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Human immunodeficiency virus (HIV) capsid proteins spontaneously assemble around the genome into a protective protein shell called the capsid, which can take on a variety of shapes broadly classified as conical, cylindrical and irregular.…

Biological Physics · Physics 2016-08-10 Gonca Erdemci-Tandogan , Jef Wagner , Paul van der Schoot , Roya Zandi

The assembly and maturation of viruses with icosahedral capsids must be coordinated with icosahedral symmetry. The icosahedral symmetry imposes also the restrictions on the cooperative specific interactions between genomic RNA/DNA and coat…

Quantitative Methods · Quantitative Biology 2018-05-22 V. R. Chechetkin , V. V. Lobzin

We examine the limits on viral composition that are set by the electrostatic interactions effected by the charge on the viral proteins, the single-stranded viral RNA molecule and monovalent salt ions in the solution. Within the mean-field…

Biological Physics · Physics 2008-06-03 Antonio Siber , Rudolf Podgornik

Single-stranded (ss) RNA viruses self-assemble spontaneously in solutions that contain the viral RNA genome molecules and viral capsid proteins. The self-assembly of empty capsids can be understood on the basis of free energy minimization.…

Biological Physics · Physics 2022-03-22 Inbal Mizrahi , Robijn Bruinsma , Joseph Rudnick

Capsids of many viruses assemble around nucleic acids or other polymers. Understanding how the properties of the packaged polymer affect the assembly process could promote biomedical efforts to prevent viral assembly or nanomaterials…

Biomolecules · Quantitative Biology 2015-05-18 Aleksandr Kivenson , Michael F. Hagan

The statistical mechanics of a treelike polymer in a confining volume is relevant to the packaging of the genome in RNA viruses. Making use of the mapping of the grand partition function of this system onto the statistical mechanics of a…

Statistical Mechanics · Physics 2008-04-09 Rouzbeh Ghafouri , Joseph Rudnick , Robijn Bruinsma

The encapsulation of polyanions, whether single-stranded RNAs or synthetic polymers, is primarily driven by attractive electrostatic interactions between the positively charged, structurally disordered RNA-binding domains of virus coat…

Biological Physics · Physics 2025-01-24 Mohammadamin Safdari , Siyu Li , Sanaz Panahandeh , Paul van der Schoot , Roya Zandi

In many viruses, hundreds of proteins assemble an outer shell (capsid) around the viral nucleic acid to form an infectious virion. How the assembly process selects the viral genome amidst a vast excess of diverse cellular nucleic acids is…

Soft Condensed Matter · Physics 2025-08-26 Layne B. Frechette , Michael F. Hagan

Determination of sizes and flexibilities of RNA molecules is important in understanding the nature of packing in folded structures and in elucidating interactions between RNA and DNA or proteins. Using the coordinates of the structures of…

Biomolecules · Quantitative Biology 2009-11-13 Changbong Hyeon , Ruxandra I. Dima , D. Thirumalai

We propose a description for the quasi-equilibrium self-assembly of small, single-stranded (ss) RNA viruses whose capsid proteins (CPs) have flexible, positively charged, disordered tails that associate with the negatively charged RNA…

Soft Condensed Matter · Physics 2016-03-23 Robijn F. Bruinsma , Mauricio Comas-Garcia , Rees F. Garmann , Alexander Y. Grosberg

The question of how stiff polymers are able to pack into small containers is particularly relevant to the study of DNA packaging in viruses. A reduced version of the problem based on coarse-grained representations of the main components of…

Biomolecules · Quantitative Biology 2016-10-12 D. C. Rapaport

The study research presented hereafter shows a new methodology to reveal traces of Viral particles thanks to their own chemical structure such as P31, an element making up part of the structure of RNA, a type of nucleic acid, such as in a…

Instrumentation and Detectors · Physics 2021-06-22 Adlish John I. , Enrico Mainardi , Piero Neuhold , Riccardo Surrente , Luca J Tagliapietra

We investigate the morphologies and maximum packing density of thin wires packed into spherical cavities. Using simulations and experiments, we find that ordered as well as disordered structures emerge, depending on the amount of internal…

Soft Condensed Matter · Physics 2011-05-30 N. Stoop , J. Najafi , F. K. Wittel , M. Habibi , H. J. Herrmann

Electrostatic interactions play a central role in the assembly of single-stranded RNA viruses. Under physiological conditions of salinity and acidity, virus capsid assembly requires the presence of genomic material that is oppositely…

Biomolecules · Quantitative Biology 2009-11-10 P. van der Schoot , R. Bruinsma

Bacteriophages, viruses that infect bacteria, store their micron long DNA inside an icosahedral capsid with a typical diameter of 40 nm to 100 nm. Consistent with experimental observations, such confinement conditions induce an arrangement…

Soft Condensed Matter · Physics 2025-09-15 Pei Liu , Zhijie Wang , Tamara Christiani , Mariel Vazquez , M. Carme Calderer , Javier Arsuaga

A big class of viruses self-assemble from a large number of identical capsid proteins with long flexible N-terminal tails and ss RNA. We study the role of the strong Coulomb interaction of positive N-terminal tails with ss RNA in the…

Biomolecules · Quantitative Biology 2009-11-13 Tao Hu , B. I. Shklovskii

A nanoparticle (NP) immersed in biological media rapidly forms a corona of adsorbed proteins, which later controls the eventual fate of the particle and the route through which adverse outcomes may occur. The composition and timescale for…

Soft Condensed Matter · Physics 2021-11-03 I. Rouse , V. Lobaskin

The ongoing effort to detect and characterize physical entanglement in biopolymers has so far established that knots are present in many globular proteins and also abound in viral DNA packaged inside bacteriophages. RNA molecules, on the…

Biomolecules · Quantitative Biology 2014-10-08 Cristian Micheletti , Marco Di Stefano , Henri Orland

HIV-1, an enveloped RNA virus, produces viral particles that are known to be much more heterogeneous in size than is typical of non-enveloped viruses. We present here a novel strategy to study HIV-1 Viral Like Particles (VLP) assembly by…

A vital constituent of a virus is its protein shell, called the viral capsid, that encapsulates and hence provides protection for the viral genome. Viral capsids are usually spherical, and for a significant number of viruses exhibit overall…

Biomolecules · Quantitative Biology 2009-11-11 T. Keef , A. Taormina , R. Twarock