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Literature DB >> 23408646

Structural insight into the UNC-45-myosin complex.

Filip Fratev¹, Svava Osk Jónsdóttir, Ilza Pajeva.

Abstract

The UNC-45 chaperone protein interacts with and affects the folding, stability, and the ATPase activity of myosins. It plays a critical role in the cardiomyopathy development and in the breast cancer tumor growth. Here we propose the first structural model of the UNC-45-myosin complex using various in silico methods. Initially, the human UNC-45B binding epitope was identified and the protein was docked to the cardiac myosin (MYH7) motor domain. The final UNC45B-MYH7 structure was obtained by performing of total 630 ns molecular dynamics simulations. The results indicate a complex formation, which is mainly stabilized by electrostatic interactions. Remarkably, the contact surface area is similar to that of the myosin-actin complex. A significant interspecies difference in the myosin binding epitope is observed. Our results reveal the structural basis of MYH7 exons 15-16 hypertrophic cardiomyopathy mutations and provide directions for drug targeting.

Entities: Disease Gene Mutation Species

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Year: 2013 PMID： 23408646 DOI： 10.1002/prot.24270

Source DB: PubMed Journal: Proteins ISSN： 0887-3585

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Cited

8 in total

Review 1. The UNC-45 myosin chaperone: from worms to flies to vertebrates.

Authors: Chi F Lee; Girish C Melkani; Sanford I Bernstein
Journal: Int Rev Cell Mol Biol Date: 2014 Impact factor: 6.813

2. Mutations in conserved residues of the myosin chaperone UNC-45 result in both reduced stability and chaperoning activity.

Authors: Taylor Moncrief; Courtney J Matheny; Ivana Gaziova; John M Miller; Hiroshi Qadota; Guy M Benian; Andres F Oberhauser
Journal: Protein Sci Date: 2021-09-28 Impact factor: 6.725

3. Structural and Dynamical Insight into PPARγ Antagonism: In Silico Study of the Ligand-Receptor Interactions of Non-Covalent Antagonists.

Authors: Filip Fratev; Ivanka Tsakovska; Merilin Al Sharif; Elina Mihaylova; Ilza Pajeva
Journal: Int J Mol Sci Date: 2015-07-08 Impact factor: 5.923

4. Identification of a novel proinsulin-associated SNP and demonstration that proinsulin is unlikely to be a causal factor in subclinical vascular remodelling using Mendelian randomisation.

Authors: Rona J Strawbridge; Angela Silveira; Marcel den Hoed; Stefan Gustafsson; Jian'an Luan; Denis Rybin; Josée Dupuis; Ruifang Li-Gao; Maryam Kavousi; Abbas Dehghan; Kadri Haljas; Jari Lahti; Jesper R Gådin; Alexandra Bäcklund; Ulf de Faire; Karl Gertow; Phillipe Giral; Anuj Goel; Steve E Humphries; Sudhir Kurl; Claudia Langenberg; Lars L Lannfelt; Lars Lind; Cecilia C M Lindgren; Elmo Mannarino; Dennis O Mook-Kanamori; Andrew P Morris; Renée de Mutsert; Rainer Rauramaa; Peter Saliba-Gustafsson; Bengt Sennblad; Andries J Smit; Ann-Christine Syvänen; Elena Tremoli; Fabrizio Veglia; Björn Zethelius; Hanna M Björck; Johan G Eriksson; Albert Hofman; Oscar H Franco; Hugh Watkins; J Wouter Jukema; Jose C Florez; Nicholas J Wareham; James B Meigs; Erik Ingelsson; Damiano Baldassarre; Anders Hamsten
Journal: Atherosclerosis Date: 2017-09-28 Impact factor: 5.162

Structural insight into the UNC-45-myosin complex.

Review 1. The UNC-45 myosin chaperone: from worms to flies to vertebrates.

2. Mutations in conserved residues of the myosin chaperone UNC-45 result in both reduced stability and chaperoning activity.

3. Structural and Dynamical Insight into PPARγ Antagonism: In Silico Study of the Ligand-Receptor Interactions of Non-Covalent Antagonists.

4. Identification of a novel proinsulin-associated SNP and demonstration that proinsulin is unlikely to be a causal factor in subclinical vascular remodelling using Mendelian randomisation.

5. The central domain of UNC-45 chaperone inhibits the myosin power stroke.

6. Bi-allelic mutations in uncoordinated mutant number-45 myosin chaperone B are a cause for congenital myopathy.

7. Mutational Analysis of the Structure and Function of the Chaperoning Domain of UNC-45B.

Review 8. Evolution of In Silico Strategies for Protein-Protein Interaction Drug Discovery.