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机译:来自Populus Euphratica的新型BHLH转录因子PEBHLH35通过调节气孔发育,光合作用和拟南芥的生长来赋予干旱耐受性
College of Biological Sciences and Technology National Engineering Laboratory for Tree Breeding;
College of Biological Sciences and Technology National Engineering Laboratory for Tree Breeding;
College of Biological Sciences and Technology National Engineering Laboratory for Tree Breeding;
College of Biological Sciences and Technology National Engineering Laboratory for Tree Breeding;
College of Biological Sciences and Technology National Engineering Laboratory for Tree Breeding;
College of Biological Sciences and Technology National Engineering Laboratory for Tree Breeding;
College of Biological Sciences and Technology National Engineering Laboratory for Tree Breeding;
bHLH; Drought; Populus euphratica; Stomata; Transcription factor;
机译:来自Populus Euphratica的新型BHLH转录因子PEBHLH35通过调节气孔发育,光合作用和拟南芥的生长来赋予干旱耐受性
机译:通过杨树植物新型DREB转录因子的过表达改善拟南芥和莲花酸耐药性的改善
机译:MFBHLH38,一种肌鱼片Flabellifolia BHLH转录因子,赋予拟南芥的干旱和盐度应力的耐受性
机译:气孔电导调节逐步干旱下的光合作用:从葡萄树到广义模式
机译:鉴定调节杨树次生生长的基因:一个弯曲的突变体揭示了杨树次生生长和发育的新型调节剂,并且茎尖分生组织同一性蛋白是否能调节血管形成层? CLAVATA1在拟南芥和胡杨次生生长调控中的作用证据。
机译:MFBHLH38一种肌鱼片Flabellifolia BHLH转录因子赋予拟南芥的干旱和盐度应力的耐受性
机译:MFBHLH38,一种肌鱼片Flabellifolia BHLH转录因子,赋予拟南芥的干旱和盐度应力的耐受性