Biotechnology of Molecular Recognition - Training Grant - George Georgiou

Abstract

Funding Agency

Agency: National Institute of Health (NIH)
Institute: National Institute of General Medical Sciences (NIGMS)
Type: Institutional National Research Service Award (T32)
Project #: 5T32GM008474-02
Application #: 2168268
Study Section: Special Emphasis Panel (SRC)

Project Start: 1994-07-01
Project End: 1999-06-30
Budget Start: 1995-07-01
Budget End: 1996-06-30
Support Year: 2
Fiscal Year: 1995
Total Cost
Indirect Cost

Institution

Name: University of Texas Austin
Department: Engineering (All Types)
Type: Schools of Engineering
DUNS #

City: Austin
State: TX
Country: United States
Zip Code: 78712

Related projects


NIH 2002 T32 GM	Biotechnology of Molecular Recognition - Training Grants Iverson, Brent L. / University of Texas Austin	$195,401
NIH 2001 T32 GM	Biotechnology of Molecular Recognition - Training Grants Iverson, Brent L. / University of Texas Austin	$108,006
NIH 2000 T32 GM	Biotechnology of Molecular Recognition - Training Grants Iverson, Brent L. / University of Texas Austin	$163,078
NIH 1999 T32 GM	Biotechnology of Molecular Recognition - Training Grants Iverson, Brent L. / University of Texas Austin
NIH 1998 T32 GM	Biotechnology of Molecular Recognition - Training Grant Georgiou, George Georgiou / University of Texas Austin
NIH 1997 T32 GM	Biotechnology of Molecular Recognition - Training Grant Georgiou, George Georgiou / University of Texas Austin
NIH 1996 T32 GM	Biotechnology of Molecular Recognition - Training Grant Georgiou, George Georgiou / University of Texas Austin
NIH 1995 T32 GM	Biotechnology of Molecular Recognition - Training Grant Georgiou, George Georgiou / University of Texas Austin
NIH 1994 T32 GM	Biotechnology of Molecular Recognition - Training Grant Georgiou, George Georgiou / University of Texas Austin

Publications

Waas, William F; Rainey, Mark A; Szafranska, Anna E et al. (2004) A kinetic approach towards understanding substrate interactions and the catalytic mechanism of the serine/threonine protein kinase ERK2: identifying a potential regulatory role for divalent magnesium. Biochim Biophys Acta 1697:81-7

Waas, William F; Dalby, Kevin N (2003) Physiological concentrations of divalent magnesium ion activate the serine/threonine specific protein kinase ERK2. Biochemistry 42:2960-70

Waas, William F; Rainey, Mark A; Szafranska, Anna E et al. (2003) Two rate-limiting steps in the kinetic mechanism of the serine/threonine specific protein kinase ERK2: a case of fast phosphorylation followed by fast product release. Biochemistry 42:12273-86

Kawarasaki, Yasuaki; Griswold, Karl E; Stevenson, James D et al. (2003) Enhanced crossover SCRATCHY: construction and high-throughput screening of a combinatorial library containing multiple non-homologous crossovers. Nucleic Acids Res 31:e126

Hungness, Eric S; Pritts, Timothy A; Luo, Guang Ju et al. (2002) IL-1beta activates C/EBP-beta and delta in human enterocytes through a mitogen-activated protein kinase signaling pathway. Int J Biochem Cell Biol 34:382-95

Murr, M M; Harting, M T; Guelev, V et al. (2001) An octakis-intercalating molecule. Bioorg Med Chem 9:1141-8

Daugherty, P S; Olsen, M J; Iverson, B L et al. (1999) Development of an optimized expression system for the screening of antibody libraries displayed on the Escherichia coli surface. Protein Eng 12:613-21

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