Tamaria G. Dewdney, Ph.D.

Affiliations: 
2013 Biochemistry and Molecular Biology Wayne State University, Detroit, MI, United States 
Area:
Biochemistry, Molecular Biology
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"Tamaria Dewdney"

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Ladislau C. Kovari grad student 2013 Wayne State
 (Biochemical, structural, and drug design studies of multi-drug resistant HIV-1 therapeutic targets.)
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Ballandras-Colas A, Brown M, Cook NJ, et al. (2016) Cryo-EM reveals a novel octameric integrase structure for betaretroviral intasome function Nature. 530: 358-361
Kuiper BD, Keusch BJ, Dewdney TG, et al. (2015) The L33F darunavir resistance mutation acts as a molecular anchor reducing the flexibility of the HIV-1 protease 30s and 80s loops. Biochemistry and Biophysics Reports. 2: 160-165
Kuiper BD, Keusch BJ, Dewdney TG, et al. (2015) The L33F darunavir resistance mutation acts as a molecular anchor reducing the flexibility of the HIV-1 protease 30s and 80s loops Biochemistry and Biophysics Reports. 2: 160-165
Chordia P, Dewdney TG, Keusch B, et al. (2014) The role of mutations at codons 32, 47, 54, and 90 in HIV-1 protease flap dynamics. Discoveries (Craiova, Romania). 2: e27
Dewdney TG, Wang Y, Liu Z, et al. (2013) Ligand modifications to reduce the relative resistance of multi-drug resistant HIV-1 protease Bioorganic and Medicinal Chemistry. 21: 7430-7434
Dewdney TG, Wang Y, Kovari IA, et al. (2013) Reduced HIV-1 integrase flexibility as a mechanism for raltegravir resistance. Journal of Structural Biology. 184: 245-50
Liu Z, Yedidi RS, Wang Y, et al. (2013) Crystallographic study of multi-drug resistant HIV-1 protease lopinavir complex: mechanism of drug recognition and resistance. Biochemical and Biophysical Research Communications. 437: 199-204
Liu Z, Yedidi RS, Wang Y, et al. (2013) Insights into the mechanism of drug resistance: X-ray structure analysis of multi-drug resistant HIV-1 protease ritonavir complex. Biochemical and Biophysical Research Communications. 431: 232-8
Liu Z, Wang Y, Yedidi RS, et al. (2013) Conserved hydrogen bonds and water molecules in MDR HIV-1 protease substrate complexes. Biochemical and Biophysical Research Communications. 430: 1022-7
Wang Y, Dewdney TG, Liu Z, et al. (2012) Higher Desolvation Energy Reduces Molecular Recognition in Multi-Drug Resistant HIV-1 Protease. Biology. 1: 81-93
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