SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2083336369> ?p ?o ?g. }

Showing items 1 to 100 of ±143 with 100 items per page.

W2083336369 endingPage "2533" @default.
W2083336369 startingPage "2524" @default.
W2083336369 abstract "The mechanism for the deamination reaction of 5-methylcytosine with H2O in protic medium was investigated using DFT calculations at the B3LYP/6-311G(d,p) level of theory. Two pathways were found. Pathway 5mA is a two-step mechanism where the N3-protonated 5-MeCyt undergoes a nucleophilic attack to carbon C4 by a water dimer before the elimination of an ammonium cation. Pathway 5mB is a three-step mechanism where neutral 5-MeCyt is directly attacked by a water dimer. The resulting intermediate is then protonated to allow the elimination of an ammonium cation. Both pathways lead to the formation of thymine in interaction with an ammonium cation and a water molecule. Pathway 5mA can explain the spontaneous deamination of 5-MeCyt in protic medium at acidic pH, whereas pathway 5mB is more representative of the deamination in protic medium at neutral pH. The nucleophilic addition of the water dimer is rate-determining in both pathways and is associated with an activation free energy in aqueous solution of 137.4 kJ/mol for pathway 5mA and 134.1 kJ/mol for pathway 5mB. This latter value is in agreement with the experimental observation that 5-MeCyt deaminates four- to fivefold faster than Cyt at neutral pH. Both electrostatic and electron-transfer contributions appear to have significant importance. In vacuum, the former one dominates when the substrate is positively charged and the latter one when it is neutral." @default.
W2083336369 created "2016-06-24" @default.
W2083336369 creator A5001315059 @default.
W2083336369 creator A5032960415 @default.
W2083336369 creator A5034022740 @default.
W2083336369 creator A5057545845 @default.
W2083336369 creator A5063314670 @default.
W2083336369 date "2009-02-16" @default.
W2083336369 modified "2023-10-18" @default.
W2083336369 title "Hydrolytic Deamination of 5-Methylcytosine in Protic Medium—A Theoretical Study" @default.
W2083336369 cites W1841252158 @default.
W2083336369 cites W1968511284 @default.
W2083336369 cites W1971275758 @default.
W2083336369 cites W1971400148 @default.
W2083336369 cites W1975708211 @default.
W2083336369 cites W1977295445 @default.
W2083336369 cites W1978608443 @default.
W2083336369 cites W1982301481 @default.
W2083336369 cites W1983525029 @default.
W2083336369 cites W1987081708 @default.
W2083336369 cites W1988204678 @default.
W2083336369 cites W1989007469 @default.
W2083336369 cites W1992294575 @default.
W2083336369 cites W1995042715 @default.
W2083336369 cites W1995070176 @default.
W2083336369 cites W1995794402 @default.
W2083336369 cites W1997827286 @default.
W2083336369 cites W2001728345 @default.
W2083336369 cites W2008708918 @default.
W2083336369 cites W2009458392 @default.
W2083336369 cites W2016279068 @default.
W2083336369 cites W2020278186 @default.
W2083336369 cites W2020307158 @default.
W2083336369 cites W2023271753 @default.
W2083336369 cites W2023407191 @default.
W2083336369 cites W2030702360 @default.
W2083336369 cites W2030768062 @default.
W2083336369 cites W2031249741 @default.
W2083336369 cites W2031946640 @default.
W2083336369 cites W2036503595 @default.
W2083336369 cites W2038083805 @default.
W2083336369 cites W2039603220 @default.
W2083336369 cites W2042090583 @default.
W2083336369 cites W2044202126 @default.
W2083336369 cites W2045555620 @default.
W2083336369 cites W2045749216 @default.
W2083336369 cites W2049996223 @default.
W2083336369 cites W2060861092 @default.
W2083336369 cites W2063815699 @default.
W2083336369 cites W2068222694 @default.
W2083336369 cites W2069610895 @default.
W2083336369 cites W2072767862 @default.
W2083336369 cites W2073365346 @default.
W2083336369 cites W2074816125 @default.
W2083336369 cites W2086632920 @default.
W2083336369 cites W2087041897 @default.
W2083336369 cites W2090201014 @default.
W2083336369 cites W2091106301 @default.
W2083336369 cites W2091692227 @default.
W2083336369 cites W2093713534 @default.
W2083336369 cites W2094600585 @default.
W2083336369 cites W2101958915 @default.
W2083336369 cites W2106589640 @default.
W2083336369 cites W2123969193 @default.
W2083336369 cites W2128332443 @default.
W2083336369 cites W2129335113 @default.
W2083336369 cites W2139620481 @default.
W2083336369 cites W2143981217 @default.
W2083336369 cites W2151334055 @default.
W2083336369 cites W2159401082 @default.
W2083336369 cites W2329717581 @default.
W2083336369 cites W41774990 @default.
W2083336369 cites W4211217388 @default.
W2083336369 cites W4231649355 @default.
W2083336369 cites W4243760158 @default.
W2083336369 cites W4244975739 @default.
W2083336369 doi "https://doi.org/10.1021/jp808902j" @default.
W2083336369 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/19220027" @default.
W2083336369 hasPublicationYear "2009" @default.
W2083336369 type Work @default.
W2083336369 sameAs 2083336369 @default.
W2083336369 citedByCount "44" @default.
W2083336369 countsByYear W20833363692012 @default.
W2083336369 countsByYear W20833363692013 @default.
W2083336369 countsByYear W20833363692014 @default.
W2083336369 countsByYear W20833363692015 @default.
W2083336369 countsByYear W20833363692018 @default.
W2083336369 countsByYear W20833363692019 @default.
W2083336369 countsByYear W20833363692020 @default.
W2083336369 countsByYear W20833363692021 @default.
W2083336369 countsByYear W20833363692022 @default.
W2083336369 crossrefType "journal-article" @default.
W2083336369 hasAuthorship W2083336369A5001315059 @default.
W2083336369 hasAuthorship W2083336369A5032960415 @default.
W2083336369 hasAuthorship W2083336369A5034022740 @default.
W2083336369 hasAuthorship W2083336369A5057545845 @default.
W2083336369 hasAuthorship W2083336369A5063314670 @default.
W2083336369 hasConcept C145148216 @default.