SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2003128923> ?p ?o ?g. }

Showing items 1 to 100 of ±147 with 100 items per page.

W2003128923 endingPage "341" @default.
W2003128923 startingPage "329" @default.
W2003128923 abstract "Protein association events are ubiquitous in biological systems. Some protein associations and subsequent responses are diffusion controlledin vivo.Hence, it is important to be able to compute bimolecular diffusional association rates for proteins. The Brownian dynamics simulation methodology may be used to simulate protein–protein encounter, compute association rates, and examine their dependence on protein mutation and the nature of the physical environment (e.g., as a function of ionic strength or viscosity). Here, the theory for Brownian dynamics simulations is described, and important methodological aspects, particularly pertaining to the correct modeling of electrostatic forces and definition of encounter complex formation, are highlighted. To illustrate application of the method, simulations of the diffusional encounter of the extracellular ribonuclease, barnase, and its intracellular inhibitor, barstar, are described. This shows how experimental rates for a series of mutants and the dependence of rates on ionic strength can be reproduced well by Brownian dynamics simulations. Potential future uses of the Brownian dynamics method for investigating protein–protein association are discussed." @default.
W2003128923 created "2016-06-24" @default.
W2003128923 creator A5005498993 @default.
W2003128923 creator A5084206111 @default.
W2003128923 date "1998-03-01" @default.
W2003128923 modified "2023-10-16" @default.
W2003128923 title "Brownian Dynamics Simulation of Protein–Protein Diffusional Encounter" @default.
W2003128923 cites W1003942490 @default.
W2003128923 cites W1491857220 @default.
W2003128923 cites W1965747695 @default.
W2003128923 cites W1965825504 @default.
W2003128923 cites W1969861845 @default.
W2003128923 cites W1978591172 @default.
W2003128923 cites W1989732138 @default.
W2003128923 cites W1989925383 @default.
W2003128923 cites W1994900046 @default.
W2003128923 cites W1995260626 @default.
W2003128923 cites W1998208404 @default.
W2003128923 cites W2001398410 @default.
W2003128923 cites W2008605008 @default.
W2003128923 cites W2008856178 @default.
W2003128923 cites W2012469784 @default.
W2003128923 cites W2015039690 @default.
W2003128923 cites W2017473653 @default.
W2003128923 cites W2025339753 @default.
W2003128923 cites W2030765885 @default.
W2003128923 cites W2032937791 @default.
W2003128923 cites W2034426095 @default.
W2003128923 cites W2034665579 @default.
W2003128923 cites W2037466639 @default.
W2003128923 cites W2038450717 @default.
W2003128923 cites W2041189078 @default.
W2003128923 cites W2046385243 @default.
W2003128923 cites W2047167799 @default.
W2003128923 cites W2048365703 @default.
W2003128923 cites W2050512165 @default.
W2003128923 cites W2051555156 @default.
W2003128923 cites W2052664100 @default.
W2003128923 cites W2054190549 @default.
W2003128923 cites W2055724834 @default.
W2003128923 cites W2060059149 @default.
W2003128923 cites W2060630730 @default.
W2003128923 cites W2064025207 @default.
W2003128923 cites W2068484215 @default.
W2003128923 cites W2072679497 @default.
W2003128923 cites W2072775413 @default.
W2003128923 cites W2076453185 @default.
W2003128923 cites W2079449448 @default.
W2003128923 cites W2083822745 @default.
W2003128923 cites W2085934556 @default.
W2003128923 cites W2085954939 @default.
W2003128923 cites W2108487867 @default.
W2003128923 cites W2115150990 @default.
W2003128923 cites W2140489469 @default.
W2003128923 cites W2156160283 @default.
W2003128923 cites W2162166182 @default.
W2003128923 cites W2175900701 @default.
W2003128923 cites W2177655263 @default.
W2003128923 cites W2308826063 @default.
W2003128923 cites W2315200889 @default.
W2003128923 doi "https://doi.org/10.1006/meth.1998.0588" @default.
W2003128923 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/9571088" @default.
W2003128923 hasPublicationYear "1998" @default.
W2003128923 type Work @default.
W2003128923 sameAs 2003128923 @default.
W2003128923 citedByCount "164" @default.
W2003128923 countsByYear W20031289232012 @default.
W2003128923 countsByYear W20031289232013 @default.
W2003128923 countsByYear W20031289232014 @default.
W2003128923 countsByYear W20031289232015 @default.
W2003128923 countsByYear W20031289232016 @default.
W2003128923 countsByYear W20031289232017 @default.
W2003128923 countsByYear W20031289232018 @default.
W2003128923 countsByYear W20031289232019 @default.
W2003128923 countsByYear W20031289232020 @default.
W2003128923 countsByYear W20031289232021 @default.
W2003128923 countsByYear W20031289232022 @default.
W2003128923 countsByYear W20031289232023 @default.
W2003128923 crossrefType "journal-article" @default.
W2003128923 hasAuthorship W2003128923A5005498993 @default.
W2003128923 hasAuthorship W2003128923A5084206111 @default.
W2003128923 hasConcept C104317684 @default.
W2003128923 hasConcept C112401455 @default.
W2003128923 hasConcept C121332964 @default.
W2003128923 hasConcept C121864883 @default.
W2003128923 hasConcept C12554922 @default.
W2003128923 hasConcept C127172972 @default.
W2003128923 hasConcept C130603088 @default.
W2003128923 hasConcept C145912823 @default.
W2003128923 hasConcept C147597530 @default.
W2003128923 hasConcept C159467904 @default.
W2003128923 hasConcept C185592680 @default.
W2003128923 hasConcept C24890656 @default.
W2003128923 hasConcept C2775981520 @default.
W2003128923 hasConcept C2776559745 @default.
W2003128923 hasConcept C2778976237 @default.
W2003128923 hasConcept C55493867 @default.
W2003128923 hasConcept C59593255 @default.