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The maize secondary metabolism glycosyltransferase UFGT2 modifies flavonols and contributes to plant acclimation to abiotic stresses

机译：玉米次级代谢糖基转移酶UFGT2修饰黄酮醇并有助于植物适应非生物胁迫

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摘要

Nowadays, the plant family 1 glycosyltransferases (UGTs) are attracting more and more attention since members of this family can improve the properties of secondary metabolites and have significantly enriched the chemical species in plants. Over the past decade, most studies on UGTs have been conducted in and they were proved to play diverse roles during the plant life cycle. The (maize) GT1 family comprises a large number of UDP-glycosyltransferase (UGT) members. However, their enzyme activities and the biological functions are rarely revealed. In this study, a maize flavonol glycosyltransferase, UFGT2, is identified and its biological role is characterized in detail.

机译：如今，植物家族1糖基转移酶（UGTs）受到越来越多的关注，因为该家族的成员可以改善次生代谢产物的特性并显着丰富了植物中的化学种类。在过去的十年中，已对UGT进行了大多数研究，事实证明，它们在植物的生命周期中起着不同的作用。（玉米）GT1家族包含大量UDP-糖基转移酶（UGT）成员。但是，它们的酶活性和生物学功能很少被揭示。在这项研究中，确定了玉米黄酮醇糖基转移酶UFGT2，并对其生物学作用进行了详细描述。

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期刊名称 Annals of Botany
作者
Yan-jie Li; Pan Li; Ting Wang; Feng-ju Zhang; Xu-xu Huang; Bing-kai Hou;
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作者单位

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年(卷),期 2018(122),7
年度 2018
页码 -1
总页数 15
原文格式 PDF
正文语种
中图分类
关键词
Abiotic stress; flavonol; glycosyltransferase; kaempferol; maize; quercetin; UFGT2;

机译：非生物胁迫;黄酮醇;糖基转移酶;山emp酚;玉米;槲皮素;UFGT2;

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专利

1. The maize secondary metabolism glycosyltransferase UFGT2 modifies flavonols and contributes to plant acclimation to abiotic stresses [J] . Li Yan-jie, Li Pan, Wang Ting, Annals of Botany . 2018,第7期

机译：玉米二级代谢糖基转移酶UFGT2改变黄酮醇并有助于植入对非生物应激的驯化
2. Abiotic stress effects on grapevine (Vitis vinifera L.): focus on abscisic acid-mediated consequences on secondary metabolism and berry quality. (Special Issue: Response to abiotic stresses of plants of Mediterranean-type ecosystems.) [J] . Ferrandino A., Lovisolo C. Environmental and experimental botany . 2014,第Null期

机译：非生物胁迫对葡萄的影响（葡萄）：专注于脱落酸介导的对次生代谢和浆果品质的影响。（特刊：对地中海型生态系统植物非生物胁迫的响应。）
3. The challenge of Mediterranean sclerophyllous vegetation under climate change: from acclimation to adaptation. (Special Issue: Response to abiotic stresses of plants of Mediterranean-type ecosystems.) [J] . Bussotti F., Ferrini F., Pollastrini M., Environmental and experimental botany . 2014,第Null期

机译：气候变化下地中海硬叶植物的挑战：从适应到适应。（特刊：对地中海型生态系统植物非生物胁迫的响应。）
4. Lasso logistic regression based approach for extracting plants coregenes responding to abiotic stresses [C] . Liu Jinxing, Zheng Chunhou, Xu Yong Fourth International Workshop on Advanced Computational Intelligence . 2011

机译：基于套索逻辑回归的提取非生物胁迫植物核心基因的方法
5. Molecular mechanisms controlling hormonal regulation of plant responses to elevated carbon dioxide and abiotic stresses [D] . Zou, Xiaolu 2007

机译：控制植物对高二氧化碳和非生物胁迫响应的激素调节的分子机制
6. Molecular responses of genetically modified maize to abiotic stresses as determined through proteomic and metabolomic analyses [O] . Rafael Fonseca Benevenuto, Sarah Zanon Agapito-Tenfen, Vinicius Vilperte, -1

机译：通过蛋白质组学和代谢组学分析确定转基因玉米对非生物胁迫的分子响应
7. The maize secondary metabolism glycosyltransferase UFGT2 modifies flavonols and contributes to plant acclimation to abiotic stresses [O] . Yan-jie Li, Pan Li, Ting Wang, 2018

机译：玉米次级代谢糖基转移酶UFGT2改变黄酮醇并有助于植物适应非生物胁迫

The maize secondary metabolism glycosyltransferase UFGT2 modifies flavonols and contributes to plant acclimation to abiotic stresses

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