...光周期与开花等反应是受到 不同于光合作用的机制所调控(Garner and Allard, 1920),但实际的作用分子 -光敏素(Phytochromes)-却是在30 年后才被纯化分离,其主要是感应外 界红光/远红光的比例来调控植物生长发育,因此,红光(R)与远红光(FR) 16 之间比...
基于14个网页-相关网页
• Phytochromes (光敏色素): Red/Far-red light receptors • Cryptochromes (隐花色素): Blue light receptors
基于8个网页-相关网页
In higher plants, there are at least three kinds of light receptors to capture light signal: phytochrome, cryptochromes and phototropin, which receptor absorb different spectrum of light.
在高等植物体内,至少存在三种光受体捕捉光信号:光敏素,蓝光/UV-A受体和UV-B受体,每一种光受体吸收不同光谱的光。
参考来源 - 光和赤霉素对拟南芥光形态建成及木质素生物合成的影响The latest studies have indicated that the dormancy phenomenon has been affected by a variety of plant hormones,phytochrome and genes regulation.
国内外最新试验研究发现,植物的休眠受多种植物激素、光敏色素及其相关基因的调控。
参考来源 - 苜蓿秋眠性调控机理的初步研究·2,447,543篇论文数据,部分数据来源于NoteExpress
N a blue-green pigment existing in two interchangeable forms, present in most plants, that mediates many light-dependent processes, including photoperiodism and the greening of leaves 光敏色素 [botany]
应用推荐