The relay-converter interface influences hydrolysis of ATP by skeletal muscle myosin II

Journal article


Bloemink, M., Melkani, G., Bernstein, S. and Geeves, M. 2015. The relay-converter interface influences hydrolysis of ATP by skeletal muscle myosin II. The Journal of Biological Chemistry.
AuthorsBloemink, M., Melkani, G., Bernstein, S. and Geeves, M.
Abstract

The interface between relay and converter domain of muscle myosin is critical for optimal myosin performance. Using Drosophila melanogaster indirect flight muscle S1 we performed a kinetic analysis of the effect of mutations in the converter and relay domain. Introduction of a mutation (R759E) in the converter domain inhibits the steady-state ATPase of myosin S1, whereas an additional mutation in the relay domain (N509K) is able to restore the ATPase towards wild-type values. The S1-R759E construct showed little effect on most steps of the actomyosin ATPase cycle. The exception was a 25-30% reduction in the rate constant of the hydrolysis step, the step coupled to the cross-bridge recovery stroke and involving a change in conformation at the relay/converter domain interface. Significantly the double mutant restored the hydrolysis step to values similar to the wild-type myosin. Modelling the relay/converter interface suggests a possible interaction between converter residue 759 and relay residue 509 in the actin-detached conformation, which is lost in R759E but is restored in N509K/R759E. This detailed kinetic analysis of Drosophila myosin carrying the R759E mutation shows that the interface between the relay loop and converter domain is important for fine tuning myosin kinetics, in particular ATP binding and hydrolysis.

KeywordsActin; fluorescence; homology modeling; kinetics; muscle; myosin; protein structure-function; sequence alignment
Year2015
JournalThe Journal of Biological Chemistry
PublisherAmerican Society for Biochemistry and Molecular Biology
ISSN0021-9258
FunderWellcome Trust
NIH
Publication dates
Print19 Nov 2015
Publication process dates
Deposited13 Jan 2016
Accepted19 Nov 2015
Accepted author manuscript
Output statusPublished
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https://repository.canterbury.ac.uk/item/879y8/the-relay-converter-interface-influences-hydrolysis-of-atp-by-skeletal-muscle-myosin-ii

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