镁原卟啉IX甲基转移酶（ChlM）功能受损阻碍水稻叶绿素合成和植株生长

Impaired Magnesium Protoporphyrin IX Methyltransferase (ChlM) Impedes Chlorophyll Synthesis and Plant Growth in Rice.

作者信息

Wang Zhaohai, Hong Xiao, Hu Keke, Wang Ya, Wang Xiaoxin, Du Shiyun, Li Yang, Hu Dandan, Cheng Kexin, An Baoguang, Li Yangsheng

机构信息

State Key Laboratory of Hybrid Rice, Key Laboratory for Research and Utilization of Heterosis in Indica Rice, Ministry of Agriculture, The Yangtze River Valley Hybrid Rice Collaboration Innovation Center, College of Life Sciences, Wuhan University, Wuhan, China.

The Key Laboratory of Crop Physiology, Ecology and Genetic Breeding, Ministry of Education, School of Agricultural Sciences, Jiangxi Agricultural University, Nanchang, China.

出版信息

Front Plant Sci. 2017 Sep 28;8:1694. doi: 10.3389/fpls.2017.01694. eCollection 2017.

DOI:10.3389/fpls.2017.01694

PMID:29033966

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5626950/

Abstract

Magnesium protoporphyrin IX methyltransferase (ChlM) catalyzes the formation of magnesium protoporphyrin IX monomethylester (MgPME) from magnesium protoporphyrin IX (MgP) in the chlorophyll synthesis pathway. However, no gene has yet been identified and studied in monocotyledonous plants. In this study, a spontaneous mutant, (), was isolated from rice (). This mutant showed yellow-green leaves, decreased chlorophyll level, and climate-dependent growth differences. Map-based cloning of this mutant identified the gene LOC_Os06g04150. is expressed in green tissues, especially in leaf organs, where it functions in chloroplasts. YGL18 showed an amino-acid sequence similarity to that of ChlM from different photosynthetic organisms. enzymatic assays demonstrated that YGL18 performed ChlM enzymatic activity, but ygl18 had nearly lost all ChlM activity. Correspondingly, the substrate MgP was largely accumulated while the product MgPME was reduced in leaves. is required for light-dependent and photoperiod-regulated chlorophyll synthesis. The retarded growth of mutant plants was caused by the high light intensity. Moreover, the higher light intensity and longer exposure in high light intensity even made the plants be more susceptible to death. Based on these results, it is suggested that plays essential roles in light-related chlorophyll synthesis and light intensity-involved plant growth.

摘要

镁原卟啉IX甲基转移酶（ChlM）在叶绿素合成途径中催化由镁原卟啉IX（MgP）形成镁原卟啉IX单甲酯（MgPME）。然而，在单子叶植物中尚未鉴定和研究相关基因。在本研究中，从水稻（Oryza sativa）中分离出一个自发突变体（ygl18）。该突变体表现出叶片黄绿、叶绿素水平降低以及依赖气候的生长差异。通过图位克隆该突变体鉴定出基因LOC_Os06g04150。YGL18在绿色组织中表达，尤其是在叶器官中，其在叶绿体中发挥作用。YGL18与来自不同光合生物的ChlM氨基酸序列具有相似性。酶活性测定表明YGL18具有ChlM酶活性，但ygl18几乎丧失了所有ChlM活性。相应地，在ygl18叶片中底物MgP大量积累而产物MgPME减少。YGL18是光依赖和光周期调节的叶绿素合成所必需的。ygl18突变体植株生长迟缓是由高光强度导致的。此外，更高的光强度和更长时间的高光暴露甚至使ygl18植株更易死亡。基于这些结果，表明YGL18在与光相关的叶绿素合成和涉及光强度的植物生长中起重要作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c7e2/5626950/8c57499a97cb/fpls-08-01694-g0001.jpg

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Impaired Magnesium Protoporphyrin IX Methyltransferase (ChlM) Impedes Chlorophyll Synthesis and Plant Growth in Rice.镁原卟啉IX甲基转移酶（ChlM）功能受损阻碍水稻叶绿素合成和植株生长

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镁原卟啉IX甲基转移酶（ChlM）功能受损阻碍水稻叶绿素合成和植株生长

Impaired Magnesium Protoporphyrin IX Methyltransferase (ChlM) Impedes Chlorophyll Synthesis and Plant Growth in Rice.

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