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Difference between revisions of "User:David Wilson"

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David B. Wilson obtained his BA in Biochemical Sciences at Harvard University in 1961 and his PhD at Stanford Medical School in the Department of Biochemistry with Dr David Hogness in 1996, He was a Postdoctoral Fellow at Johns Hopkins Medical School working with Dr Howard Dintzis from 1966 to 19967. He joined the Cornell University Section of Biochemistry as an Assistant Professor in 1967, became an Associate professor in 1973 and a full professor in 1984. He started studying the cellulases produced by the bacterium, Thermobifidia fusca in 1980. He purified and characterized six T. fusca cellulases: Cel5A an endocellulase, Cel6A an endocellulase, Cel6B an exocellulase, Cel9A a novel processive endocellulase, Cel 9B an unusual endocellulase and Cel48A an exocellulase. He collaborated with the DOE JOint Genome institute which determined the sequence of the T. fusca genome.
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David B. Wilson obtained his BA in Biochemical Sciences at Harvard University in 1961 and his PhD at Stanford Medical School in the Department of Biochemistry with Dr David Hogness in 1996, He was a Postdoctoral Fellow at Johns Hopkins Medical School working with Dr Howard Dintzis from 1966 to 19967. He joined the Cornell University Section of Biochemistry as an Assistant Professor in 1967, became an Associate professor in 1973 and a full professor in 1984. He started studying the cellulases produced by the bacterium, Thermobifidia fusca in 1980. He purified and characterized six T. fusca cellulases: Cel5A an endocellulase, Cel6A an endocellulase, Cel6B an exocellulase, Cel9A a novel processive endocellulase, Cel 9B an unusual endocellulase and Cel48A an exocellulase. He collaborated with the DOE JOint Genome institute which determined the sequence of the T. fusca genome. In 19993 he and Ed Bayer organized the first Cellualses and Cellulosomes Gordon Conference which continues every other year.
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References:
 
Vuong TV, Wilson DB. Processivity, synergism, and substrate specificity of Thermobifida fusca Cel6B. Appl Environ Microbiol. 2009;75:6655-61.
 
Vuong TV, Wilson DB. Processivity, synergism, and substrate specificity of Thermobifida fusca Cel6B. Appl Environ Microbiol. 2009;75:6655-61.
  
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Wilson, D.B.  Studies of Thermobifida fusca plant cell wall degrading enzymes.  Chem. Rec. 2004:4, 72-82 .
 
Wilson, D.B.  Studies of Thermobifida fusca plant cell wall degrading enzymes.  Chem. Rec. 2004:4, 72-82 .
  
Sakon, J., Irwin, D., Wilson, D.B. and Karplus, P.A.  Structure and mechanism of endo/exocellulase E4 from Thermomonospora fusca.  Nature Structural Biology 1997:4, 810-818 .
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Irwin, D., Shin, D.-H., Zhang, S., Barr, B.K., Sakon, J., Karplus, P.A. and Wilson, D.B.  Roles of the catalytic domain and two cellulose binding domains of Thermomonospora fusca E4 in cellulose hydrolysis.  J. Bacteriol. 180, 1709-1714 (1998).
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Sakon, J., Irwin, D., Wilson, D.B. and Karplus, P.A.  Structure and mechanism of endo/exocellulase E4 from Thermomonospora fusca.  Nature Structural Biology 1997:4, 810-818.
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Barr, B.K., Hsieh, Y.-L., Ganem, B. and Wilson, D.B.  Identification of two functionally different classes of exocellulases.  Biochemistry 35, 586-592 (1996).

Revision as of 12:16, 19 February 2010

David B. Wilson obtained his BA in Biochemical Sciences at Harvard University in 1961 and his PhD at Stanford Medical School in the Department of Biochemistry with Dr David Hogness in 1996, He was a Postdoctoral Fellow at Johns Hopkins Medical School working with Dr Howard Dintzis from 1966 to 19967. He joined the Cornell University Section of Biochemistry as an Assistant Professor in 1967, became an Associate professor in 1973 and a full professor in 1984. He started studying the cellulases produced by the bacterium, Thermobifidia fusca in 1980. He purified and characterized six T. fusca cellulases: Cel5A an endocellulase, Cel6A an endocellulase, Cel6B an exocellulase, Cel9A a novel processive endocellulase, Cel 9B an unusual endocellulase and Cel48A an exocellulase. He collaborated with the DOE JOint Genome institute which determined the sequence of the T. fusca genome. In 19993 he and Ed Bayer organized the first Cellualses and Cellulosomes Gordon Conference which continues every other year.

References: Vuong TV, Wilson DB. Processivity, synergism, and substrate specificity of Thermobifida fusca Cel6B. Appl Environ Microbiol. 2009;75:6655-61.

Wilson DB. Cellulases and biofuels. Curr Opin Biotechnol. 2009 20:295-9.

Lykidis A, Mavromatis K, Ivanova N, Anderson I, Land M, DiBartolo G, Martinez M, Lapidus A, Lucas S, Copeland A, Richardson P, Wilson DB, Kyrpides N. Genome sequence and analysis of the soil cellulolytic actinomycete Thermobifida fusca YX. J Bacteriol. 2007;189:2477-86.

Wilson, D.B. Studies of Thermobifida fusca plant cell wall degrading enzymes. Chem. Rec. 2004:4, 72-82 .

Irwin, D., Shin, D.-H., Zhang, S., Barr, B.K., Sakon, J., Karplus, P.A. and Wilson, D.B. Roles of the catalytic domain and two cellulose binding domains of Thermomonospora fusca E4 in cellulose hydrolysis. J. Bacteriol. 180, 1709-1714 (1998). Sakon, J., Irwin, D., Wilson, D.B. and Karplus, P.A. Structure and mechanism of endo/exocellulase E4 from Thermomonospora fusca. Nature Structural Biology 1997:4, 810-818.

Barr, B.K., Hsieh, Y.-L., Ganem, B. and Wilson, D.B. Identification of two functionally different classes of exocellulases. Biochemistry 35, 586-592 (1996).