Theplant cytosolic m^(6)A RNA methylome stabilizes photosynthesis in the cold  被引量：1

作　　者：Alexandre Magno Vicente Nikolay Manavski Paul Torben Rohn Lisa-Marie Schmid Antoni Garcia-Molina Dario Leister Charlotte Seydel Leo Bellin Torsten Möhlmann Gregor Ammann Stefanie Kaiser Jörg Meurer 

机构地区：[1]Plant Molecular Biology,Faculty of Biology,Ludwig-Maximilians-University Munich,Großhaderner Street 2-4,82152 Planegg-Martinsried,Germany [2]Plant Development,Faculty of Biology,Ludwig-Maximilians-University Munich,Großhaderner Street 2-4,82152 Planegg-Martinsried,Germany [3]Plant Physiology,Faculty of Biology,University of Kaiserslautern,Erwin-Schröodinger-Street,7,67663 Kaiserslautern,Germany [4]Pharmaceutical Chemistry,Goethe University Frankfurt,Max-von-Laue-Str.9,60438 Frankfurt am Main,Germany [5]Present address:Loewe Biochemica GmbH,Möuhlweg 2a,82054 Sauerlach,Germany [6]Present address:Center for Research in Agricultural Genomics,08193

出　　处：《Plant Communications》2023年第6期70-84,共15页植物通讯（英文）

基　　金：supported by the Deutsche Akademischer Austauschdienst(91692277 to A.M.V.);the Deutsche Forschungsgemeinschaft(TRR 175 projects B07 to D.L.,B08 to T.M.,and A03 to J.M.).

摘　　要：The sessile lifestyle of plants requires an immediate response to environmental stressors that affect photosynthesis,growth,and crop yield.Here,we showed that three abiotic perturbations—heat,cold,and high light—triggered considerable changes in the expression signatures of 42 epitranscriptomic factors(writers,erasers,and readers)with putative chloroplast-associated functions that formed clusters of commonly expressed genes in Arabidopsis.The expression changes under all conditions were reversible upon deacclimation,identifying epitranscriptomic players as modulators in acclimation processes.Chloroplast dysfunctions,particularly those induced by the oxidative stress-inducing norflurazon in a largely GENOME UNCOUPLED-independent manner,triggered retrograde signals to remodel chloroplastassociated epitranscriptomic expression patterns.N6-methyladenosine(m^(6)A)is known as the most prevalent RNA modification and impacts numerous developmental and physiological functions in living organisms.During cold treatment,expression of components of the primary nuclear m^(6)A methyltransferase complex was upregulated,accompanied by a significant increase in cellular m^(6)A mRNA marks.In the cold,the presence of FIP37,a core component of the writer complex,played an important role in positive regulation of thylakoid structure,photosynthetic functions,and accumulation of photosystemⅠ,the Cytb6f complex,cyclic electron transport proteins,and Curvature Thylakoid1 but not that of photosystemⅡcomponents and the chloroplast ATP synthase.Downregulation of FIP37 affected abundance,polysomal loading,and translation of cytosolic transcripts related to photosynthesis in the cold,suggesting m^(6)Adependent translational regulation of chloroplast functions.In summary,we identified multifaceted roles of the cellular m^(6)A RNA methylome in coping with cold;these were predominantly associated with chloroplasts and served to stabilize photosynthesis.

关 键 词：m^(6)A RNA methylation cold acclimation stress response Arabidopsis thaliana PHOTOSYNTHESIS CHLOROPLAST 

分 类 号：Q94[生物学—植物学]