综述:光对光敏黄化茶树主要色素化合物的影响。

IF 3.4 3区 生物学 Q1 Agricultural and Biological Sciences Botanical Studies Pub Date : 2021-12-11 DOI:10.1186/s40529-021-00329-2
Cuinan Yue, Zhihui Wang, Puxiang Yang
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引用次数: 18

摘要

背景:光是植物光合作用的最终能量来源,对茶树的生长发育和生理生化具有重要影响。光敏黄化茶树属于一种彩叶植物,是对光强的生理反应。光敏黄化茶树与普通茶树的绿芽和叶片相比,与一系列光合作用反应密切相关的色素化合物(叶绿素和类胡萝卜素等)的积累减少,导致茶叶的叶色差异。这种特殊的茶叶资源具有很高的应用价值,其中高氨基酸是其优势之一。用它可以加工出口感鲜美、香气诱人的优质绿茶,受到了广泛的关注。黄化突变体茶叶的显色机制一直受到人们的高度关注,特别是在光照作用下,茶叶中的色素化合物发生了什么变化,使茶叶呈现出如此的黄色。目前,已经有大量的研究和报道。综述目的:通过对光敏性黄化茶在光照条件下影响叶色的关键色素化合物的代谢和差异积累的描述,探讨这些色素在不同光环境下的不同代谢和关键调控位点,以了解黄化茶资源的“变色”基质和机制,回答叶色与光之间的科学问题。为有色茶树变色的人工干预提供了重要的策略。结论:光信号的变化可诱导茶树光敏色素的差异积累。光黄化茶树叶绿素的合成受到强光的阻碍,其中由叶绿素原III氧化酶和叶绿素内酯a氧化酶调控的位点对光敏感,可被强光抑制,导致叶片黄化加重。遮荫或降低光照强度可使这种现象消失或减弱,叶片颜色偏绿,但叶绿素-b积累的增加大于叶绿素-a的增加。强光抑制了类胡萝卜素的合成,遮光降低了类胡萝卜素的高积累。大部分调节类胡萝卜素的基因在适度遮荫下上调,在过度遮荫下下调。因此,光敏黄化茶树中这两类色素的积累与光环境密切相关,光敏黄化茶树的叶色表型形态可以通过不同的光照条件发生改变,这为茶树的生产经营提供了重要的策略。
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Review: the effect of light on the key pigment compounds of photosensitive etiolated tea plant.

Background: Light is the ultimate energy source of plant photosynthesis, which has an important impact on the growth, development, physiology and biochemistry of tea plant. Photosensitive etiolated tea plant belongs to a kind of colored leaf plant, which is a physiological response to light intensity. Compared with conventional green bud and leaf of tea plant, the accumulation of pigment compounds (chlorophyll and carotenoids, etc.) closely related to a series of reactions of photosynthesis in photosensitive etiolated tea plant is reduced, resulting in the difference of leaf color of tea. This specific tea resource has high application value, among which high amino acid is one of its advantages. It can be used to process high-quality green tea with delicious taste and attractive aroma, which has been widely attention. The mechanism of the color presentation of the etiolated mutant tea leaves has been given a high topic and attention, especially, what changes have taken place in the pigment compounds of tea leaves caused by light, which makes the leaves so yellow. At present, there have been a lot of research and reports.

Purpose of the review: We describe the metabolism and differential accumulation of key pigment compounds affecting the leaf color of photosensitive etiolated tea that are triggered by light, and discuss the different metabolism and key regulatory sites of these pigments in different light environments in order to understand the "discoloration" matrix and mechanism of etiolated tea resources, answer the scientific question between leaf color and light. It provides an important strategy for artificial intervention of discoloration of colored tea plant.

Conclusion: The differential accumulation of pigment compounds in tea plant can be induced phytochrome in response to the change of light signal. The synthesis of chlorophyll in photoetiolated tea plants is hindered by strong light, among which, the sites regulated by coproporphyrinogen III oxidase and chlorophyllide a oxidase is sensitive to light and can be inhibited by strong light, resulting in the aggravation of leaf etiolation. The phenomenon can be disappeared or weakened by shading or reducing light intensity, and the leaf color is greenish, but the increase of chlorophyll-b accumulation is more than that of chlorophyll-a. The synthesis of carotenoids is inhibited strong light, and high the accumulation of carotenoids is reduced by shading. Most of the genes regulating carotenoids are up-regulated by moderate shading and down-regulated by excessive shading. Therefore, the accumulation of these two types of pigments in photosensitive etiolated tea plants is closely related to the light environment, and the leaf color phenotype shape of photosensitive etiolated tea plants can be changed by different light conditions, which provides an important strategy for the production and management of tea plant.

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来源期刊
Botanical Studies
Botanical Studies 生物-植物科学
CiteScore
5.50
自引率
2.90%
发文量
32
审稿时长
2.4 months
期刊介绍: Botanical Studies is an open access journal that encompasses all aspects of botany, including but not limited to taxonomy, morphology, development, genetics, evolution, reproduction, systematics, and biodiversity of all plant groups, algae, and fungi. The journal is affiliated with the Institute of Plant and Microbial Biology, Academia Sinica, Taiwan.
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