细胞分裂素延缓叶片衰老。
Cytokinin inhibition of leaf senescence.
机构信息
Department of Biological Sciences; Auburn University; Auburn, AL USA.
出版信息
Plant Signal Behav. 2013 Jul;8(7):e24737. doi: 10.4161/psb.24737. Epub 2013 Jul 1.
Abstract
The senescence delaying effect of cytokinin is well known, however, the details behind how this process occurs remain unclear. Efforts to improve understanding of this phenomenon have led to the identification in Arabidopsis of specific cytokinin signaling components through which senescence signal responses are regulated. These include the cytokinin receptor (AHK3), the type-B response regulator (ARR2) and the recently identified cytokinin response factor (CRF6). At the mechanistic end of this process, it was found that increased cell-wall invertase activity which occurs in response to cytokinin is both necessary and sufficient for the inhibition of senescence. Yet, a direct link between the signaling and mechanistic steps of a cytokinin regulated senescence process has yet to be demonstrated. This may be in part because the relationship between senescence and primary metabolism implied by the key role of cell-wall invertase is the subject of two apparently opposing bodies of evidence. Here we briefly summarize and propose a model in which cytokinin mediated changes in sink/source relationships leads to delayed senescence which is consistent with existing evidence both for and against sugars as a trigger for developmental senescence.
摘要
细胞分裂素的延缓衰老作用是众所周知的,然而,这一过程发生的细节仍不清楚。为了提高对这一现象的理解,人们通过鉴定拟南芥中的特定细胞分裂素信号成分,来调节衰老信号反应。这些成分包括细胞分裂素受体(AHK3)、B 型反应调节剂(ARR2)和最近鉴定的细胞分裂素反应因子(CRF6)。在这个过程的机制端,发现细胞分裂素响应增加的细胞壁转化酶活性对于抑制衰老既必要又充分。然而,细胞分裂素调节的衰老过程的信号和机制步骤之间的直接联系尚未得到证明。部分原因可能是细胞壁转化酶的关键作用所暗示的衰老与初级代谢之间的关系是两个明显对立的证据的主题。在这里,我们简要总结并提出一个模型,即细胞分裂素介导的源库关系变化导致衰老延迟,这与支持和反对糖作为发育衰老触发因素的现有证据是一致的。
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