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John P. Richard is a chemist and academic. He is a SUNY Distinguished Professor at the University at Buffalo. [1]Richard has studied problems related to the mechanisms for organic reactions and their catalysis by enzymes, and has worked to test different theories to explain how enzymes achieve their rate accelerations. [2]
Kam-Fai Wong or William Wong Kam-fai, MH (Chinese: 黃錦輝; born 1960) is a Chinese computer scientist who a professor of engineering at the Chinese University of Hong Kong, a fellow at the Association of Computation Linguistics, and politician.
William Wallace Cleland (January 6, 1930 – March 6, 2013 [1], often cited as W. W. Cleland, and known almost universally as "Mo Cleland", was a University of Wisconsin-Madison biochemistry professor. His research was concerned with enzyme reaction mechanism and enzyme kinetics, [2] especially multiple-substrate
William Platt Jencks (August 15, 1927 – January 3, 2007) was an American biochemist. He was noted particularly for his work on enzymes , using concepts drawn from organic chemistry to understand their mechanisms.
Such remodeling is principally carried out by 1) covalent histone modifications by specific enzymes, e.g., histone acetyltransferases (HATs), deacetylases, methyltransferases, and kinases, and 2) ATP-dependent chromatin remodeling complexes which either move, eject or restructure nucleosomes. [1]
'63 William R. Sexson [59] (Air Force Academy)—clinical dean and professor of pediatrics at Emory [60] '69 Dale T. Umetsu [61] (Columbia)—endowed professor of pediatrics at Harvard [62] '71 Jan H. Wong (Stanford)—professor of surgery at UCLA [63] '79 Theodore R. Cummins [64] (Swarthmore)—professor of pharmacology and toxicology at Indiana
Chi-Huey Wong (Chinese: 翁啟惠; born 3 August 1948) is a Taiwanese-American biochemist. He is currently the Scripps Family Chair Professor at the Scripps Research Institute . [ 1 ] He is a member of the United States National Academy of Sciences , as awarded the 2014 Wolf Prize in Chemistry and 2015 RSC Robert Robinson Award. [ 2 ]
The exonuclease recruited is dependent on which side of the mismatch MutH incises the strand – 5' or 3'. If the nick made by MutH is on the 5' end of the mismatch, either RecJ or ExoVII (both 5' to 3' exonucleases) is used. If, however, the nick is on the 3' end of the mismatch, ExoI (a 3' to 5' enzyme) is used.
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