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Literature DB >> 17213877

Reversible movement of switch 1 loop of myosin determines actin interaction.

Bálint Kintses¹, Máté Gyimesi, David S Pearson, Michael A Geeves, Wei Zeng, Clive R Bagshaw, András Málnási-Csizmadia.

Abstract

The conserved switch 1 loop of P-loop NTPases is implicated as a central element that transmits information between the nucleotide-binding pocket and the binding site of the partner proteins. Recent structural studies have identified two states of switch 1 in G-proteins and myosin, but their role in the transduction mechanism has yet to be clarified. Single tryptophan residues were introduced into the switch 1 region of myosin II motor domain and studied by rapid reaction methods. We found that in the presence of MgADP, two states of switch 1 exist in dynamic equilibrium. Actin binding shifts the equilibrium towards one of the MgADP states, whereas ATP strongly favors the other. In the light of electron cryo-microscopic and X-ray crystallographic results, these findings lead to a specific structural model in which the equilibrium constant between the two states of switch 1 is coupled to the strength of the actin-myosin interaction. This has implications for the enzymatic mechanism of G-proteins and possibly P-loop NTPases in general.

Entities: Chemical Gene

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Year: 2007 PMID： 17213877 PMCID： PMC1782383 DOI： 10.1038/sj.emboj.7601482

Source DB: PubMed Journal: EMBO J ISSN： 0261-4189 Impact factor: 11.598

30 in total

1. Resolution of conformational states of Dictyostelium myosin II motor domain using tryptophan (W501) mutants: implications for the open-closed transition identified by crystallography.

Authors: A Málnási-Csizmadia; R J Woolley; C R Bagshaw
Journal: Biochemistry Date: 2000-12-26 Impact factor: 3.162

2. A novel pressure-jump apparatus for the microvolume analysis of protein-ligand and protein-protein interactions: its application to nucleotide binding to skeletal-muscle and smooth-muscle myosin subfragment-1.

Authors: David S Pearson; Georg Holtermann; Patricia Ellison; Christine Cremo; Michael A Geeves
Journal: Biochem J Date: 2002-09-01 Impact factor: 3.857

3. Closing of the nucleotide pocket of kinesin-family motors upon binding to microtubules.

Authors: Nariman Naber; Todd J Minehardt; Sarah Rice; Xiaoru Chen; Jean Grammer; Marija Matuska; Ronald D Vale; Peter A Kollman; Roberto Car; Ralph G Yount; Roger Cooke; Edward Pate
Journal: Science Date: 2003-05-02 Impact factor: 47.728

Review 4. Exchange factors, effectors, GAPs and motor proteins: common thermodynamic and kinetic principles for different functions.

Authors: Roger S Goody; Waltraud Hofmann-Goody
Journal: Eur Biophys J Date: 2002-06-21 Impact factor: 1.733

5. Electron cryo-microscopy shows how strong binding of myosin to actin releases nucleotide.

Authors: Kenneth C Holmes; Isabel Angert; F Jon Kull; Werner Jahn; Rasmus R Schröder
Journal: Nature Date: 2003-09-25 Impact factor: 49.962

6. A structural model for actin-induced nucleotide release in myosin.

Authors: Thomas F Reubold; Susanne Eschenburg; Andreas Becker; F Jon Kull; Dietmar J Manstein
Journal: Nat Struct Biol Date: 2003-09-21

7. A structural state of the myosin V motor without bound nucleotide.

Authors: Pierre-Damien Coureux; Amber L Wells; Julie Ménétrey; Christopher M Yengo; Carl A Morris; H Lee Sweeney; Anne Houdusse
Journal: Nature Date: 2003-09-25 Impact factor: 49.962

8. Conformational states of the switch I region of Ha-ras-p21 in hinge residue mutants studied by fluorescence lifetime and fluorescence anisotropy measurements.

Authors: Steven Kuppens; Mario Hellings; Jan Jordens; Stefan Verheyden; Yves Engelborghs
Journal: Protein Sci Date: 2003-05 Impact factor: 6.725

9. Myosin cleft movement and its coupling to actomyosin dissociation.

Authors: Paul B Conibear; Clive R Bagshaw; Piotr G Fajer; Mihály Kovács; András Málnási-Csizmadia
Journal: Nat Struct Biol Date: 2003-09-21

10. Nucleotide exchange via local protein unfolding--structure of Rab8 in complex with MSS4.

Authors: Aymelt Itzen; Olena Pylypenko; Roger S Goody; Kirill Alexandrov; Alexey Rak
Journal: EMBO J Date: 2006-03-16 Impact factor: 11.598

30 in total

1. Multiple conformations of the nucleotide site of Kinesin family motors in the triphosphate state.

Authors: Nariman Naber; Adam Larson; Sarah Rice; Roger Cooke; Edward Pate
Journal: J Mol Biol Date: 2011-01-26 Impact factor: 5.469

2. Structural mechanism of the ATP-induced dissociation of rigor myosin from actin.

Authors: Sebastian Kühner; Stefan Fischer
Journal: Proc Natl Acad Sci U S A Date: 2011-04-25 Impact factor: 11.205

3. A novel actin binding site of myosin required for effective muscle contraction.

Authors: Boglárka H Várkuti; Zhenhui Yang; Bálint Kintses; Péter Erdélyi; Irén Bárdos-Nagy; Attila L Kovács; Péter Hári; Miklós Kellermayer; Tibor Vellai; András Málnási-Csizmadia
Journal: Nat Struct Mol Biol Date: 2012-02-12 Impact factor: 15.369

4. Switch II mutants reveal coupling between the nucleotide- and actin-binding regions in myosin V.

Authors: Darshan V Trivedi; Charles David; Donald J Jacobs; Christopher M Yengo
Journal: Biophys J Date: 2012-06-05 Impact factor: 4.033

5. Myo1c mutations associated with hearing loss cause defects in the interaction with nucleotide and actin.

Authors: Nancy Adamek; Michael A Geeves; Lynne M Coluccio
Journal: Cell Mol Life Sci Date: 2010-07-17 Impact factor: 9.261

Review 6. Biological Nanomotors with a Revolution, Linear, or Rotation Motion Mechanism.

Authors: Peixuan Guo; Hiroyuki Noji; Christopher M Yengo; Zhengyi Zhao; Ian Grainge
Journal: Microbiol Mol Biol Rev Date: 2016-01-27 Impact factor: 11.056

7. Nucleotide pocket thermodynamics measured by EPR reveal how energy partitioning relates myosin speed to efficiency.

Authors: Thomas J Purcell; Nariman Naber; Kathy Franks-Skiba; Alexander R Dunn; Catherine C Eldred; Christopher L Berger; András Málnási-Csizmadia; James A Spudich; Douglas M Swank; Edward Pate; Roger Cooke
Journal: J Mol Biol Date: 2010-12-23 Impact factor: 5.469