Presentation is loading. Please wait.

Presentation is loading. Please wait.

Electrostatic theory of viral self-assembly Tao Hu, Rui Zhang, B. I. Shklovskii Department of Physics University of Minnesota.

Published byJane McLaughlin Modified over 9 years ago

Similar presentations

Presentation on theme: "Electrostatic theory of viral self-assembly Tao Hu, Rui Zhang, B. I. Shklovskii Department of Physics University of Minnesota."— Presentation transcript:

1 Electrostatic theory of viral self-assembly Tao Hu, Rui Zhang, B. I. Shklovskii Department of Physics University of Minnesota

2 Outline Opimization of viral structure stability Kinetics of viral self-assembly

3 Icosahedral viruses The number of capsid proteins is 60T, T=1, 3, 4, 7…… http://viperdb.scripps.edu/ CCMV (T=3) P. van der Schoot and R. Bruinsma, Phys. Rev. E 71, 061928 (2005). Self-assembly from a solution of capsid proteins and ss RNA. The absolute value of ss RNA charges is approximately twice larger than the total capsid charge.

4 For many viruses the capsid protein has long N- terminal tail, which carriers all positive charge. capsid protein ss RNA N-terminal tail See also: V. A. Belyi and M. Muthukumar, PNAS 103, 17174 (2006)

5

6 N-terminal tail overcharged by ss RNA ( with total length S ) Free energy: At ss RNA wraps around the N-terminal tail Optimize with respect to

7 Viruses are most stable when the total contour length of ss RNA is close to the total length of the tails. ss RNA N-terminal tail At both polymers are stretched

8

9 Very long tails

10 Without antenna: For a typical T=3 virus ss RNA ~ 3000 bases ~ 2100 nm radius of antenna R ~ 60 nm size of capsid protein r ~ 4 nm number of proteins M = 60T =180 With antenna: The ss RNA speeds up the self-assembly when the capsid proteins are at excess

11 The ss RNA tail slows down the self-assembly when the ss RNA molecules are at excess Kinetic trap

12 Assembly time as a function of ratio, is the assembly time without the antenna effect. excess of RNA stoichiometry excess of protein

13 Assembly from short RNA Excess of capsid proteins or of ss RNA plays NO role! CF can grow only via CF-CF collisions and merging. Typical size of fragment grows with time:

14 Summary Viruses are most stable when the total contour length of ss RNA is close to the total length of the tails. When capsid proteins are at excess, the ss RNA antenna speeds up self-assembly. When ss RNA molecules are at excess, the ss RNA tail slows down self-assembly.

Download ppt "Electrostatic theory of viral self-assembly Tao Hu, Rui Zhang, B. I. Shklovskii Department of Physics University of Minnesota."

Similar presentations

Viral Structure. Structure of a Virus Questions Relating to Structure –Is it rigid? –How big is it? –Is it flexible Structure Must Serve Virus –It should.

Viral Structure. Structure of a Virus Questions Relating to Structure –Is it rigid? –How big is it? –Is it flexible Structure Must Serve Virus –It should.
Colloid Stability ?.

Colloid Stability ?.
Kinetics of DNA Injection In Bacteriophage Paul D. Grayson Mandar M. Inamdar Rob Phillips Caltech Prashant K. Purohit UPenn William M. Gelbart UCLA Jané.

Kinetics of DNA Injection In Bacteriophage Paul D. Grayson Mandar M. Inamdar Rob Phillips Caltech Prashant K. Purohit UPenn William M. Gelbart UCLA Jané.
Colloidal Stability Introduction Interparticle Repulsion

Colloidal Stability Introduction Interparticle Repulsion
Lecture 16: Self Assembly of Amphiphiles. What did we cover in the last lecture? Aggregates will form when the free energy per molecule/particle inside.

Lecture 16: Self Assembly of Amphiphiles. What did we cover in the last lecture? Aggregates will form when the free energy per molecule/particle inside.
Influence of Charge and Network Inhomogeneities on the Swollen-Collapsed Transition in Polyelectrolyte Nanogels Prateek Jha (Northwestern University) Jos.

Influence of Charge and Network Inhomogeneities on the Swollen-Collapsed Transition in Polyelectrolyte Nanogels Prateek Jha (Northwestern University) Jos.
Icosahedral Symmetry: Most economical way to build symmetric shell, maximal internal volume, with nonsymmetric proteins: icosahedron Icosahedron: solid.

Icosahedral Symmetry: Most economical way to build symmetric shell, maximal internal volume, with nonsymmetric proteins: icosahedron Icosahedron: solid.
Effusion and Real Gases. Review: Kinetic Molecular Theory of Gases Which of the following is true? The average speed of gas molecules decreases with decreasing.

Effusion and Real Gases. Review: Kinetic Molecular Theory of Gases Which of the following is true? The average speed of gas molecules decreases with decreasing.
Carbon Compounds Section 2.3.

Carbon Compounds Section 2.3.
Lecture 8: Genome Packing and Accessibility Rob Phillips California Institute of Technology (Beautiful work of David Goodsell) (Bustamante et al.)

Lecture 8: Genome Packing and Accessibility Rob Phillips California Institute of Technology (Beautiful work of David Goodsell) (Bustamante et al.)
Introduction to Statistical Thermodynamics of Soft and Biological Matter Lecture 4 Diffusion Random walk. Diffusion. Einstein relation. Diffusion equation.

Introduction to Statistical Thermodynamics of Soft and Biological Matter Lecture 4 Diffusion Random walk. Diffusion. Einstein relation. Diffusion equation.
EBIT – Electron Beam Ion Trap

EBIT – Electron Beam Ion Trap
“Heads” side of edge. Diameter of human hair 5 meters.

“Heads” side of edge. Diameter of human hair 5 meters.
RNA STRUCTURE 1. Types of nucleic acid DNA – Deoxyribonucleic acid RNA – ribonucleic acid 2.

RNA STRUCTURE 1. Types of nucleic acid DNA – Deoxyribonucleic acid RNA – ribonucleic acid 2.
RNA-directed Viral Assembly I) Self-Assembly and Free Energy Minimization. III) Self-Assembly Empty Capsids. II) Fundamental Interactions. IV) Condensation.

RNA-directed Viral Assembly I) Self-Assembly and Free Energy Minimization. III) Self-Assembly Empty Capsids. II) Fundamental Interactions. IV) Condensation.
Dispersed Systems FDSC400 2004 Version. Goals Scales and Types of Structure in Food Surface Tension Curved Surfaces Surface Active Materials Charged Surfaces.

Dispersed Systems FDSC Version. Goals Scales and Types of Structure in Food Surface Tension Curved Surfaces Surface Active Materials Charged Surfaces.
Biomaterials and Protein Adsorption

Biomaterials and Protein Adsorption
Viruses.

Viruses.
Conformational changes of Gag HIV-1 on a tethered bilayer provide insights into viral assembly Hirsh Nanda, Susan Krueger NIST Center for Neutron Research,

Conformational changes of Gag HIV-1 on a tethered bilayer provide insights into viral assembly Hirsh Nanda, Susan Krueger NIST Center for Neutron Research,
Verification of the Crooks fluctuation theorem and recovery of RNA folding free energies D. Collin, F. Ritort, C. Jarzynski, S. B. Smith, I. Tinoco, Jr.

Verification of the Crooks fluctuation theorem and recovery of RNA folding free energies D. Collin, F. Ritort, C. Jarzynski, S. B. Smith, I. Tinoco, Jr.

Similar presentations

Ads by Google