2021
DOI: 10.1038/s42003-020-01574-0
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Single molecule turnover of fluorescent ATP by myosin and actomyosin unveil elusive enzymatic mechanisms

Abstract: Benefits of single molecule studies of biomolecules include the need for minimal amounts of material and the potential to reveal phenomena hidden in ensembles. However, results from recent single molecule studies of fluorescent ATP turnover by myosin are difficult to reconcile with ensemble studies. We found that key reasons are complexities due to dye photophysics and fluorescent contaminants. After eliminating these, through surface cleaning and use of triple state quenchers and redox agents, the distributio… Show more

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Cited by 17 publications
(46 citation statements)
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“…3 ) of the myosin head at the exit of the back door suggests the possibility of additional electrostatic Pi-binding. This is in accordance with what we hypothesized above based on recent evidence 35 suggesting nonspecific binding of fluorescent ATP to the myosin motor domain. The latter type of Pi-binding should, if existing, be readily accessible to experimental verification in contrast to binding to the secondary site considered above.…”
Section: Resultssupporting
confidence: 93%
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“…3 ) of the myosin head at the exit of the back door suggests the possibility of additional electrostatic Pi-binding. This is in accordance with what we hypothesized above based on recent evidence 35 suggesting nonspecific binding of fluorescent ATP to the myosin motor domain. The latter type of Pi-binding should, if existing, be readily accessible to experimental verification in contrast to binding to the secondary site considered above.…”
Section: Resultssupporting
confidence: 93%
“…Another possibility is additional Pi-binding sites outside the Pi-release tunnel, on the surface of the myosin motor domain. This idea is consistent with recent observations 35 suggesting nonspecific binding of fluorescent ATP to myosin motor domains, effects that may partly be mediated via the phosphate groups of ATP. However, to the best of our knowledge, such Pi-binding sites have not been explicitly demonstrated, and, if they exist, their contribution to a delayed Pi-appearance in solution is unclear.…”
Section: Introductionsupporting
confidence: 93%
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“…Additionally, optical tweezers and cantilever-based force measurements can be used to directly measure the forces developed by single myosin motors or small motor ensembles when they interact with an actin filament or a thin filament (actin + regulatory proteins) [99,112]. Moreover, myosin and actomyosin ATP turnover kinetics can be probed by single-molecule ATPase assays [113,114], using total internal reflection fluorescence (TIRF) microscopy and fluorescent ATP. Proteins, both with and without mutations, can be isolated from hearts of patients with HCM and donor hearts, respectively.…”
Section: Isolated Proteinsmentioning
confidence: 99%
“…The idea of increased cross-bridge detachment rate with several HCM mutations is also consistent with increased rate of relaxation found in myofibrils affected by different HCM mutations after isometric contractions at full calcium-activation (see References [81,130,195]; reviewed in References [21,48]). Interestingly, this effect would also increase the ATP turnover rate during isometric contraction and other contractions at high tension levels where the ATP turnover rate is limited by the cross-bridge detachment rate [21,114]. These tension levels are those where the heart operates during a large fraction of its working cycle.…”
Section: Studies On Cells and Myofibrils Isolated From Adult Human Mu...mentioning
confidence: 99%