Weaver L M, Amasino R M
Department of Biochemistry, University of Wisconsin, 433 Babcock Drive, Madison, WI 53706, USA.
Plant Physiol. 2001 Nov;127(3):876-86.
It has long been known that leaf senescence can be induced in many plant species by detaching leaves and placing them in the darkness. It recently has been shown that entire Arabidopsis plants placed in the darkness are not induced to senesce, as judged by visible yellowing and certain molecular markers. Here, we show that when individual Arabidopsis leaves are darkened, but not when entire plants are darkened, senescence is induced in the covered leaves. This induction of senescence is highly localized. The phenomenon is leaf age dependent in that it occurs more rapidly and strongly in older leaves than in younger ones, as is the case with many forms of induced senescence. Whole adult plants placed in darkness, in contrast, show delayed senescence, although seedlings lacking primary leaves do not. These observations imply that the light status of the entire plant affects the senescence of individual leaves. A model summarizing the results is presented.
长期以来,人们都知道,通过摘下叶片并将其置于黑暗中,可诱导许多植物物种的叶片衰老。最近有研究表明,从可见的叶片发黄以及某些分子标记判断,置于黑暗中的整株拟南芥植物不会被诱导衰老。在此,我们表明,当拟南芥的个别叶片被遮光时,而非整株植物被遮光时,被覆盖的叶片会被诱导衰老。这种衰老诱导具有高度的局部性。该现象依赖于叶片年龄,即与许多形式的诱导衰老一样,在老叶中比在幼叶中发生得更快且更强烈。相比之下,置于黑暗中的成年整株植物显示出衰老延迟,尽管缺乏初生叶的幼苗并非如此。这些观察结果表明,整株植物的光照状态会影响个别叶片的衰老。本文给出了一个总结这些结果的模型。