2022
DOI: 10.1039/d1cp03733a
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Unravelling the mechanism of glucose binding in a protein-based fluorescence probe: molecular dynamics simulation with a tailor-made charge model

Abstract: Fluorophores linked to the glucose/galactose-binding protein (GGBP) are a promising class of glucose sensors with potential application in medical devices for diabetes patients. Several different fluorophores at different positions in...

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Cited by 2 publications
(2 citation statements)
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“…Well-tempered metadynamics has been widely used to explore the pathways for the binding or unbinding of ligands to receptors ( Dodda et al, 2019 ; Ghosh et al, 2019 ; Brandt et al, 2021 ; Pang et al, 2022 ). Well-tempered metadynamics was used to calculate the two-dimensional free energy landscapes for the binding of the tweezer to all surface lysine residues ( Supplementary Figure S6 ).…”
Section: Resultsmentioning
confidence: 99%
“…Well-tempered metadynamics has been widely used to explore the pathways for the binding or unbinding of ligands to receptors ( Dodda et al, 2019 ; Ghosh et al, 2019 ; Brandt et al, 2021 ; Pang et al, 2022 ). Well-tempered metadynamics was used to calculate the two-dimensional free energy landscapes for the binding of the tweezer to all surface lysine residues ( Supplementary Figure S6 ).…”
Section: Resultsmentioning
confidence: 99%
“…We note that force fields using fixed point charges, however, may have difficulties in describing strongly hydrogen-bonded complexes and therefore that equilibrating the protein structure using such force fields may lead to conformations that are not suitable for further QM/MM investigations; this problem was described recently for the ChR2 protein (50), as well as for a glucose binding protein (104). Due to the long sampling times that are necessary, the system then requires using either a polarizable force field (104) or a semiempirical QM/MM approach, which has been shown to retain the active site structure well (50). In the latter case, however, a minimum energy structure may not be adequate, and absorption spectra have to be computed by sampling excited states along QM/MM MD trajectories (8).…”
Section: The Challenge Of Excited States In Biomoleculesmentioning
confidence: 99%