Adam Zlotnick,印第安纳大学——HBV相关实验室及人物介绍系列
Adam Zlotnick,印第安纳大学——HBV相关实验室及人物介绍系列Adam Zlotnick, Indiana University, Bloomington,印第安纳
Pierson, E. E. and D. Z. Keifer, et al. (2016). "Charge Detection Mass Spectrometry Identifies Preferred Non-Icosahedral Polymorphs in the Self-Assembly of Woodchuck Hepatitis Virus Capsids." J Mol Biol 428(2 Pt A): 292-300.
Venkatakrishnan, B. and S. P. Katen, et al. (2016). "Hepatitis B Virus Capsids Have Diverse Structural Responses to Small-Molecule Ligands Bound to the Heteroaryldihydropyrimidine Pocket." J Virol 90(8): 3994-4004.
Tan, Z. and K. Pionek, et al. (2015). "The interface between hepatitis B virus capsid proteins affects self-assembly, pregenomic RNA packaging, and reverse transcription." J Virol 89(6): 3275-84.
Selzer, L. and R. Kant, et al. (2015). "Hepatitis B Virus Core Protein Phosphorylation Sites Affect Capsid Stability andTransient Exposure of the C-terminal Domain." J Biol Chem 290(47): 28584-93.
Selzer, L. and A. Zlotnick (2015). "Assembly and Release of Hepatitis B Virus." Cold Spring Harb Perspect Med 5(12).
(2014). "Encapsidated hepatitis B virus reverse transcriptase is poised on an ordered RNAlattice." 111(31): 11329-34.
Selzer, L. and S. P. Katen, et al. (2014). "The hepatitis B virus core protein intradimer interface modulates capsid assembly and stability." Biochemistry 53(34): 5496-504.
Katen, S. P. and Z. Tan, et al. (2013). "Assembly-directed antivirals differentially bind quasiequivalent pockets to modify hepatitis B virus capsid tertiary and quaternary structure." Structure 21(8): 1406-16.
He, L. and Z. Porterfield, et al. (2013). "Hepatitis virus capsid polymorph stability depends on encapsulated cargo size." ACS Nano 7(10): 8447-54.
Li, L. and S. R. Chirapu, et al. (2013). "Phase diagrams map the properties of antiviral agents directed against hepatitisB virus core assembly." Antimicrob Agents Chemother 57(3): 1505-8.
Tan, Z. and M. L. Maguire, et al. (2013). "Genetically altering the thermodynamics and kinetics of hepatitis B virus capsidassembly has profound effects on virus replication in cell culture." J Virol 87(6): 3208-16.
Dhason, M. S. and J. C. Wang, et al. (2012). "Differential assembly of Hepatitis B Virus core protein on single- and double-stranded nucleic acid suggest the dsDNA-filled core is spring-loaded." Virology 430(1): 20-9.
Wang, J. C. and M. S. Dhason, et al. (2012). "Structural organization of pregenomic RNA and the carboxy-terminal domain of thecapsid protein of hepatitis B virus." PLoS Pathog 8(9): e1002919.
Zhou, K. and L. Li, et al. (2011). "Characterization of hepatitis B virus capsids by resistive-pulse sensing." J Am Chem Soc 133(6): 1618-21.
Chen, C. and J. C. Wang, et al. (2011). "A kinase chaperones hepatitis B virus capsid assembly and captures capsid dynamics in vitro." PLoS Pathog 7(11): e1002388.
Packianathan, C. and S. P. Katen, et al. (2010). "Conformational changes in the hepatitis B virus core protein are consistent witha role for allostery in virus assembly." J Virol 84(3): 1607-15.
Katen, S. P. and S. R. Chirapu, et al. (2010). "Trapping of hepatitis B virus capsid assembly intermediates by phenylpropenamideassembly accelerators." ACS Chem Biol 5(12): 1125-36.
Porterfield, J. Z. and M. S. Dhason, et al. (2010). "Full-length hepatitis B virus core protein packages viral and heterologous RNA with similarly high levels of cooperativity." J Virol 84(14): 7174-84.
Bourne, C. and S. Lee, et al. (2008). "Small-molecule effectors of hepatitis B virus capsid assembly give insight into virus life cycle." J Virol 82(20): 10262-70.
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