两个酿酒葡萄品种中水分亏缺与浆果质地、果皮细胞壁组成及重塑基因表达的关系

Relating Water Deficiency to Berry Texture, Skin Cell Wall Composition, and Expression of Remodeling Genes in Two Vitis vinifera L. Varieties.

作者信息

Fernandes J C, Cobb F, Tracana S, Costa G J, Valente I, Goulao L F, Amâncio S

机构信息

†DRAT/LEAF, Instituto Superior de Agronomia, Universidade de Lisboa, Tapada da Ajuda, 1349-017 Lisbon, Portugal.

‡BioTrop, Instituto de Investigação Científica Tropical (IICT, IP), Pólo Mendes Ferrão - Tapada da Ajuda, 1349-017 Lisbon, Portugal.

出版信息

J Agric Food Chem. 2015 Apr 22;63(15):3951-61. doi: 10.1021/jf505169z. Epub 2015 Apr 9.

DOI:10.1021/jf505169z

PMID:25828510

Abstract

The cell wall (CW) is a dynamic structure that responds to stress. Water shortage (WS) impacts grapevine berry composition and its sensorial quality. In the present work, berry texture, skin CW composition, and expression of remodeling genes were investigated in two V. vinifera varieties, Touriga Nacional (TN) and Trincadeira (TR), under two water regimes, Full Irrigation (FI) and No Irrigation (NI). The global results allowed an evident separation between both varieties and the water treatments. WS resulted in increased anthocyanin contents in both varieties, reduced amounts in cellulose and lignin at maturation, but an increase in arabinose-containing polysaccharides more tightly bound to the CW in TR. In response to WS, the majority of the CW related genes were down-regulated in a variety dependent pattern. The results support the assumption that WS affects grape berries by stiffening the CW through alteration in pectin structure, supporting its involvement in responses to environmental conditions.

摘要

细胞壁（CW）是一种能对胁迫做出反应的动态结构。水分短缺（WS）会影响葡萄浆果的成分及其感官品质。在本研究中，对两个酿酒葡萄品种，即国家杜丽佳（TN）和特林卡岱拉（TR），在两种水分条件下，即充分灌溉（FI）和不灌溉（NI），研究了浆果质地、果皮细胞壁成分以及重塑基因的表达。整体结果显示两个品种和水分处理之间有明显区分。水分短缺导致两个品种的花青素含量增加，成熟时纤维素和木质素含量减少，但在特林卡岱拉中与细胞壁结合更紧密的含阿拉伯糖多糖增加。响应水分短缺时，大多数与细胞壁相关的基因以品种依赖的模式下调。这些结果支持了这样的假设，即水分短缺通过改变果胶结构使细胞壁变硬来影响葡萄浆果，表明其参与了对环境条件的响应。

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两个酿酒葡萄品种中水分亏缺与浆果质地、果皮细胞壁组成及重塑基因表达的关系

Relating Water Deficiency to Berry Texture, Skin Cell Wall Composition, and Expression of Remodeling Genes in Two Vitis vinifera L. Varieties.

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