机译:Na& ce:sup =“post”> + +& / ce:sup>诱导与渗透调节和水蛋白介导的水运输和根和叶中的平衡相关的白色三叶草中的水分胁迫
Department of Grassland Science College of Animal Science and Technology Sichuan Agricultural University;
Department of Grassland Science College of Animal Science and Technology Sichuan Agricultural University;
Department of Grassland Science College of Animal Science and Technology Sichuan Agricultural University;
Department of Grassland Science College of Animal Science and Technology Sichuan Agricultural University;
Department of Grassland Science College of Animal Science and Technology Sichuan Agricultural University;
Department of Grassland Science College of Animal Science and Technology Sichuan Agricultural University;
Department of Grassland Science College of Animal Science and Technology Sichuan Agricultural University;
Department of Grassland Science College of Animal Science and Technology Sichuan Agricultural University;
Aquaporins; Na+/K+transportation; Osmotic adjustment; Phytohormones; Senescence; Transcription factors;
机译:Na& ce:sup =“post”> + +& / ce:sup>诱导与渗透调节和水蛋白介导的水运输和根和叶中的平衡相关的白色三叶草中的水分胁迫
机译:苜蓿植物诱导的渗透调节赋予耐水性
机译:代谢组科和生理分析显示β-席甾醇作为一种重要的植物生长调节剂,诱导白色三叶草水分胁迫的耐受性
机译:通过杂交用Trifolium Uniflorum L杂交改善白三叶草的干旱胁迫耐受性
机译:容器生长的苹果(Malus domestica Borkh。)植物对山梨醇诱导的渗透胁迫的水分关系,气孔导度和脱落酸含量。
机译:水分胁迫抑制水力传导和 叶片生长 在水稻幼苗中但不是 通过水运输 汞敏感 根中的水通道
机译:甘露糖调节水平,叶片衰老和与渗透胁迫下的白色三叶草有抗压力耐受性相关的基因
