Your search keyword '"virus capsid"' showing total 5 results

1. All-atom molecular dynamics of the HBV capsid reveals insights into biological function and cryo-EM resolution limits

Author

Jodi A Hadden, Juan R Perilla, Christopher John Schlicksup, Balasubramanian Venkatakrishnan, Adam Zlotnick, and Klaus Schulten

Subjects

Molecular Dynamics Simulation, Hepatitis B Virus, Virus Capsid, Single-Particle Image Reconstruction, Cryo-EM resolution, Medicine, Science, Biology (General), QH301-705.5

Abstract

The hepatitis B virus capsid represents a promising therapeutic target. Experiments suggest the capsid must be flexible to function; however, capsid structure and dynamics have not been thoroughly characterized in the absence of icosahedral symmetry constraints. Here, all-atom molecular dynamics simulations are leveraged to investigate the capsid without symmetry bias, enabling study of capsid flexibility and its implications for biological function and cryo-EM resolution limits. Simulation results confirm flexibility and reveal a propensity for asymmetric distortion. The capsid’s influence on ionic species suggests a mechanism for modulating the display of cellular signals and implicates the capsid’s triangular pores as the location of signal exposure. A theoretical image reconstruction performed using simulated conformations indicates how capsid flexibility may limit the resolution of cryo-EM. Overall, the present work provides functional insight beyond what is accessible to experimental methods and raises important considerations regarding asymmetry in structural studies of icosahedral virus capsids.

Published

2018

2. Viral genome structures are optimal for capsid assembly

Author

Jason D Perlmutter, Cong Qiao, and Michael F Hagan

Subjects

virus capsid, self assembly, RNA Packaging, Medicine, Science, Biology (General), QH301-705.5

Abstract

Understanding how virus capsids assemble around their nucleic acid (NA) genomes could promote efforts to block viral propagation or to reengineer capsids for gene therapy applications. We develop a coarse-grained model of capsid proteins and NAs with which we investigate assembly dynamics and thermodynamics. In contrast to recent theoretical models, we find that capsids spontaneously ‘overcharge’; that is, the negative charge of the NA exceeds the positive charge on capsid. When applied to specific viruses, the optimal NA lengths closely correspond to the natural genome lengths. Calculations based on linear polyelectrolytes rather than base-paired NAs underpredict the optimal length, demonstrating the importance of NA structure to capsid assembly. These results suggest that electrostatics, excluded volume, and NA tertiary structure are sufficient to predict assembly thermodynamics and that the ability of viruses to selectively encapsidate their genomic NAs can be explained, at least in part, on a thermodynamic basis.

Published

2013

3. All-atom molecular dynamics of the HBV capsid reveals insights into biological function and cryo-EM resolution limits

Author

Klaus Schulten, Balasubramanian Venkatakrishnan, Christopher John Schlicksup, Jodi A. Hadden, Juan R. Perilla, and Adam Zlotnick

Subjects

0301 basic medicine, Protein Conformation, QH301-705.5, Cryo-electron microscopy, Icosahedral symmetry, Structural Biology and Molecular Biophysics, Science, viruses, media_common.quotation_subject, Molecular Dynamics Simulation, Asymmetry, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Molecular dynamics, Capsid, Protein structure, Cryo-EM resolution, None, Biology (General), Virus Capsid, media_common, Physics, 030102 biochemistry & molecular biology, General Immunology and Microbiology, General Neuroscience, Cryoelectron Microscopy, Molecular biophysics, General Medicine, biochemical phenomena, metabolism, and nutrition, 030104 developmental biology, Structural biology, Single-Particle Image Reconstruction, Biophysics, Medicine, Hepatitis B Virus, Research Article

Abstract

The hepatitis B virus capsid represents a promising therapeutic target. Experiments suggest the capsid must be flexible to function; however, capsid structure and dynamics have not been thoroughly characterized in the absence of icosahedral symmetry constraints. Here, all-atom molecular dynamics simulations are leveraged to investigate the capsid without symmetry bias, enabling study of capsid flexibility and its implications for biological function and cryo-EM resolution limits. Simulation results confirm flexibility and reveal a propensity for asymmetric distortion. The capsid’s influence on ionic species suggests a mechanism for modulating the display of cellular signals and implicates the capsid’s triangular pores as the location of signal exposure. A theoretical image reconstruction performed using simulated conformations indicates how capsid flexibility may limit the resolution of cryo-EM. Overall, the present work provides functional insight beyond what is accessible to experimental methods and raises important considerations regarding asymmetry in structural studies of icosahedral virus capsids.

Published

2018

4. All-atom molecular dynamics of the HBV capsid reveals insights into biological function and cryo-EM resolution limits.

Author

Hadden JA, Perilla JR, Schlicksup CJ, Venkatakrishnan B, Zlotnick A, and Schulten K

Subjects

Protein Conformation, Capsid chemistry, Capsid ultrastructure, Cryoelectron Microscopy, Hepatitis B virus chemistry, Hepatitis B virus ultrastructure, Molecular Dynamics Simulation

Abstract

The hepatitis B virus capsid represents a promising therapeutic target. Experiments suggest the capsid must be flexible to function; however, capsid structure and dynamics have not been thoroughly characterized in the absence of icosahedral symmetry constraints. Here, all-atom molecular dynamics simulations are leveraged to investigate the capsid without symmetry bias, enabling study of capsid flexibility and its implications for biological function and cryo-EM resolution limits. Simulation results confirm flexibility and reveal a propensity for asymmetric distortion. The capsid's influence on ionic species suggests a mechanism for modulating the display of cellular signals and implicates the capsid's triangular pores as the location of signal exposure. A theoretical image reconstruction performed using simulated conformations indicates how capsid flexibility may limit the resolution of cryo-EM. Overall, the present work provides functional insight beyond what is accessible to experimental methods and raises important considerations regarding asymmetry in structural studies of icosahedral virus capsids., Competing Interests: JH, JP, CS, BV, KS No competing interests declared, AZ A.Z. has an interest in a biotechnology company and acknowledges a conflict of interest., (© 2018, Hadden et al.)

Published

2018

5. Viral genome structures are optimal for capsid assembly.

Author

Perlmutter JD, Qiao C, and Hagan MF

Subjects

Models, Theoretical, Thermodynamics, Capsid, Genome, Viral

Abstract

Understanding how virus capsids assemble around their nucleic acid (NA) genomes could promote efforts to block viral propagation or to reengineer capsids for gene therapy applications. We develop a coarse-grained model of capsid proteins and NAs with which we investigate assembly dynamics and thermodynamics. In contrast to recent theoretical models, we find that capsids spontaneously 'overcharge'; that is, the negative charge of the NA exceeds the positive charge on capsid. When applied to specific viruses, the optimal NA lengths closely correspond to the natural genome lengths. Calculations based on linear polyelectrolytes rather than base-paired NAs underpredict the optimal length, demonstrating the importance of NA structure to capsid assembly. These results suggest that electrostatics, excluded volume, and NA tertiary structure are sufficient to predict assembly thermodynamics and that the ability of viruses to selectively encapsidate their genomic NAs can be explained, at least in part, on a thermodynamic basis. DOI:http://dx.doi.org/10.7554/eLife.00632.001.

Published

2013