The essential roles of OsFtsH2 in developing the chloroplast of rice

The essential roles of OsFtsH2 in developing the chloroplast of rice

Abstract Background Filamentation temperature-sensitive H (FtsH) is an ATP-dependent zinc metalloprotease with ATPase activity, proteolysis activity and molecular chaperone-like activity. For now, a total of nine FtsH proteins have been encoded in rice, but their functions have not revealed in detai...

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Main Authors: Qingfei Wu, Tiantian Han, Li Yang, Qiang Wang, Yingxian Zhao, Dean Jiang, Xiao Ruan
Format: Article
Language:English
Published: BMC 2021-10-01
Series:BMC Plant Biology
Subjects:
Rice
OsFtsH2
Chloroplast development
RNA sequencing
Online Access:https://doi.org/10.1186/s12870-021-03222-z
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spelling doaj-6f9df52568784723a8e0f02390cda0772021-10-03T11:09:47ZengBMCBMC Plant Biology1471-22292021-10-0121111410.1186/s12870-021-03222-zThe essential roles of OsFtsH2 in developing the chloroplast of riceQingfei Wu0Tiantian Han1Li Yang2Qiang Wang3Yingxian Zhao4Dean Jiang5Xiao Ruan6School of Biological and Chemical Engineering, NingboTech UniversityState Key Laboratory of Plant Genomics, National Centre for Plant Gene Research (Beijing), Institute of Genetics and Developmental Biology, Chinese Academy of SciencesSchool of Biological and Chemical Engineering, NingboTech UniversitySchool of Biological and Chemical Engineering, NingboTech UniversitySchool of Biological and Chemical Engineering, NingboTech UniversityState Key Laboratory of Plant Physiology and Biochemistry, College of Life Sciences, Zhejiang UniversitySchool of Biological and Chemical Engineering, NingboTech UniversityAbstract Background Filamentation temperature-sensitive H (FtsH) is an ATP-dependent zinc metalloprotease with ATPase activity, proteolysis activity and molecular chaperone-like activity. For now, a total of nine FtsH proteins have been encoded in rice, but their functions have not revealed in detail. In order to investigate the molecular mechanism of OsFtsH2 here, several osftsh2 knockout mutants were successfully generated by the CRISPR/Cas9 gene editing technology. Results All the mutants exhibited a phenotype of striking albino leaf and could not survive through the stage of three leaves. OsFtsH2 was located in the chloroplast and preferentially expressed in green tissues. In addition, osftsh2 mutants could not form normal chloroplasts and had lost photosynthetic autotrophic capacity. RNA sequencing analysis indicated that many biological processes such as photosynthesis-related pathways and plant hormone signal transduction were significantly affected in osftsh2 mutants. Conclusions Overall, the results suggested OsFtsH2 to be essential for chloroplast development in rice.https://doi.org/10.1186/s12870-021-03222-zRiceOsFtsH2Chloroplast developmentRNA sequencing
collection DOAJ
language English
format Article
sources DOAJ
author Qingfei Wu
Tiantian Han
Li Yang
Qiang Wang
Yingxian Zhao
Dean Jiang
Xiao Ruan
spellingShingle Qingfei Wu
Tiantian Han
Li Yang
Qiang Wang
Yingxian Zhao
Dean Jiang
Xiao Ruan
The essential roles of OsFtsH2 in developing the chloroplast of rice
BMC Plant Biology
Rice
OsFtsH2
Chloroplast development
RNA sequencing
author_facet Qingfei Wu
Tiantian Han
Li Yang
Qiang Wang
Yingxian Zhao
Dean Jiang
Xiao Ruan
author_sort Qingfei Wu
title The essential roles of OsFtsH2 in developing the chloroplast of rice
title_short The essential roles of OsFtsH2 in developing the chloroplast of rice
title_full The essential roles of OsFtsH2 in developing the chloroplast of rice
title_fullStr The essential roles of OsFtsH2 in developing the chloroplast of rice
title_full_unstemmed The essential roles of OsFtsH2 in developing the chloroplast of rice
title_sort essential roles of osftsh2 in developing the chloroplast of rice
publisher BMC
series BMC Plant Biology
issn 1471-2229
publishDate 2021-10-01
description Abstract Background Filamentation temperature-sensitive H (FtsH) is an ATP-dependent zinc metalloprotease with ATPase activity, proteolysis activity and molecular chaperone-like activity. For now, a total of nine FtsH proteins have been encoded in rice, but their functions have not revealed in detail. In order to investigate the molecular mechanism of OsFtsH2 here, several osftsh2 knockout mutants were successfully generated by the CRISPR/Cas9 gene editing technology. Results All the mutants exhibited a phenotype of striking albino leaf and could not survive through the stage of three leaves. OsFtsH2 was located in the chloroplast and preferentially expressed in green tissues. In addition, osftsh2 mutants could not form normal chloroplasts and had lost photosynthetic autotrophic capacity. RNA sequencing analysis indicated that many biological processes such as photosynthesis-related pathways and plant hormone signal transduction were significantly affected in osftsh2 mutants. Conclusions Overall, the results suggested OsFtsH2 to be essential for chloroplast development in rice.
topic Rice
OsFtsH2
Chloroplast development
RNA sequencing
url https://doi.org/10.1186/s12870-021-03222-z
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