Degradation of PsbO by the Deg Protease hhoA is thioredoxin dependent

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The widely distributed members of the Deg/HtrA protease family play an important role in the proteolysis of misfolded and damaged proteins. Here we show that the Deg protease rHhoA is able to degrade PsbO, the extrinsic protein of the Photosystem II [PSII] oxygen-evolving complex in Synechocystis sp...

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Detalles Bibliográficos
Otros Autores:	Roberts, Irma N., Lam, Xuan Tam, Miranda, Helder, Kieselbach, Thomas, Funk, Christiane
Formato:	Artículo
Lenguaje:	Inglés
Materias:	BACTERIAL PROTEIN DEG PROTEASE RECOMBINANT HHOA PROTEIN HHOA PROTEIN HHOB PROTEIN HTRA PROTEIN PSBO THIOREDOXIN UNCLASSIFIED DRUG BACTERIAL CELL BACTERIAL STRAIN CELL FRACTIONATION CELLULAR DISTRIBUTION CONTROLLED STUDY CYTOPLASM ENZYME DEGRADATION ENZYME SUBSTRATE EUKARYOTE NONHUMAN NUCLEOTIDE SEQUENCE OXIDATION REDUCTION REACTION PHOTOSYSTEM II PROKARYOTE PROTEIN ASSEMBLY PROTEIN CLEAVAGE PROTEIN LOCALIZATION SPINACH SYNECHOCOCCUS THYLAKOID MEMBRANE AMINO ACID SEQUENCE BACTERIAL PROTEINS BASE SEQUENCE BLOTTING, WESTERN DNA PRIMERS ELECTROPHORESIS, POLYACRYLAMIDE GEL KINETICS MASS SPECTROMETRY MOLECULAR SEQUENCE DATA PROTEOLYSIS RECOMBINANT PROTEINS SUBCELLULAR FRACTIONS SUBSTRATE SPECIFICITY SYNECHOCYSTIS THIOREDOXINS EUKARYOTA PROKARYOTA SPINACIA OLERACEA SYNECHOCYSTIS SP. PCC 6803
Acceso en línea:	http://ri.agro.uba.ar/files/download/articulo/2012Roberts.pdf LINK AL EDITOR
Aporte de:	Registro referencial: Solicitar el recurso aquí Biblioteca Central (FAUBA) de Universidad de Buenos Aires


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999			\|c 46848 \|d 46848
022			\|a 1932-6203
024			\|a 10.1371/journal.pone.0045713
040			\|a AR-BaUFA \|c AR-BaUFA
245	1	0	\|a Degradation of PsbO by the Deg Protease hhoA is thioredoxin dependent
520			\|a The widely distributed members of the Deg/HtrA protease family play an important role in the proteolysis of misfolded and damaged proteins. Here we show that the Deg protease rHhoA is able to degrade PsbO, the extrinsic protein of the Photosystem II [PSII] oxygen-evolving complex in Synechocystis sp. PCC 6803 and in spinach. PsbO is known to be stable in its oxidized form, but after reduction by thioredoxin it became a substrate for recombinant HhoA [rHhoA]. rHhoA cleaved reduced eukaryotic [specifically, spinach] PsbO at defined sites and created distinct PsbO fragments that were not further degraded. As for the corresponding prokaryotic substrate [reduced PsbO of Synechocystis sp. PCC 6803], no PsbO fragments were observed. Assembly to PSII protected PsbO from degradation. For Synechocystis sp. PCC 6803, our results show that HhoA, HhoB, and HtrA are localized in the periplasma and/or at the thylakoid membrane. In agreement with the idea that PsbO could be a physiological substrate for Deg proteases, part of the cellular fraction of the three Deg proteases of Synechocystis sp. PCC 6803 [HhoA, HhoB, and HtrA] was detected in the PSII-enriched membrane fraction.
653		0	\|a BACTERIAL PROTEIN
653		0	\|a DEG PROTEASE RECOMBINANT HHOA
653		0	\|a PROTEIN HHOA
653		0	\|a PROTEIN HHOB
653		0	\|a PROTEIN HTRA
653		0	\|a PROTEIN PSBO
653		0	\|a THIOREDOXIN
653		0	\|a UNCLASSIFIED DRUG
653		0	\|a BACTERIAL CELL
653		0	\|a BACTERIAL STRAIN
653		0	\|a CELL FRACTIONATION
653		0	\|a CELLULAR DISTRIBUTION
653		0	\|a CONTROLLED STUDY
653		0	\|a CYTOPLASM
653		0	\|a ENZYME DEGRADATION
653		0	\|a ENZYME SUBSTRATE
653		0	\|a EUKARYOTE
653		0	\|a NONHUMAN
653		0	\|a NUCLEOTIDE SEQUENCE
653		0	\|a OXIDATION REDUCTION REACTION
653		0	\|a PHOTOSYSTEM II
653		0	\|a PROKARYOTE
653		0	\|a PROTEIN ASSEMBLY
653		0	\|a PROTEIN CLEAVAGE
653		0	\|a PROTEIN LOCALIZATION
653		0	\|a SPINACH
653		0	\|a SYNECHOCOCCUS
653		0	\|a THYLAKOID MEMBRANE
653		0	\|a AMINO ACID SEQUENCE
653		0	\|a BACTERIAL PROTEINS
653		0	\|a BASE SEQUENCE
653		0	\|a BLOTTING, WESTERN
653		0	\|a DNA PRIMERS
653		0	\|a ELECTROPHORESIS, POLYACRYLAMIDE GEL
653		0	\|a KINETICS
653		0	\|a MASS SPECTROMETRY
653		0	\|a MOLECULAR SEQUENCE DATA
653		0	\|a PROTEOLYSIS
653		0	\|a RECOMBINANT PROTEINS
653		0	\|a SUBCELLULAR FRACTIONS
653		0	\|a SUBSTRATE SPECIFICITY
653		0	\|a SYNECHOCYSTIS
653		0	\|a THIOREDOXINS
653		0	\|a EUKARYOTA
653		0	\|a PROKARYOTA
653		0	\|a SPINACIA OLERACEA
653		0	\|a SYNECHOCYSTIS SP. PCC 6803
700	1		\|9 46844 \|a Roberts, Irma N.
700	1		\|a Lam, Xuan Tam \|9 72303
700	1		\|a Miranda, Helder \|9 72304
700	1		\|a Kieselbach, Thomas \|9 72305
700	1		\|9 70042 \|a Funk, Christiane
773			\|t Plos One \|g vol.7, no.9 (2012), p.1-12
856			\|u http://ri.agro.uba.ar/files/download/articulo/2012Roberts.pdf \|i En internet \|q application/pdf \|f 2012Roberts \|x MIGRADOS2018
856			\|u http://www.plos.org/ \|x MIGRADOS2018 \|z LINK AL EDITOR
900			\|a as
900			\|a 20131220
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900			\|a a
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900			\|a ARTICULO
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900			\|a 19326203
900			\|a 10.1371/journal.pone.0045713
900			\|a ^tDegradation of PsbO by the Deg Protease HhoA Is Thioredoxin Dependent
900			\|a ^aRoberts^bI.N.
900			\|a ^aLam^bX.T.
900			\|a ^aMiranda^bH.
900			\|a ^aKieselbach^bT.
900			\|a ^aFunk^bC.
900			\|a ^aRoberts^bI. N.
900			\|a ^aLam^bX. T.
900			\|a ^aMiranda^bH.
900			\|a ^aKieselbach^bT.
900			\|a ^aFunk^bC.
900			\|a ^aRoberts^bI.N.^tDepartment of Chemistry and UmeÃ¥ Plant Science Centre, UmeÃ¥ University, UmeÃ¥, Sweden
900			\|a ^aLam^bX.T.^tInstituto de Investigaciones en Biociencias AgrÃcolas y Ambientales, Universidad de Buenos Aires, Buenos Aires, Argentina
900			\|a ^aMiranda^bH.
900			\|a ^aKieselbach^bT.
900			\|a ^aFunk^bC.
900			\|a ^tPLoS ONE^cPLoS ONE
900			\|a en
900			\|a e45713
900			\|a ^i
900			\|a Vol. 7, no. 9
900			\|a BACTERIAL PROTEIN
900			\|a DEG PROTEASE RECOMBINANT HHOA
900			\|a PROTEIN HHOA
900			\|a PROTEIN HHOB
900			\|a PROTEIN HTRA
900			\|a PROTEIN PSBO
900			\|a THIOREDOXIN
900			\|a UNCLASSIFIED DRUG
900			\|a BACTERIAL CELL
900			\|a BACTERIAL STRAIN
900			\|a CELL FRACTIONATION
900			\|a CELLULAR DISTRIBUTION
900			\|a CONTROLLED STUDY
900			\|a CYTOPLASM
900			\|a ENZYME DEGRADATION
900			\|a ENZYME SUBSTRATE
900			\|a EUKARYOTE
900			\|a NONHUMAN
900			\|a NUCLEOTIDE SEQUENCE
900			\|a OXIDATION REDUCTION REACTION
900			\|a PHOTOSYSTEM II
900			\|a PROKARYOTE
900			\|a PROTEIN ASSEMBLY
900			\|a PROTEIN CLEAVAGE
900			\|a PROTEIN LOCALIZATION
900			\|a SPINACH
900			\|a SYNECHOCOCCUS
900			\|a THYLAKOID MEMBRANE
900			\|a AMINO ACID SEQUENCE
900			\|a BACTERIAL PROTEINS
900			\|a BASE SEQUENCE
900			\|a BLOTTING, WESTERN
900			\|a DNA PRIMERS
900			\|a ELECTROPHORESIS, POLYACRYLAMIDE GEL
900			\|a KINETICS
900			\|a MASS SPECTROMETRY
900			\|a MOLECULAR SEQUENCE DATA
900			\|a PROTEOLYSIS
900			\|a RECOMBINANT PROTEINS
900			\|a SUBCELLULAR FRACTIONS
900			\|a SUBSTRATE SPECIFICITY
900			\|a SYNECHOCYSTIS
900			\|a THIOREDOXINS
900			\|a EUKARYOTA
900			\|a PROKARYOTA
900			\|a SPINACIA OLERACEA
900			\|a SYNECHOCYSTIS SP. PCC 6803
900			\|a The widely distributed members of the Deg/HtrA protease family play an important role in the proteolysis of misfolded and damaged proteins. Here we show that the Deg protease rHhoA is able to degrade PsbO, the extrinsic protein of the Photosystem II [PSII] oxygen-evolving complex in Synechocystis sp. PCC 6803 and in spinach. PsbO is known to be stable in its oxidized form, but after reduction by thioredoxin it became a substrate for recombinant HhoA [rHhoA]. rHhoA cleaved reduced eukaryotic [specifically, spinach] PsbO at defined sites and created distinct PsbO fragments that were not further degraded. As for the corresponding prokaryotic substrate [reduced PsbO of Synechocystis sp. PCC 6803], no PsbO fragments were observed. Assembly to PSII protected PsbO from degradation. For Synechocystis sp. PCC 6803, our results show that HhoA, HhoB, and HtrA are localized in the periplasma and/or at the thylakoid membrane. In agreement with the idea that PsbO could be a physiological substrate for Deg proteases, part of the cellular fraction of the three Deg proteases of Synechocystis sp. PCC 6803 [HhoA, HhoB, and HtrA] was detected in the PSII-enriched membrane fraction.
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Degradation of PsbO by the Deg Protease hhoA is thioredoxin dependent

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