两种NADPH：原叶绿素酸酯氧化还原酶（POR）同工型在水稻环境适应性中发挥不同作用。

Two NADPH: Protochlorophyllide Oxidoreductase (POR) Isoforms Play Distinct Roles in Environmental Adaptation in Rice.

作者信息

Kwon Choon-Tak, Kim Suk-Hwan, Song Giha, Kim Dami, Paek Nam-Chon

机构信息

Department of Plant Science, Plant Genomics and Breeding Institute, Research Institute of Agriculture and Life Sciences, Seoul National University, Seoul, 08826, Republic of Korea.

Crop Biotechnology Institute, Institutes of Green Bio Science and Technology, Seoul National University, Pyeongchang, 25354, Republic of Korea.

出版信息

Rice (N Y). 2017 Dec;10(1):1. doi: 10.1186/s12284-016-0141-2. Epub 2017 Jan 11.

DOI:10.1186/s12284-016-0141-2

PMID:28078486

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5226909/

Abstract

BACKGROUND

NADPH: protochlorophyllide oxidoreductase (POR) is an essential enzyme that catalyzes the photoreduction of protochlorophyllide to chlorophyllide, which is ultimately converted to chlorophyll in developing leaves. Rice has two POR isoforms, OsPORA and OsPORB. OsPORA is expressed in the dark during early leaf development; OsPORB is expressed throughout leaf development regardless of light conditions. The faded green leaf (fgl) is a loss-of-function osporB mutant that displays necrotic lesions and variegation in the leaves due to destabilized grana thylakoids, and has increased numbers of plastoglobules in the chloroplasts. To investigate whether the function of OsPORA can complement that of OsPORB, we constitutively overexpressed OsPORA in fgl mutant.

RESULTS

In the 35S:OsPORA/fgl (termed OPAO) transgenic plants, the necrotic lesions of the mutant disappeared and the levels of photosynthetic pigments and proteins, as well as plastid structure, were recovered in developing leaves under natural long days in the paddy field and under short days in an artificially controlled growth room. Under constant light conditions, however, total chlorophyll and carotenoid levels in the developing leaves of OPAO plants were lower than those of wild type. Moreover, the OPAO plants exhibited mild defects in mature leaves beginning at the early reproductive stage in the paddy field.

CONCLUSIONS

The physiological function of OsPORB in response to constant light or during reproductive growth cannot be completely replaced by constitutive activity of OsPORA, although the biochemical functions of OsPORA and OsPORB are redundant. Therefore, we suggest that the two OsPORs have differentiated over the course of evolution, playing distinct roles in the adaptation of rice to the environment.

摘要

背景

NADPH：原叶绿素酸酯氧化还原酶（POR）是一种催化原叶绿素酸酯光还原为叶绿素酸酯的关键酶，叶绿素酸酯最终在发育中的叶片中转化为叶绿素。水稻有两种POR同工型，即OsPORA和OsPORB。OsPORA在叶片发育早期的黑暗中表达；OsPORB在整个叶片发育过程中均有表达，不受光照条件影响。褪色绿叶（fgl）是一个功能缺失的osporB突变体，由于基粒类囊体不稳定，叶片出现坏死斑和斑驳，叶绿体中的质体小球数量增加。为了研究OsPORA的功能是否能够补偿OsPORB的功能，我们在fgl突变体中组成型过表达OsPORA。

结果

在35S：OsPORA/fgl（称为OPAO）转基因植株中，突变体的坏死斑消失，在稻田自然长日照和人工控制生长室短日照条件下发育的叶片中，光合色素和蛋白质水平以及质体结构均得以恢复。然而，在持续光照条件下，OPAO植株发育叶片中的总叶绿素和类胡萝卜素水平低于野生型。此外，OPAO植株在稻田生殖生长早期开始，成熟叶片出现轻微缺陷。

结论

尽管OsPORA和OsPORB的生化功能冗余，但OsPORB在持续光照或生殖生长过程中的生理功能不能完全被OsPORA的组成型活性所取代。因此，我们认为这两种OsPOR在进化过程中已经分化，在水稻适应环境中发挥着不同的作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a8c8/5226909/a747ff098810/12284_2016_141_Fig1_HTML.jpg

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两种NADPH：原叶绿素酸酯氧化还原酶（POR）同工型在水稻环境适应性中发挥不同作用。

Two NADPH: Protochlorophyllide Oxidoreductase (POR) Isoforms Play Distinct Roles in Environmental Adaptation in Rice.

作者信息

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出版信息

BACKGROUND

RESULTS

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