Deletion of PsbM in tobacco alters the QB site properties and the electron flow within photosystem II

Autor:	Izhar Karbat, Stefanie M. Volz, Reinhold G. Herrmann, Jörg Meurer, Hagit Zer, Lada Mlcòchová, Itzhak Ohad, Cristina Dal Bosco, Serena Schwenkert, Pavan Umate
Rok vydání:	2018
Předmět:	Photosynthetic reaction centre Photosystem II Plastoquinone macromolecular substances Biology Photosystem I Photosynthesis Biochemistry Electron Transport chemistry.chemical_compound Tobacco Molecular Biology Photosystem P700 Binding Sites Wild type Quinones food and beverages Photosystem II Protein Complex Cell Biology Plants Genetically Modified Protein Subunits chemistry Additions and Corrections Gene Deletion
Zdroj:	Journal of Biological Chemistry. 293:11649
ISSN:	0021-9258
DOI:	10.1074/jbc.aac118.004608
Popis:	Photosystem II, the oxygen-evolving complex of photosynthetic organisms, includes an intriguingly large number of low molecular weight polypeptides, including PsbM. Here we describe the first knock-out of psbM using a transplastomic, reverse genetics approach in a higher plant. Homoplastomic Delta psbM plants exhibit photoautotrophic growth. Biochemical, biophysical, and immunological analyses demonstrate that PsbM is not required for biogenesis of higher order photosystem II complexes. However, photosystem II is highly light-sensitive, and its activity is significantly decreased in Delta psbM, whereas kinetics of plastid protein synthesis, reassembly of photosystem II, and recovery of its activity are comparable with the wild type. Unlike wild type, phosphorylation of the reaction center proteins D1 and D2 is severely reduced, whereas the redox-controlled phosphorylation of photosystem II light-harvesting complex is reversely regulated in Delta psbM plants because of accumulation of reduced plastoquinone in the dark and a limited photosystem II-mediated electron transport in the light. Charge recombination in Delta psbM measured by thermoluminescence oscillations significantly differs from the 2/6 patterns in the wild type. A simulation program of thermoluminescence oscillations indicates a higher Q(B)/Q(-)(B) ratio in dark-adapted mutant thylakoids relative to the wild type. The interaction of the Q(A)/Q(B) sites estimated by shifts in the maximal thermoluminescence emission temperature of the Q band, induced by binding of different herbicides to the Q(B) site, is changed indicating alteration of the activation energy for back electron flow. We conclude that PsbM is primarily involved in the interaction of the redox components important for the electron flow within, outward, and backward to photosystem II.
Databáze:	OpenAIRE
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