机译:甘氨酸SOJA WRKY20的过度表达增强了转基因大豆干旱胁迫下的耐旱性并改善了植物产量
Northeast Agr Univ Coll Life Sci Harbin 150030 Peoples R China;
Chinese Acad Sci Northeast Inst Geog &
Agroecol Key Lab Soybean Mol Design Breeding Harbin 150040 Peoples R China;
Northeast Agr Univ Coll Life Sci Harbin 150030 Peoples R China;
Northeast Agr Univ Coll Life Sci Harbin 150030 Peoples R China;
Northeast Agr Univ Coll Life Sci Harbin 150030 Peoples R China;
Northeast Agr Univ Coll Life Sci Harbin 150030 Peoples R China;
Northeast Agr Univ Coll Life Sci Harbin 150030 Peoples R China;
Northeast Agr Univ Coll Life Sci Harbin 150030 Peoples R China;
Northeast Agr Univ Coll Life Sci Harbin 150030 Peoples R China;
Northeast Agr Univ Coll Life Sci Harbin 150030 Peoples R China;
GsWRKY20; Transgenic soybean; Drought tolerance; Plant yields;
机译:甘氨酸SOJA WRKY20的过度表达增强了转基因大豆干旱胁迫下的耐旱性并改善了植物产量
机译:来自大豆(甘氨酸Max)的新型干旱诱导Cys2 / His2型锌指蛋白STF-2增强了转基因植物中的耐旱性
机译:来自野生大豆(大豆大豆)的谷胱甘肽S-转移酶基因GsGST的过表达增强了转基因烟草的干旱和耐盐性
机译:PP14-3-3来自Pyrus pyrifolia果实的过度表达增加了转基因烟草植物中的干旱和耐盐性
机译:筛选大豆(Glycine MAX(L.)MERRILL)的抗旱性,以及干旱胁迫下大豆遗传力的初步研究。
机译:大豆DREB1的过表达增强了转基因小麦的田间抗旱性。
机译:转录因子GMTGA15的过度表达增强了转基因大豆毛状根和拟南芥植物的耐旱性