Department of Botany, University of British Columbia, Vancouver, British Columbia, Canada.
Plant Physiol. 1977 Jul;60(1):22-5. doi: 10.1104/pp.60.1.22.
A foliar spray of 10 mm cyclohexanecarboxylic acid (CHC), a component of the growth stimulant naphthenic acid, to primary leaves of 14-day-old plants of bush bean, Phaseolus vulgaris L., cv Top Crop, resulted in increased vegetative growth and pod production. One minute after the application of 0.5 mm CHC-7-(14)C (CHC()) to a primary leaf, CHC() was present within it. The chief conversion of the CHC() in the leaf during the interval 15 minutes to 4 hours after the acid had been applied appeared to be CHC() to its glucose conjugate (CHC()-G), and during 4 to 48 hours, CHC()-G to CHC()-aspartate and an unknown metabolite. Radioactivity was confined to the leaf for at least 1 hour, but by the 12th hour was detected throughout the plant. In the interval 1 to 4 weeks after CHC() application, the mean percentage distribution of radioactivity was: treated leaf, 65.3; roots, 18.8; stem, 7.7; trifoliate leaves, 5.9; flower buds-flowers-pods, 2.3. During this period CHC()-G was the most prominent metabolite in all organs; no free CHC() was detected. Light favored the movement of CHC(*) conjugates out of the leaf; glucose fed to dark-grown plants substituted for light to some extent but aspartate was relatively ineffective, suggesting the dependence of outward movement on ATP. The presence of the glucose and aspartate conjugates of the acid in all organs of CHC-treated plants and the absence of free CHC from them suggest that one or both conjugates, rather than the acid itself, are involved in growth stimulation.
10 毫米环己烷羧酸(CHC)的叶面喷雾,一种生长刺激剂萘酸的成分,应用于 14 天大的菜豆(Phaseolus vulgaris L.,cv Top Crop)初生叶上,导致营养生长和豆荚产量增加。在将 0.5 毫米 CHC-7-(14)C(CHC())施用于一片初生叶一分钟后,CHC()就存在于其中。在酸应用后 15 分钟至 4 小时的间隔内,CHC()在叶中的主要转化似乎是 CHC()到其葡萄糖轭合物(CHC()-G),而在 4 至 48 小时期间,CHC()-G 到 CHC()-天冬氨酸和一种未知代谢物。放射性物质至少在 1 小时内局限于叶片,但在 12 小时后已遍布整个植物。在 CHC()施用于后 1 至 4 周的间隔内,放射性物质的平均百分比分布为:处理叶,65.3;根,18.8;茎,7.7;三叶叶,5.9;花芽-花-豆荚,2.3。在这段时间内,CHC()-G 是所有器官中最突出的代谢物;没有检测到游离 CHC()。光照有利于 CHC 共轭物从叶片中移出;向黑暗生长的植物提供的葡萄糖在某种程度上替代了光照,但天冬氨酸相对无效,这表明外向运动依赖于 ATP。在 CHC 处理植物的所有器官中都存在酸的葡萄糖和天冬氨酸轭合物,而它们中不存在游离 CHC(*),这表明一种或两种轭合物,而不是酸本身,参与了生长刺激。