Silverman, Richard

Silverman, Richard A. Essential Calculus With Applications. C New York Dover, 1989. [Pg.128]

Silverman, Richard B. The Organic Chemistry of Enzyme-Catalyzed Reactions. San Diego, Calif. Academic Press, 2000. [Pg.306]

Warren Beck J, Richards DA, Edwards RE, Silverman BW, Smart PL, Donahue DJ, Hererra-Osterheld S, Burr GS, Calsoyas L, lull AJT, Biddulph D (2001) Science 292 2453 Jenkines RC (2009) The Dow Chemical Company, US Patent Application 20090197035,... [Pg.359]

Richard B. Silverman, Structure-Based and Mechanism-Based Enzyme Inhibitor Drug Design and Drug Action, in Bioorg. Med. Chem., 4 (9), Pergamon, Oxford, UK, 1996. [Pg.350]

Fries, L.F., Gordon, D.M., Richards, R.L., Egan, J.E., Hollingdale, M.R., Gross, M., Silverman, C., Alving, C.R. Liposomal malaria vaccine in humans a safe and potent adjuvant strategy. Proc Natl Acad Sci USA 89 (1992a) 358-362. [Pg.318]

INTRODUCTORY REAL ANALYSIS. A.N. Kolmogorov, S.V. Fomin. Translated by Richard A. Silverman. Self-contained, evenly paced introduction to real and functional analysis. Some 350 problems. 403pp. 5X x 8)4. 61226-0 Pa. 7.95... [Pg.117]

FOURIER SERIES, Georgi P. Tolstov. Translated by Richard A. Silverman. A valuable addition to the literature on the subject, moving clearly from subject to subject and theorem to theorem. 107 problems, answers. 336pp. 5b 8b. [Pg.119]

SPECIAL FUNCTIONS, N.N. Lebedev. Translated by Richard Silverman. Famous Russian work treating more important special (unctions, with applications to specific problems of physics and engineering. 38 figures. 308pp. 5H 8k. [Pg.123]

PROBABILITY THEORY A Concise Course, Y.A. Rozanov. Highly readable, self-contained introduction covers combination of events, dependent events, Bernoulli trials, etc. Translation by Richard Silverman. 148pp. 5X x 8X. [Pg.126]

When absorbed into the systemic circulation, ammonia is primarily excreted by the kidney as urea and urinary ammonium compounds (Gay et al. 1969 Pitts 1971). Absorbed ammonia also can be excreted as urea in feces (Richards et al. 1975) and as a perspiration constituent (Guyton 1981 Wands 1981). In a study of male subjects exposed to ammonia at concentrations up to 500 ppm for 30 min, Silverman et al. (1949) found that 70-80% of inhaled ammonia was excreted in expired air. Ammonia in expired air returned to normal concentrations within 3 to 8 min after exposure was stopped. The investigators calculated that if all the retained ammonia were absorbed into the blood, there would be no significant change in blood or urine urea, ammonia, or nonprotein nitrogen. [Pg.48]

Richard B. Silverman, Northwestern university, Evanston, Illinois doi 10.1002/9780470048672.wecb157... [Pg.436]

Hedstrom, he completed his Ph.D. degree at Northwestern University, Evanston, IL, in 1998 with Professor Richard B. Silverman. At Northwestern, he studied mechanism-hased inactivators of NO synthase. He then worked as a postdoctoral fellow with Professor Stephen J. Benkovic at Penn State University, University Park, PA, where he studied the kinetics and mechanism of a dinuclear zinc beta-lactamase involved in the evolution of antibiotic resistance. He was appointed as an assistant professor in the Division of Medicinal Chemistry, College of Pharmacy at the University of Texas at Austin in 2002 and was promoted with tenure to associate professor in 2008. His research interests include mechanism and inhibition of enzymes in the pentein superfamily as well as enzymatic methods of disrupting interbacterial communication pathways. [Pg.159]

The best definition of the third type of irreversible enzyme inhibitor, mechanism-based inactivators, is provided by Dr Richard Silverman, a leading authority on the subject. A mechanism-based inactivator (sometimes, much to my dismay, called a suicide substrate), he writes, is an unreactive compound that has a structural similarity to a substrate or product for an enzyme. Once at the active site of the enzyme, it is converted into a species that generally forms a covalent bond to the enzyme, producing inactivation. Although both quiescent affinity labels and mechanism-based inactivators can be mistaken for... [Pg.285]

For starters, see Chapter 2 of Silverman, ibid.. Chapter 8 of Copeland, Note 3, and Richard B. Silverman s Mechanism-Based Enzyme Inactivation Chemistry and Enzymology (Boca Raton, FL, CRC Press, 1988). [Pg.309]

CONTENTS Preface, Patrick. Mariano. Hole and Electron Transfer Catalyzed Pericyclic Reactions. Nathan L. Baufd. Mechanisms and Catalysis In Electron Transfer Chemistry of Redox Coenzyme Analogues, Shunichi Fukuaumi. Electron T ransfer Chemistry of Monoamine Oxidase. Richard B. Silverman. Photol-yase. DNA Repair by Photoinduced Electron Transfer, Aziz San-car. Index. R T7... [Pg.203]

A major change in comparison to the previous editions was the decision to alleviate my editorial burden in sharing it with seven section editors, each being responsible for one of the eight sections of the book. 1 highly appreciated their positive and efficacious collaboration and express them my warmest thanks (in the alphabetical order) to Michael Bowker, Hugo Kubinyi, John Proudfood, Bryan Reuben, Richard Silverman, David Triggle and Han van de Waterbeemd. [Pg.982]

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