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Redox regulation of PEP activity during seedling establishment in Arabidopsis thaliana

Redox regulation of PEP activity during seedling establishment in Arabidopsis thaliana

ID:40724680

大小:2.92 MB

页数:12页

时间:2019-08-06

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1、ARTICLEDOI:10.1038/s41467-017-02468-2OPENRedoxregulationofPEPactivityduringseedlingestablishmentinArabidopsisthalianaManuelGuineaDíaz1,2,TamaraHernández-Verdeja1,DmitryKremnev1,TimCrawford1,CaroleDubreuil1&ÅsaStrand1Activationoftheplastid-encodedRNApolymeraseistightlycontrolledandinvol

2、vesanetworkofphosphorylationand,asyetunidentified,thiol-mediatedevents.Here,wecharacterize1234567890PLASTIDREDOXINSENSITIVE2,aredox-regulatedproteinrequiredforfullPEP-driventran-scription.PRIN2dimerscanbereducedintotheactivemonomericformbythioredoxinsthroughreductionofadisulfidebond.Expo

3、suretolightincreasestheratiobetweenthemonomericanddimericformsofPRIN2.Complementationofprin2-2withdifferentPRIN2proteinvariantsdemonstratesthatthemonomerisrequiredforlight-activatedPEP-dependenttranscriptionandthatexpressionofthenuclear-encodedphotosynthesisgenesislinkedtotheactivityof

4、PEP.ActivationofPEPduringchloroplastdevelopmentlikelyisthesourceofaretrogradesignalthatpromotesnuclearLHCBexpression.Thus,regulationofPRIN2isthethiol-mediatedmechanismrequiredforfullPEPactivity,withPRIN2monomerizationviareductionbyTRXsprovidingamechanisticlinkbetweenphotosyntheticelect

5、rontransportandactivationofphotosyntheticgeneexpression.1UmeåPlantScienceCentre,DepartmentofPlantPhysiology,UmeåUniversity,SE-90187Umeå,Sweden.2Presentaddress:MolecularPlantBiology,UniversityofTurku,FI-20520Turku,Finland.ManuelGuineaDíazandTamaraHernández-Verdejacontributedequallytothi

6、swork.CorrespondenceandrequestsformaterialsshouldbeaddressedtoÅ.S.(email:Asa.Strand@umu.se)NATURECOMMUNICATIONS

7、(2018)9:50

8、DOI:10.1038/s41467-017-02468-2

9、www.nature.com/naturecommunications1ARTICLENATURECOMMUNICATIONS

10、DOI:10.1038/s41467-017-02468-2nadditiontobeingtheprimaryenergysource

11、forplants,allelesbothdemonstratedimpairedregulationofphotosynthesis-lightalsoprovidesplantswithinformationtocontrolassociatednucleargenes(PhANGs)whenexposedtoexcesslight,Iprocessessuchaschloroplastdevelopmentandseedlingorwhenphotosyntheticelectrontransport(PET)24wasinhibited.establis

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