultural Sciences">(1);
Sericultural Research Institute Zhejiang Academy of Agricultural Sciences">(1);
Sericultural Research Institute Zhejiang Academy of Agricultural Sciences">(1);
Department of Biological Sciences Texas Tech University">(2);
Department of Biological Sciences Texas Tech University">(2);
Department of Plant and Soil Sciences Texas Tech University">(3);
Department of Plant Sciences University of California">(4);
School of Life Sciences Arizona State University">(5);
USDA Cropping Systems Research Laboratory">(6);
Department of Biological Sciences Texas Tech University">(2);
AtNHX1; AVP1; Auxin transport; Cotton; Drought tolerance; Salt tolerance;
机译:棉花中AVP1和AtNHX1的共过量表达进一步提高了转基因棉花植物的抗旱和耐盐性
机译:ATNHX1和TSVP的共表达改善了转基因棉的耐盐性,并增加了盐田中的种子棉花产量
机译:拟拟拟拟拟亚磷酸磷酸酶基因(AVP1)的表达改善了干旱和耐盐性,并增加了现场条件下的纤维产量
机译:拟南芥AVP1基因的过表达增强了转基因苜蓿(Medicago sativa L。)的耐盐和耐旱性
机译:花粉表达的耐热性及其与棉花细胞培养物耐旱性和耐盐性的关系(选择)。
机译:拟南芥中AVP1和OsSIZ1的共过量表达大大增强了植物对干旱盐和热胁迫的耐受性
机译:水稻NaC基因sNaC1的过量表达通过增加转基因棉花的根系发育和降低蒸腾速率来改善干旱和耐盐性。