Biochemistry, Molecular Biology and Biophysics

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Minneapolis Office:
Dept. Biochemistry, Molecular Biology and Biophysics
6-155 Jackson Hall
321 Church St.
Minneapolis, MN 55455

Phone: 612-625-6100
Fax: 612-625-2163

St. Paul Office:
Dept. Biochemistry, Molecular Biology and Biophysics
140 Gortner
1479 Gortner Ave.
St. Paul, MN 55108

Phone: 612-624-7755
Fax: 612-625-5780

Email: bmbb@umn.edu

Graduate School Application:
For questions,
please contact:
Darlene Toedter
612-625-5179
djt@umn.edu
or
Sue Knoblauch
612-624-7470
smk@umn.edu

Email: Webmaster

The department has equally strong interests in the following three areas of research:

Understanding the molecular mechanisms of metabolic diseases and cancer
Developing novel strategies in biocatalysis and biotechnology
Advancing our knowledge through structural biology and molecular biophysics

The BioMedical Genomics Center (BMGC) established to promote tenomics and proteomics research. http://www.bmgc.umn.edu/

Mass Spectrometry and Proteomics (MSP) Initiative provides expanded opportunities for basic, translational and clinical research in the uses of mass spectrometry and proteomics for biomedical research.
http://www.cbs.umn.edu/msp/

The Twin Cities metropolitan area ranks consistently in the "top 10 "best places to live" by Money Magazine and City Rating

Forbes lists Minneapolis as FIRST among "Most affordable places to live well."

Local area information

BioChat - current issue with the latest BMBB news.
The Kylie Walters lab (Xiang Chen, Leah Randles, Naixia Zhang) with collaborators have described a new substrate receptor in the proteasome in two Nature May 22nd manuscripts. This work considerably advances our understanding of how
the main agent of protein destruction catches its targets.
Hiroshi Matsuo, and Reuben Harris have determined the structure of APOBEC3G—a protein that inhibits the AIDS virus, HIV. This discovery is the first to shed light on the atomic structure of the protein. It will help researchers manipulate APOBEC3G to make it effective in combating HIV. The research was released on the Nature advance online publication - February 20, 2008.

The human APOBEC3G protein is a single-stranded DNA (ssDNA) cytosine deaminase that can inhibit retrovirus infections by converting viral DNA cytosines to uracils, effectively mutagenizing viral genomes. This protein is additionally remarkable because it can inhibit the AIDS virus HIV-1. We have determined the three dimensional structure of the deaminase domain of APOBEC3G using NMR spectroscopy. This molecular structure is the first for any member of this important class of vertebrate enzymes. The Figure shows the surface of the APOBEC3G protein, including arginine (R) amino acids that are involved in binding ssDNA.
Anja-Katrin Bielinsky has been awarded an NIH grant of $215,982 for a project entitled "Understanding the biological function of Mcm10 in yeast." and a 5-year Research Scholar Award from the Leukemia and Lymphoma Society totaling $550,000.

An Undergraduate Biochemistry Club has been establlished at the University of Minnesota to improve the educational experience, provide career advancement tools and specialized leadership training opportunities for majors.

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