光敏色素在与乙烯和二氧化碳相互作用克服莴苣种子热休眠中的作用。
The role of phytochrome in an interaction with ethylene and carbon dioxide in overcoming lettuce seed thermodormancy.
机构信息
Department of Plant Sciences, University of California, Riverside, California 92502.
出版信息
Plant Physiol. 1973 Jun;51(6):1089-94. doi: 10.1104/pp.51.6.1089.
Ethylene and CO(2) were used to control induction of germination in thermodormant lettuce seed (Lactuca sativa L.). These experiments ultimately showed that germination depends on the presence of an active form of the phytochrome. The phytochrome system is functional and stable at 35 C, a temperature which completely inhibits germination. Phytochrome responses to red or far red light and darkness showed that this inhibition of germination under light must be due to some other block(s) rather than to a direct inactivation of the phytochrome system itself. A postred radiation increase in lettuce seed germination that is not reversed by far red light was observed. The CO(2) requirement for C(2)H(4) action is not due to a change in the medium's pH; addition of C(2)H(4) plus CO(2) at the start of imbibition did not result in as much germination as when they were added several hours after imbibition. This reduction in germination, when the gases are added at the start of imbibiton, is due to CO(2).
乙烯和二氧化碳被用于控制热休眠生菜种子(Lactuca sativa L.)的萌发。这些实验最终表明,萌发取决于光敏色素的活性形式。在 35°C 的温度下,植物色素系统具有功能且稳定,而这个温度完全抑制了萌发。对红光、远红光和黑暗的光敏色素反应表明,光照下的这种萌发抑制必须是由于其他一些阻断(而不是直接失活植物色素系统本身)。在红光后辐射增加了生菜种子的萌发,而远红光无法逆转这种情况。CO(2)是 C(2)H(4)作用所必需的,这不是由于培养基 pH 值的变化;在吸水开始时添加 C(2)H(4)加 CO(2),并没有像在吸水数小时后添加时那样导致更多的萌发。当气体在吸水开始时添加时,萌发减少是由于 CO(2)。
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