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Author
dc.contributor.author
Málnási-Csizmadia, András 
Author
dc.contributor.author
Tóth, Judit 
Author
dc.contributor.author
Pearson, DS 
Author
dc.contributor.author
Hetényi, Csaba 
Author
dc.contributor.author
Nyitray, László 
Author
dc.contributor.author
Geeves, MA 
Author
dc.contributor.author
Bagshaw, CR 
Author
dc.contributor.author
Kovács, Mihály 
Availability Date
dc.date.accessioned
2023-08-29T10:43:24Z
Availability Date
dc.date.available
2023-08-29T10:43:24Z
Release
dc.date.issued
2007
uri
dc.identifier.uri
http://hdl.handle.net/10831/92869
Abstract
dc.description.abstract
After ATP binding the myosin head undergoes a large structural rearrangement called the recovery stroke. This transition brings catalytic residues into place to enable ATP hydrolysis, and at the same time it causes a swing of the myosin lever arm into a primed state, which is a prerequisite for the power stroke. By introducing point mutations into a subdomain interface at the base of the myosin lever arm at positions Lys(84) and Arg(704), we caused modulatory changes in the equilibrium constant of the recovery stroke, which we could accurately resolve using the fluorescence signal of single tryptophan Dictyostelium myosin II constructs. Our results shed light on a novel role of the recovery stroke: fine-tuning of this reversible equilibrium influences the functional properties of myosin through controlling the effective rates of ATP hydrolysis and phosphate release.
Language
dc.language
Angol

dc.rights
Nevezd meg! CC BY

dc.rights.uri
https://creativecommons.org/licenses/by/4.0/
Title
dc.title
Selective perturbation of the Myosin recovery stroke by point mutations at the base of the lever arm affects ATP hydrolysis and phosphate release.
Type
dc.type
folyóiratcikk
Date Change
dc.date.updated
2023-08-24T13:15:11Z
Note
dc.description.note
Department of Biochemistry, Eötvös University, H-1117 Budapest, Hungary Department of Biochemistry, University of Leicester, Leicester LE1 7RH, United Kingdom Laboratory of Molecular Physiology, NHLBI, National Institutes of Health, Bethesda, MD 20892, United States Department of Biosciences, University of Kent, Canterbury, Kent CT2 7NJ, United Kingdom Institute of Chemical Physics, University of Tartu, Jakobi 2, 51014 Tartu, Estonia Dept. of Biochemistry, Eötvös University, Pazmany P. setany 1/C, H-1117 Budapest, Hungary Cited By :22 Export Date: 22 November 2022 CODEN: JBCHA Correspondence Address: Kovács, M.; Dept. of Biochemistry, Pazmany P. setany 1/C, H-1117 Budapest, Hungary; email: kovacsm@elte.hu
Scope
dc.format.page
17658-17664
Doi ID
dc.identifier.doi
https://doi.org/10.1074/jbc.M701447200
Wos ID
dc.identifier.wos
000247084500038
ID Scopus
dc.identifier.scopus
34547129596
MTMT ID
dc.identifier.mtmt
1082800
Issue Number
dc.identifier.issue
24
abbreviated journal
dc.identifier.jabbrev
J BIOL CHEM
Journal
dc.identifier.jtitle
JOURNAL OF BIOLOGICAL CHEMISTRY
Volume Number
dc.identifier.volume
282
Release Date
dc.description.issuedate
2007
Pubmed ID
dc.identifier.pubmed
17449872
department of Author
dc.contributor.institution
Biokémiai Tanszék
department of Author
dc.contributor.institution
Genom Metabolizmus Kutatócsoport
department of Author
dc.contributor.institution
MTA-ELTE Molekuláris Biofizikai Kutatócsoport
department of Author
dc.contributor.institution
MTA-ELTE Lendület Motorenzimológiai Kutatócsoport
department of Author
dc.contributor.institution
MTA-ELTE Motor Farmakológiai Kutatócsoport
department of Author
dc.contributor.institution
Szentágothai János Kutatóközpont
department of Author
dc.contributor.institution
Farmakológiai és Farmakoterápiai Intézet
department of Author
dc.contributor.institution
Enzimológiai Intézet
Author institution
dc.contributor.department
Biokémiai Tanszék
Author institution
dc.contributor.department
Enzimológiai Intézet
Author institution
dc.contributor.department
Biokémiai Tanszék
Author institution
dc.contributor.department
Biokémiai Tanszék
Author institution
dc.contributor.department
Biokémiai Tanszék


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Selective perturbation of the Myosin recovery stroke by point mutations at the base of the lever arm affects ATP hydrolysis and phosphate release.
 

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Nevezd meg! CC BY
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