Dr. Edwin Antony

Dr. Edwin Antony
Dr. Edwin AntonyMarquette University

MilwaukeeWI53201United States of America
(414) 288-1474Lab Website

Assistant Professor

Enzyme Biochemistry, DNA repair, and Small Molecule Drug Discovery



Ph.D. Wesleyan University
Post-doctoral Fellow, Johns Hopkins University
Post-doctoral Fellow, Washington University School of Medicine

Research Interests

Our research broadly aims at understanding the mechanism of action of enzymes.  We use a combination of pre-steady state kinetics, single molecule methods, structural and biophysical approaches to build quantitative models of enzyme activity to understand how they function in the cell.  Currently, we are focused on enzymes that function in two distinct biological phenomena: DNA Repair & Recombination and Electron Transfer.

DNA Repair & Recombination
Genomic stability is maintained by the concerted action of multiple DNA repair pathways in the cells. Mutations that lead to defective DNA repair are hallmarks of cancers and their underlying pathologies. Dozens of enzymes orchestrate specific DNA repair and recombination processes and we are exploring how these enzymes recognize damages in the DNA and coordinate with the cell cycle and replication machinery to correct these damages.Accessing DNA bound by Replication Protein A (RPA)

Oxidoreductases and Electron Transfer
We are exploring how two oxidoreductases, Nitrogenase and DPOR, use ATP to drive substrate reduction.  Nitrogenase catalyzes the reduction of dinitrogen to ammonia and uses 16 ATP molecules per substrate reduced. The dark operative protochlorophyllide oxidoreductase (DPOR) complex similarly reduces Pchlide to Chlide and substrate reduction is coupled to ATP hydrolysis. Both these multi-protein assemblies orchestrate step-wise molecular events to enact substrate reduction. These steps are associated with large conformational changes in the protein complex. Our long-term goal is to understand how ATP is utilized to orchestrate substrate reduction.

ATP-coupled Electron Transfer in Oxidoreductases

Non-canonical Amino Acids and Fluorescent Proteins
Multiple proteins often work together to complete a biological process. For example, during DNA repair, more than a dozen enzymes work on a single DNA template. Experimental tools to follow a single enzyme in this multi-protein milieu are required to elucidate their mechanism of action.  We are utilizing non-canonical amino acids (ncAA) to generate fluorescent versions of our proteins of interest such that they produce a change in fluorescence upon binding to DNA. Exploiting this approach, we are currently investigating the assembly of enzymes during Homologous Recombination, Nucleotide Excision Repair and Base Excision Repair.

Non-Canonical Amino Acids and Fluorescent Proteins


Current Students

Elliot Corless (Ph.D. student)
Nilisha Pokhrel (Ph.D. student)
Sahiti Kuppa (Ph.D. student)

Dr. Antony is currently accepting new Ph.D. students into his lab


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Department of Biological Sciences

Wehr Life Sciences, 109
1428 W. Clybourn St.
Milwaukee, WI 53233

(414) 288-7355

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