Yi Mao scite author profile

The thermal unfolding of unsolvated cytochrome c has been examined in the gas phase using ion-mobility measurements. Measurements were performed for the +5, +6, and +7 protonated charge states from around room temperature up to 573 K. The (M + 5H)5+ charge state remains folded at 573 K while (M + 6H)6+ and (M + 7H)7+ go through a series of unfolding transitions as the temperature is raised. Molecular dynamics simulations were performed using the CHARMM force field. The simulations are in qualitative agreement with the experimental results: the +7 charge states unfold as the temperature is raised and the +5 charge states remain compact. Addition of two protons to the +5 charge state flattens the energy landscape so that the folded and unfolded conformations have similar energies. Entropy presumably drives the unfolding of the +7 charge state as the temperature is raised.

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Heteroaryldihydropyrimidine (HAP) and Sulfamoylbenzamide (SBA) Inhibit Hepatitis B Virus Replication by Different Molecular Mechanisms

Zhou

et al. 2017

Sci Rep

114

162

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Heteroaryldihydropyrimidine (HAP) and sulfamoylbenzamide (SBA) are promising non-nucleos(t)ide HBV replication inhibitors. HAPs are known to promote core protein mis-assembly, but the molecular mechanism of abnormal assembly is still elusive. Likewise, the assembly status of core protein induced by SBA remains unknown. Here we show that SBA, unlike HAP, does not promote core protein mis-assembly. Interestingly, two reference compounds HAP_R01 and SBA_R01 bind to the same pocket at the dimer-dimer interface in the crystal structures of core protein Y132A hexamer. The striking difference lies in a unique hydrophobic subpocket that is occupied by the thiazole group of HAP_R01, but is unperturbed by SBA_R01. Photoaffinity labeling confirms the HAP_R01 binding pose at the dimer-dimer interface on capsid and suggests a new mechanism of HAP-induced mis-assembly. Based on the common features in crystal structures we predict that T33 mutations generate similar susceptibility changes to both compounds. In contrast, mutations at positions in close contact with HAP-specific groups (P25A, P25S, or V124F) only reduce susceptibility to HAP_R01, but not to SBA_R01. Thus, HAP and SBA are likely to have distinctive resistance profiles. Notably, P25S and V124F substitutions exist in low-abundance quasispecies in treatment-naïve patients, suggesting potential clinical relevance.

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Yi Mao

Hepatitis B virus X protein sensitizes cells to starvation‐induced autophagy via up‐regulation of beclin 1 expression†‡

Thermal Unfolding of Unsolvated Cytochrome c: Experiment and Molecular Dynamics Simulations

Heteroaryldihydropyrimidine (HAP) and Sulfamoylbenzamide (SBA) Inhibit Hepatitis B Virus Replication by Different Molecular Mechanisms

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