Elliott W M, Miller J H
Department of Bacteriology and Botany, Syracuse University, Syracuse, New York 13210.
Plant Physiol. 1969 May;44(5):623-30. doi: 10.1104/pp.44.5.623.
Etiolated pea seedlings given a short red-light pretreatment followed by 30 hr of darkness no longer showed a typical red-light inhibition of internode elongation. The induction of phytochrome-insensitive growth was itself mediated by phytochrome, since far-red light reversed the effect of the short red-light pretreatment. Peas grown in white light showed a similar insensitivity to red light. However, in this instance the phytochrome system exerted some control over internode elongation since far-red light promoted growth slightly, and this effect was red-reversible.The loss of sensitivity to red light was correlated with a decrease in the amount of spectrophotometrically assayable phytochrome. However, the loss of phytochrome occurred in a relatively short time compared to the period necessary to attain maximal insensitive growth (2 hr versus about 30 hr). Also, after the red-light and dark pretreatment, although 40% of the original amount of phytochrome remained, red light had no effect on elongation. Neither loss of phytochrome nor loss of red-light sensitive growth was observed at 0 to 1 degrees .
经短时间红光预处理后再进行30小时黑暗处理的黄化豌豆幼苗,不再表现出典型的红光对节间伸长的抑制作用。对红光不敏感的生长诱导本身是由光敏色素介导的,因为远红光可逆转短时间红光预处理的效果。在白光下生长的豌豆对红光也表现出类似的不敏感性。然而,在这种情况下,光敏色素系统对节间伸长仍有一定控制作用,因为远红光可轻微促进生长,且这种效应可被红光逆转。对红光敏感性的丧失与分光光度法可检测到的光敏色素量的减少相关。然而,与达到最大不敏感生长所需的时间相比,光敏色素的丧失发生在相对较短的时间内(2小时对约30小时)。此外,在红光和黑暗预处理后,尽管仍保留了40%的原始光敏色素量,但红光对伸长没有影响。在0至1摄氏度时,未观察到光敏色素的丧失或对红光敏感生长的丧失。