Research and Applicationon Plant Hormone--Abscisic Acid, ABA

Abscisic Acid (ABA), along with ethylene, gibberellins, cytokinins and auxins, is regarded as five kinds of important plant hormone. ABA was first isolated from cotton bud by Addcott Ohhuma’s group in 1963. Until 1965, its plane structure was determined. It was formally named as Abscisic acid in "the International Conference of Plant Regulator" in 1967. Scientists all over the world have made a long-term unremitting effort

6-苄氨基嘌呤(BA)和脱落酸(ABA)对湖南稷子Na^+、K^+选择性和游离脯氨酸分配的调节

以盆栽的C4植物-湖南稷子 Echinochloafrumentacea 为材料,用6-苄氨基嘌呤 BA 和脱落酸 ABA 定位涂抹湖南稷子的穗、上位和下位叶片,分析了植物体激素平衡的局部改变对整株水平上Na+、K+和游离脯氨酸分配的调节.实验结果表明,ABA和具有细胞分裂素活性的BA是调控Na+、K+及游离脯氨酸在不同层位叶中分配的重要因素.ABA涂抹湖南稷子的上位叶片,上位叶片中的Na+比其下位叶片高35.0%;用ABA涂抹湖南稷子的下位叶片,下位叶片中的K+比其上位叶片高31.4%,下位叶鞘中的K+比其上位叶鞘高53.7%.用BA涂抹湖南稷子的下位叶片,下位叶片中的K+和脯氨酸分别比其上位叶片高16.5%和31.7%;用BA或ABA定位涂抹植物地上不同部位,引起植物整株水平上Na+、K+向光合作用强的部位,特别是向活跃期的穗中选择性运输的能力增强,游离脯氨酸也多集中于代谢旺盛的光合器官和生殖器官.

提高银杏叶黄酮含量的措施及其调控机理的研究(英文)

在银杏果用园,喷施矮壮素、脱落素及乙烯利均能提高叶黄酮含量,矮壮素效果最好,比对照提高了20.06%,与对照和其它处理间差异达到极显著水平,脱落酸与对照之间差异达显著水平。矮壮素处理效果最优的原因是它能促进光合积累,显著降低叶片中GA含量和IAA/ABA、IAA/ETH、GA/ABA、GA/ETH值。