8 People Results for the Tag: Holoenzymes

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Susan Hafenstein

Director of the Center for Structural Biology; Huck Chair of Structural Virology; Professor of Biochemistry and Molecular Biology
Using a structural approach to learn more about viral infectivity, tropism, evolution and pathogenicity. Developing approaches to visualize critical events that cause a break from the regular symmetry of the virus, including packaging of the genome, receptor usage, antibody interactions and uncoating of the viral genome during the final stages of infection.

Center for Infectious Disease Dynamics

Mark Hedglin

Assistant Professor of Chemistry; Assistant Professor of Biochemistry and Molecular Biology
Deciphering how efficient and faithful replication of the human genome is achieved within the highly-complex, dynamic, and reactive environment of the nucleus. Identifying pathways for genomic instability in humans, identifying novel oncogenic drug targets, developing better chemotherapeutic treatments for human cancers caused by genomic instability.

Andrey Krasilnikov

Associate Professor of Biochemistry and Molecular Biology
Structural biology of RNA and RNA-protein complexes

Kristin Eckert

Professor of Pathology and Laboratory Medicine and of Biochemistry and Molecular Biology
Mechanisms of human cell mutagenesis and repetitive DNA replication in relation to genome evolution.

Sarah Ades

Associate Professor of Biochemistry & Molecular Biology; Associate Dean of The Graduate School
Signal transduction and antibiotic-induced stress responses in bacteria.

Katsuhiko Murakami

Professor of Biochemistry and Molecular Biology
Structural and Mechanistic Enzymology of Prokaryotic RNA Polymerases

Ganesh Srinivasan Anand

Associate Professor of Chemistry
Dynamics of large biomolecular complexes; uncovering what drives their assembly, regulation and function through mass spectrometry.

Center for Infectious Disease Dynamics

Amie Boal

Associate Professor of Chemistry and of Biochemistry and Molecular Biology
The structural differences between members of large metalloenzyme superfamilies that share common features but promote different reactions or use distinct cofactors.