Polyols in grape berry: transport and metabolic adjustments as a physiological strategy for water-deficit stress tolerance in grapevine
摘要:
ABSTRACT Polyols are important metabolites that often function as carbon and energy sources and/or osmoprotective solutes in some plants. In grapevine, and in the grape berry in particular, the molecular aspects of polyol transport and metabolism and their physiological relevance are virtually unknown to date. Here, the biochemical function of a grapevine fruit mesocarp polyol transporter (VvPLT1) was characterized after its heterologous expression in yeast. This H(+)-dependent plasma membrane carrier transports mannitol (K m=5.4mM) and sorbitol (K m=9.5mM) over a broad range of polyols and monosaccharides. Water-deficit stress triggered an increase in the expression of VvPLT1 at the fully mature stage, allowing increased polyol uptake into pulp cells. Plant polyol dehydrogenases are oxireductases that reversibly oxidize polyols into monosaccharides. Mannitol catabolism in grape cells (K m=30.1mM mannitol) and mature berry mesocarps (K m=79mM) was, like sorbitol dehydrogenase activity, strongly inhibited (50-75%) by water-deficit stress. Simultaneously, fructose reduction into polyols via mannitol and sorbitol dehydrogenases was stimulated, contributing to their higher intracellular concentrations in water-deficit stress. Accordingly, the concentrations of mannitol, sorbitol, galactinol, myo-inositol, and dulcitol were significantly higher in berry mesocarps from water-deficit-stressed Tempranillo grapevines. Metabolomic profiling of the berry pulp by GC-TOF-MS also revealed many other changes in its composition induced by water deficit. The impact of polyols on grape berry composition and plant response to water deficit stress, via modifications in polyol transport and metabolism, was analysed by integrating metabolomics with transcriptional analysis and biochemical approaches. © The Author 2014. Published by Oxford University Press on behalf of the Society for Experimental Biology. All rights reserved. For permissions, please email: journals.permissions@oup.com.
展开
关键词:
Grape berry metabolome osmoprotection polyol metabolism polyol/sugar ratio polyol transport VvPLT1 water-deficit stress.
DOI:
10.1093/jxb/eru446
被引量:
年份:
2015
国家科技图书文献中心
(权威机构)
EBSCO
academic.oup.com
万方
掌桥科研
查看更多
Semantic Scholar
(全网免费下载)
dx.doi.org
科研支点
(全网免费下载)
科研支点
Oxford Univ Press
Oxford Univ Press
(全网免费下载)
Europe PMC
NCBI
NCBI
ResearchGate
ProQuest
ResearchGate
(全网免费下载)
Citeseer
(全网免费下载)
blumwaldlab.com
(全网免费下载)
science-open.com
bashanfoundation.com
(全网免费下载)
blumwald.ucdavis.edu
(全网免费下载)
bashanfoundation.com
(全网免费下载)
paperity.org
bashanfoundation.org
(全网免费下载)
pubfacts.com
www.socolar.com
Semantic Scholar
(全网免费下载)
科研支点
(全网免费下载)
Oxford Univ Press
(全网免费下载)
ResearchGate
(全网免费下载)
Citeseer
(全网免费下载)
blumwald.ucdavis.edu
(全网免费下载)
bashanfoundation.com
(全网免费下载)
blumwaldlab.com
(全网免费下载)
bashanfoundation.com
(全网免费下载)
bashanfoundation.org
(全网免费下载)
通过文献互助平台发起求助,成功后即可免费获取论文全文。
相似文献
参考文献
引证文献
来源期刊
引用走势
辅助模式
引用
文献可以批量引用啦~
欢迎点我试用!
