SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1990388889> ?p ?o ?g. }

Showing items 1 to 100 of ±163 with 100 items per page.

W1990388889 endingPage "2475" @default.
W1990388889 startingPage "2475" @default.
W1990388889 abstract "Proton transfer reactions are the rate-limiting steps in many biological and synthetic chemical processes, often requiring complex cofactors or catalysts to overcome the generally unfavourable thermodynamic process of carbanion intermediate formation. It has been suggested that quantum tunnelling processes enhance the kinetics of some of these reactions, which when coupled to protein motions may be an important consideration for enzyme catalysis. To obtain a better fundamental and quantitative understanding of these proton transfer mechanisms, a computational analysis of the intramolecular proton transfer from a carbon acid in the small molecule, 4-nitropentanoic acid, in aqueous solution is presented. Potential-energy surfaces from gas-phase, implicit and QM/MM (quantum mechanical/molecular mechanical) explicit solvation quantum chemistry models are compared, and the potential of mean force, for the full reaction coordinate, using umbrella-sampling molecular dynamics is analysed. Semi-classical multidimensional tunnelling corrections are also used to estimate the quantum tunnelling contributions and to understand the origin of the primary deuterium kinetic isotope effects (KIEs). The computational results are found to be in excellent agreement with the KIEs and the energetics obtained experimentally." @default.
W1990388889 created "2016-06-24" @default.
W1990388889 creator A5001384947 @default.
W1990388889 creator A5017793283 @default.
W1990388889 creator A5026913459 @default.
W1990388889 creator A5032988692 @default.
W1990388889 creator A5063182512 @default.
W1990388889 date "2008-01-01" @default.
W1990388889 modified "2023-10-11" @default.
W1990388889 title "A computational study of the intramolecular deprotonation of a carbon acid in aqueous solution" @default.
W1990388889 cites W1487675418 @default.
W1990388889 cites W1564196320 @default.
W1990388889 cites W1843636722 @default.
W1990388889 cites W1964032470 @default.
W1990388889 cites W1969549275 @default.
W1990388889 cites W1970638471 @default.
W1990388889 cites W1971028212 @default.
W1990388889 cites W1971197405 @default.
W1990388889 cites W1971363424 @default.
W1990388889 cites W1971428182 @default.
W1990388889 cites W1979850841 @default.
W1990388889 cites W1984188031 @default.
W1990388889 cites W1984191682 @default.
W1990388889 cites W1984792250 @default.
W1990388889 cites W1986665924 @default.
W1990388889 cites W1988395459 @default.
W1990388889 cites W1991026688 @default.
W1990388889 cites W1998184236 @default.
W1990388889 cites W2004027787 @default.
W1990388889 cites W2006976245 @default.
W1990388889 cites W2008426408 @default.
W1990388889 cites W2014562537 @default.
W1990388889 cites W2018425793 @default.
W1990388889 cites W2020902662 @default.
W1990388889 cites W2021847541 @default.
W1990388889 cites W2022844877 @default.
W1990388889 cites W2024757590 @default.
W1990388889 cites W2025396755 @default.
W1990388889 cites W2030971064 @default.
W1990388889 cites W2031109994 @default.
W1990388889 cites W2036339114 @default.
W1990388889 cites W2038175037 @default.
W1990388889 cites W2041945255 @default.
W1990388889 cites W2047280630 @default.
W1990388889 cites W2051199537 @default.
W1990388889 cites W2051664798 @default.
W1990388889 cites W2052846388 @default.
W1990388889 cites W2054401281 @default.
W1990388889 cites W2055389385 @default.
W1990388889 cites W2071046646 @default.
W1990388889 cites W2073623394 @default.
W1990388889 cites W2082010871 @default.
W1990388889 cites W2082917109 @default.
W1990388889 cites W2085064903 @default.
W1990388889 cites W2091664813 @default.
W1990388889 cites W2093044256 @default.
W1990388889 cites W2095474273 @default.
W1990388889 cites W2102537419 @default.
W1990388889 cites W2107416467 @default.
W1990388889 cites W2112154906 @default.
W1990388889 cites W2118625546 @default.
W1990388889 cites W2121260810 @default.
W1990388889 cites W2121890116 @default.
W1990388889 cites W2122199548 @default.
W1990388889 cites W2127400370 @default.
W1990388889 cites W2134149462 @default.
W1990388889 cites W2134397116 @default.
W1990388889 cites W2136417605 @default.
W1990388889 cites W2136913776 @default.
W1990388889 cites W2141838908 @default.
W1990388889 cites W2142116295 @default.
W1990388889 cites W2148284063 @default.
W1990388889 cites W2155604981 @default.
W1990388889 cites W2158116985 @default.
W1990388889 cites W2163691382 @default.
W1990388889 cites W2169655552 @default.
W1990388889 cites W2169673358 @default.
W1990388889 cites W2171893485 @default.
W1990388889 cites W2171950370 @default.
W1990388889 cites W2319091782 @default.
W1990388889 cites W2321455730 @default.
W1990388889 cites W2321582150 @default.
W1990388889 cites W2951212085 @default.
W1990388889 cites W2953003901 @default.
W1990388889 cites W3005043311 @default.
W1990388889 doi "https://doi.org/10.1039/b717524h" @default.
W1990388889 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/18446247" @default.
W1990388889 hasPublicationYear "2008" @default.
W1990388889 type Work @default.
W1990388889 sameAs 1990388889 @default.
W1990388889 citedByCount "7" @default.
W1990388889 countsByYear W19903888892012 @default.
W1990388889 countsByYear W19903888892013 @default.
W1990388889 countsByYear W19903888892014 @default.
W1990388889 countsByYear W19903888892019 @default.
W1990388889 crossrefType "journal-article" @default.
W1990388889 hasAuthorship W1990388889A5001384947 @default.
W1990388889 hasAuthorship W1990388889A5017793283 @default.