The University of Michigan proposes to continue a predoctoral Chemistry-Biology Interface (CBI) Training Program for a selected group of Ph.D. students. The number of students requested for this new training program is 14 for a five-year period of support. The participating units are the Department of Chemistry, College of Literature, Science, and the Arts; the Departments of Biological Chemistry and Pharmacology, Medical School; the Biophysics Research Division (BRD); and the Department of Medicinal Chemistry, College of Pharmacy. The faculty of the CBI Training Program includes synthetic organic and inorganic chemists, bioorganic chemists, bioanalytical chemists, protein chemists, mechanistic enzymologists, spectroscopists, and crystallographers. The Ph.D. degrees will be awarded in Chemistry, Biological Chemistry, Pharmacology, and Medicinal Chemistry. Students will be appointed to the training grant for two ? years beginning in the second year of their Ph.D. program. The curriculum of the Training Program includes a novel student sabbatical to be completed while the trainee is supported by the training grant. Core courses in Chemical Biology and regularly scheduled opportunities for the trainees to present their research results to the Training Program Faculty and fellow trainees, are also integral to the program. ? ? Research opportunities for the trainees are varied and involve faculty with a wide range of expertise in research at the interface of chemistry and biology. The trainees have access to the most sophisticated techniques and instrumentation in modern research at this interface. The faculty of the Training Program has a long history of collaborative research and this interactive approach to research is a central theme in the training of a new generation of scientists in these four basic disciplines. During the next five years, the CBI Program is positioned to be a major contributor to the new interdisciplinary Life Sciences Initiative at the University of Michigan. ? ?
| Taylor, Erin L; Kesavan, Preethi M; Wolfe, Abigail E et al. (2018) Distinguishing Specific and Nonspecific Complexes of Alkyladenine DNA Glycosylase. Biochemistry 57:4440-4454 |
| Tebo, Alison G; Pinter, Tyler B J; GarcĂa-Serres, Ricardo et al. (2018) Development of a Rubredoxin-Type Center Embedded in a de Dovo-Designed Three-Helix Bundle. Biochemistry 57:2308-2316 |
| Haynes, Sarah E; Majmudar, Jaimeen D; Martin, Brent R (2018) DIA-SIFT: A Precursor and Product Ion Filter for Accurate Stable Isotope Data-Independent Acquisition Proteomics. Anal Chem 90:8722-8726 |
| Rogawski, David S; Vitanza, Nicholas A; Gauthier, Angela C et al. (2017) Integrating RNA sequencing into neuro-oncology practice. Transl Res 189:93-104 |
| Song, James M; Menon, Arya; Mitchell, Dylan C et al. (2017) High-Throughput Chemical Probing of Full-Length Protein-Protein Interactions. ACS Comb Sci 19:763-769 |
| Tebo, Alison G; Quaranta, Annamaria; Herrero, Christian et al. (2017) Intramolecular Photogeneration of a Tyrosine Radical in a Designed Protein. ChemPhotoChem 1:89-92 |
| Yao, Xin-Qiu; Cato, M Claire; Labudde, Emily et al. (2017) Navigating the conformational landscape of G protein-coupled receptor kinases during allosteric activation. J Biol Chem 292:16032-16043 |
| Lopez, Jeffrey E; Haynes, Sarah E; Majmudar, Jaimeen D et al. (2017) HDAC8 Substrates Identified by Genetically Encoded Active Site Photocrosslinking. J Am Chem Soc 139:16222-16227 |
| Castaneda, Carol Ann; Lopez, Jeffrey E; Joseph, Caleb G et al. (2017) Active Site Metal Identity Alters Histone Deacetylase 8 Substrate Selectivity: A Potential Novel Regulatory Mechanism. Biochemistry 56:5663-5670 |
| Kuo, Yu-Hsuan; Konopko, Aaron M; Borotto, Nicholas B et al. (2017) Profiling Protein S-Sulfination with Maleimide-Linked Probes. Chembiochem 18:2028-2032 |
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