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Full-Text Articles in Life Sciences
Quantitative Comparison Of Errors In 15n Transverse Relaxation Rates Measured Using Various Cpmg Phasing Schemes, Wazo Myint, Yufeng Cai, Celia Schiffer, Rieko Ishima
Quantitative Comparison Of Errors In 15n Transverse Relaxation Rates Measured Using Various Cpmg Phasing Schemes, Wazo Myint, Yufeng Cai, Celia Schiffer, Rieko Ishima
Celia A. Schiffer
Nitrogen-15 Carr-Purcell-Meiboom-Gill (CPMG) transverse relaxation experiment are widely used to characterize protein backbone dynamics and chemical exchange parameters. Although an accurate value of the transverse relaxation rate, R(2), is needed for accurate characterization of dynamics, the uncertainty in the R(2) value depends on the experimental settings and the details of the data analysis itself. Here, we present an analysis of the impact of CPMG pulse phase alternation on the accuracy of the (15)N CPMG R(2). Our simulations show that R(2) can be obtained accurately for a relatively wide spectral width, either using the conventional phase cycle or using phase alternation …
Decomposing The Energetic Impact Of Drug-Resistant Mutations: The Example Of Hiv-1 Protease-Drv Binding, Yufeng Cai, Celia Schiffer
Decomposing The Energetic Impact Of Drug-Resistant Mutations: The Example Of Hiv-1 Protease-Drv Binding, Yufeng Cai, Celia Schiffer
Celia A. Schiffer
HIV-1 protease is a major drug target for AIDS therapy. With the appearance of drug-resistant HIV-1 protease variants, understanding the mechanism of drug resistance becomes critical for rational drug design. Computational methods can provide more details about inhibitor-protease binding than crystallography and isothermal titration calorimetry. The latest FDA-approved HIV-1 protease inhibitor is Darunavir (DRV). Herein, each DRV atom is evaluated by free energy component analysis for its contribution to the binding affinity with wild-type protease and ACT, a drug-resistant variant. This information can contribute to the rational design of new HIV-1 protease inhibitors.
Hydrophobic Core Flexibility Modulates Enzyme Activity In Hiv-1 Protease, Seema Mittal, Yufeng Cai, Madhavi Nalam, Daniel Bolon, Celia Schiffer
Hydrophobic Core Flexibility Modulates Enzyme Activity In Hiv-1 Protease, Seema Mittal, Yufeng Cai, Madhavi Nalam, Daniel Bolon, Celia Schiffer
Celia A. Schiffer
Human immunodeficiency virus Type-1 (HIV-1) protease is crucial for viral maturation and infectivity. Studies of protease dynamics suggest that the rearrangement of the hydrophobic core is essential for enzyme activity. Many mutations in the hydrophobic core are also associated with drug resistance and may modulate the core flexibility. To test the role of flexibility in protease activity, pairs of cysteines were introduced at the interfaces of flexible regions remote from the active site. Disulfide bond formation was confirmed by crystal structures and by alkylation of free cysteines and mass spectrometry. Oxidized and reduced crystal structures of these variants show the …