机构地区:[1]The Czech Academy of Sciences,Institute of Microbiology,Centre Algatech,Novohradská 237,37901 Treboñ,Czech Republic [2]Plants,Photosynthesis and Soil,School of Biosciences,University of Sheffield,Sheffield S102TN,UK [3]Department of Chemical and Biological Engineering,University of Sheffield,Sheffield S13JD,UK [4]Sir Ernst Chain Building-Wolfson Laboratories,Department of Life Sciences,South Kensington Campus,Imperial College London,London SW72AZ,UK [5]Faculty of Science,University of South Bohemia,37005 Ceské Budějovice,Czech Republic
出 处:《Plant Communications》2023年第1期272-286,共15页植物通讯(英文)
基 金:supported by the Grant Agency of the Czech Republic(19-08900Y to V.K.,22-03092S to A.W.);support from the Biotechnology and Biological Sciences Research Council(UK)(BB/M012166/1);financial support from the European Research Council,Synergy award 854126.C.N.H;supported by award BB/M000265/1 fromthe Biotechnology and Biological Sciences Research Council(BBSRC UK).
摘 要:FtsH proteases are membrane-embedded proteolytic complexes important for protein quality control and regulation of various physiological processes in bacteria,mitochondria,and chloroplasts.Like most cyanobacteria,the model species Synechocystis sp.PCC 6803 contains four FtsH homologs,FtsH1–FtsH4.FtsH1–FtsH3 form two hetero-oligomeric complexes,FtsH1/3 and FtsH2/3,which play a pivotal role in acclimation to nutrient deficiency and photosystem Ⅱ quality control,respectively.FtsH4 differs from the other three homologs by the formation of a homo-oligomeric complex,and together with Arabidopsis thaliana AtFtsH7/9 orthologs,it has been assigned to another phylogenetic group of unknown function.Our results exclude the possibility that Synechocystis FtsH4 structurally or functionally substitutes for the missing or non-functional FtsH2 subunit in the FtsH2/3 complex.Instead,we demonstrate that FtsH4 is involved in the biogenesis of photosystem Ⅱ by dual regulation of high light-inducible proteins(Hlips).FtsH4 positively regulates expression of Hlips shortly after high light exposure but is also responsible for Hlip removal under conditions when their elevated levels are no longer needed.We provide experimental support for Hlips as proteolytic substrates of FtsH4.Fluorescent labeling of FtsH4 enabled us to assess its localization using advanced microscopic techniques.Results show that FtsH4 complexes are concentrated in well-defined membrane regions at the inner and outer periphery of the thylakoid system.Based on the identification of proteins that co-purified with the tagged FtsH4,we speculate that FtsH4 concentrates in special compartments in which the biogenesis of photosynthetic complexes takes place.
关 键 词:THYLAKOID photosystemⅡbiogenesis FtsH4 high light-inducible protein PROTEOLYSIS
正在载入数据...
正在载入数据...
正在载入数据...
正在载入数据...
正在载入数据...
正在载入数据...
正在载入数据...
