休眠芽中诱导的节能程序，生长还是不生长。

To grow or not to grow, a power-saving program induced in dormant buds.

机构信息

Plant Molecular Genetics Department, Centro Nacional de Biotecnología/CSIC, Campus Universidad Autónoma de Madrid, 28049 Madrid, Spain.

出版信息

Curr Opin Plant Biol. 2018 Feb;41:102-109. doi: 10.1016/j.pbi.2017.10.001. Epub 2017 Nov 8.

DOI:10.1016/j.pbi.2017.10.001

PMID:29125947

Abstract

Plant shoot branching patterns determine leaf, flower and fruit production, and thus reproductive success and yield. Branch primordia, or axillary buds, arise in the axils of leaves and their decision to either grow or enter dormancy is coordinated at the whole plant level. Comparisons of transcriptional profiles of axillary buds entering dormancy have identified a shared set of responses that closely resemble a Low Energy Syndrome. This syndrome is aimed at saving carbon use to support essential maintenance functions, rather than additional growth, and involves growth arrest (thus dormancy), metabolic reprogramming and hormone signalling. This response is widely conserved in distantly related woody and herbaceous species, and not only underlies but also precedes the growth-to-dormancy transition induced in buds by different stimuli.

摘要

植物的分枝模式决定了叶片、花朵和果实的产量，进而影响生殖成功和产量。分枝原基，或腋芽，在叶片的叶腋处产生，其生长或进入休眠的决定是在整株水平上协调的。对进入休眠的腋芽转录谱的比较确定了一组共同的反应，这些反应非常类似于低能量综合征。该综合征旨在节省碳的使用以支持基本的维持功能，而不是额外的生长，并且涉及生长停滞（因此休眠）、代谢重编程和激素信号传导。这种反应在亲缘关系较远的木本和草本物种中广泛保守，不仅是不同刺激诱导芽生长到休眠转变的基础，而且先于该转变。

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休眠芽中诱导的节能程序，生长还是不生长。

To grow or not to grow, a power-saving program induced in dormant buds.

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