Norma Allewell
Professor Emerita
Contact
Email: allewell@umd.edu
Office Phone: (301) 405-1302
Fax: (301) 314-9489
Office Address: 2113 Microbiology
We study the functional mechanisms and role in health and disease of multisubunit proteins involved in nitrogen metabolism. Binding of ligands typically causes changes in tertiary structure and subunit interactions that mediate and regulate their biological activity. We use X-ray crystallography, computer modeling and genetic, physical biochemical and enzymological approaches to understand the relationship between structure and function and to determine how naturally mutations alter function and cause disease. Current research focuses on enzymes of the urea cycle in humans and arginine biosynthesis in micro-organisms and plants. Mutations in these enzymes often cause clinical hyperammonemia resulting in neurological symptoms or even death. In collaboration with Dr. Mendel Tuchman and his colleagues at Children’s National Medical Center in Washington, DC, we have focused on ornithine transcarbamlyase (OTCase) and N-acetyl-L-glutamate synthase (NAGS). We also discovered novel biochemical pathways for arginine biosynthesis in bacteria and characterized the enzymes involved both biochemically and structurally. Current research focuses on the mechanism by which NAGS acts as a master regulator of the urea cycle and the development of new treatments for treating disorders of the urea cycle.
Evolution, mechanisms and applications of intein-mediated protein splicing. Perler F B and Allewell, N. M. J Biol Chem 289, 14488-144889 (2013)
Crystal Structure of the N-acetyltransferase domain of human N-acetyl-L-glutamate synthase in complex with N-acetyl-L-glutamate provides insights into its catalytic and regulatory mechanisms. Zhao, G., Jin, Z., Allewell, N. M., Tuchman, M., Shi D. PLoS ONE 8(7): 370369 (2013)
Structure and function of Escherichia coli RimK, an ATP-grasp fold, L-glutamyl ligase enzyme. Zhao, G., Jin, Z., Wang, Y., Allewell, N. M., Tuchman, M., Shi, D. Proteins 81, 1847-54 (2013)
Structure of the complex of Neisseria gonorrhoeae N-acetyl-L-glutamate synthase with a bound bisubstrate analog. Zhao, G., Allewell., N. M., Tuchman, M., Shi, D. Biochem. Biophys. Res. Commun. 430, 1258-3 (2013)
Structure and function of the complex of Neisseria gonorrhoeae N-acetyl-L-glutamate synthase with a bound bisubstrate analog. Zhao, G., Allewell, N.M., Tuchman, M., Shi, D. Biochem. Biophys. Res.
Comm. (2013) 430, 1253-8.
Molecular Biophysics for the Life Sciences. N. M. Allewell, L. Narhi, I. Rayment, Springer, 2013.
Crystal structure and biochemical properties of putrescine carbamoyltransferase from Enterococcus faecalis: assembly, active site and allosteric regulation. Shi, D., Yu, X., Zhao, G, Ho, J., Lu,
S., Allewell, N.M., Tuchman M. Proteins (2012) 80, 1436-47.
Thematic minireview series on enzyme evolution in the post-genomic era. Allewell N.M. J. Biol. Chem. (2012) 287, 1-2.
A novel N-acetylglutamate synthase architecture revealed by the crystal structure of the bifunctional enzyme from Maricaulis maris. Shi, D., Li, Y., Cabrera-Luque, J., Jin, Z., Yu, X., Zhao, G.,
Haskins, N., Allewell, N.M., Tuchman, M. PLoS (2011), 6(12):E28825.
The ygeW encoded protein from Escherichia coli is a knotted ancestral catabolic transcarbamylase. Li, Y., Jin, Z., Yu, X., Allewell, N.M., Tuchman, M., Shi, D. Proteins (2011) 79, 2327-34.
Mechanism of allosteric inhibition of N-acetyl-L-glutamate synthase by L-arginine. Min, L., Jin, Z., Caldovic, L., Morizono, H., Allewell, N.M., Tuchman, M., Shi, D., J. Biol. Chem. (2009) 284,
4873-80.
Shi, D., Morizono, H., Cabrera-Luque, J., Yu, X., Roth, L., Malamy, M. H., Allewell, N. M.,and Tuchman, M. Structure and Catalytic Mechanism of a Novel N-Succinyl-L-ornithine
Transcarbamylase in Arginine Biosynthesis of Bacteroides fragilis. J. Biol. Chem. 281, 20623-20631 (2006)
Shi, D., Sagar, V., Jin, Z., Yu, X., Caldovic, L., Morizono, H., Allewell, N. M.,and Tuchman, M. The Crystal Structure of N-Acetyl-L-Glutamate Synthase from N. gonorrhoeae Provides Insights
into Mechanisms of Catalysis and Regulation. J. Biol. Chem. 283, 7176-7184 (2008).