High light induced disassembly of photosystem II supercomplexes in Arabidopsis requires STN7-dependent phosphorylation of CP29
about
Quality Control of Photosystem II: The Mechanisms for Avoidance and Tolerance of Light and Heat Stresses are Closely Linked to Membrane Fluidity of the ThylakoidsThe Use of Advanced Mass Spectrometry to Dissect the Life-Cycle of Photosystem IIThe significance of CP29 reversible phosphorylation in thylakoids of higher plants under environmental stressesDifferential phosphorylation of ribosomal proteins in Arabidopsis thaliana plants during day and nightHigh light-dependent phosphorylation of photosystem II inner antenna CP29 in monocots is STN7 independent and enhances nonphotochemical quenching.Significance of the photosystem II core phosphatase PBCP for plant viability and protein repair in thylakoid membranes.Photosystem II function and dynamics in three widely used Arabidopsis thaliana accessionsA thylakoid membrane protein harboring a DnaJ-type zinc finger domain is required for photosystem I accumulation in plantsArchitectural switch in plant photosynthetic membranes induced by light stress.An evolutionary view on thylakoid protein phosphorylation uncovers novel phosphorylation hotspots with potential functional implications.Towards elucidation of dynamic structural changes of plant thylakoid architecture.STN7 Operates in Retrograde Signaling through Controlling Redox Balance in the Electron Transfer Chain.Viroplasm protein P9-1 of Rice black-streaked dwarf virus preferentially binds to single-stranded RNA in its octamer form, and the central interior structure formed by this octamer constitutes the major RNA binding site.Structural changes of the thylakoid membrane network induced by high light stress in plant chloroplasts.Post-translational Modifications in Regulation of Chloroplast Function: Recent Advances.Post-genomic insight into thylakoid membrane lateral heterogeneity and redox balance.Phylogenetic viewpoints on regulation of light harvesting and electron transport in eukaryotic photosynthetic organisms.Effect of Light Acclimation on the Organization of Photosystem II Super- and Sub-Complexes in Arabidopsis thaliana.Pea PSII-LHCII supercomplexes form pairs by making connections across the stromal gap.Exploring the structure of the 100 amino-acid residue long N-terminus of the plant antenna protein CP29The STN8 kinase-PBCP phosphatase system is responsible for high-light-induced reversible phosphorylation of the PSII inner antenna subunit CP29 in rice.Photosynthetic electron transport and specific photoprotective responses in wheat leaves under drought stress.Quantitative phosphoproteomics reveals the role of the AMPK plant ortholog SnRK1 as a metabolic master regulator under energy deprivation.A phosphorylation map of the photosystem II supercomplex C2S2M2.Loss-of-function of OsSTN8 suppresses the photosystem II core protein phosphorylation and interferes with the photosystem II repair mechanism in rice (Oryza sativa).PHOTOSYSTEM II PROTEIN33, a protein conserved in the plastid lineage, is associated with the chloroplast thylakoid membrane and provides stability to photosystem II supercomplexes in Arabidopsis.Identification of a photosystem II phosphatase involved in light acclimation in Arabidopsis.Why we need to know the structure of phosphorylated chloroplast light-harvesting complex II.Surface charge dynamics in photosynthetic membranes and the structural consequences.Phosphoproteomics of Arabidopsis chloroplasts reveals involvement of the STN7 kinase in phosphorylation of nucleoid protein pTAC16.
P2860
Q26741106-20D4AC22-F284-4340-880C-2C4BDD101015Q26744607-538534D0-1636-48B3-B168-63277D81473DQ27694280-80A8D84B-9D3C-40F8-BC1C-4C749B6BCA07Q28478464-A9937F08-F6BF-437B-89E8-3845988EFBDFQ30316898-1411C942-5200-4ED8-B787-850FF8542305Q34285657-3FEE156A-3F48-4C43-8321-91C40764989FQ34430966-359897E7-CD56-43C6-8FBD-648ED1B3AFD4Q34431064-D053EBAD-3701-4958-920F-8F3F8DC70308Q34483930-DE41B6CF-13C2-4975-9D00-AA190762305FQ36000035-603851C5-CD05-4DDB-89AC-6D8C9DBE2634Q36395913-DCE30D6B-B771-496F-BE94-7B90BA98FAC5Q36477119-0A793FB5-5407-4609-8631-94F87F666ADAQ37336449-F52E6653-0FC5-4ADF-9BBA-CFC3931B531CQ37629892-1282C10D-2A34-45A9-B355-BF760FD73FC0Q37660837-2CB54FC0-4A80-45D4-85A8-6325DA154FACQ38028269-9B4FA512-1194-4694-AA21-A4A2034E2916Q38042810-6BAB9D9B-C6CD-4275-A7FB-E2A20686CF3AQ38522437-FEEBA8B7-C0A5-48EC-8D10-C39CF5276118Q38635372-2AE728D3-FC0E-4E9F-A7F5-7D45B99C965EQ38733296-C110106D-1911-41C7-B87B-397379919271Q39215750-CCE077B7-9AD5-405B-86E4-88AF2E61A16BQ39383353-FA709AC0-29B5-4222-B805-4E46996321B7Q41475451-B8EA0C77-02C2-447D-9710-33F336FAA363Q42133234-E1A53FDC-D4CC-4448-9267-B696D94E8361Q43666952-1F91B6C5-C5C3-4135-AD30-890254A38B26Q45934308-4A1A77F1-7954-4583-9250-70A274EAEA57Q46736771-354AC15C-F84F-46F6-B7D4-7653760D24ADQ48042032-513A601D-CC4C-4344-B617-6EE2A933C10FQ48045775-5E4DBF33-DD31-463D-BBCB-4D38247AB8CBQ53167357-CB8E3B1C-E2BA-42B8-82B2-C535296505FF
P2860
High light induced disassembly of photosystem II supercomplexes in Arabidopsis requires STN7-dependent phosphorylation of CP29
description
2011 nî lūn-bûn
@nan
2011 թուականին հրատարակուած գիտական յօդուած
@hyw
2011 թվականին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
name
High light induced disassembly ...... endent phosphorylation of CP29
@ast
High light induced disassembly ...... endent phosphorylation of CP29
@en
High light induced disassembly ...... endent phosphorylation of CP29
@nl
type
label
High light induced disassembly ...... endent phosphorylation of CP29
@ast
High light induced disassembly ...... endent phosphorylation of CP29
@en
High light induced disassembly ...... endent phosphorylation of CP29
@nl
prefLabel
High light induced disassembly ...... endent phosphorylation of CP29
@ast
High light induced disassembly ...... endent phosphorylation of CP29
@en
High light induced disassembly ...... endent phosphorylation of CP29
@nl
P2860
P3181
P1433
P1476
High light induced disassembly ...... endent phosphorylation of CP29
@en
P2093
Alexander V Vener
Rikard Fristedt
P2860
P304
P3181
P356
10.1371/JOURNAL.PONE.0024565
P407
P577
2011-01-01T00:00:00Z