AbstractThere are many viruses whose genetic material is protected by a closed elongated protein shell. Unlike spherical viruses, the structure and construction principles of these elongated capsids are not fully known. In this article, we have developed a general geometrical model to describe the structure of prolate or bacilliform capsids. We show that only a limited set of tubular architectures can be built closed by hemispherical icosahedral caps. In particular, the length and number of proteins adopt a very special set of discrete values dictated by the axial symmetry (fivefold, threefold, or twofold) and the triangulation number of the caps. The results are supported by experimental observations and simulations of simplified physical ...
For survival, most natural viruses depend upon the existence of spherical capsids: protective shells...
Retrovirus capsid is a fullerene-like lattice consisting of capsid protein hexamers and pentamers. M...
Interactions between viral coat proteins determine the size and shape of the virus capsid. Therefore...
AbstractThere are many viruses whose genetic material is protected by a closed elongated protein she...
Spherical viruses are remarkably well characterized by the Triangulation (T) number developed by Cas...
Viruses are submicroscopic biological entities that need to infect a host cell in order to replicate...
Viruses are submicroscopic biological entities that need to infect a host cell in order to replicate...
<p>A) Representative icosahedral viral capsid structures with varying sizes. The Satellite Tobacco M...
Since the seminal work of Caspar and Klug on the structure of the protein containers that encapsulat...
The majority of viruses on Earth form capsids built by multiple copies of one or more types of a coa...
Many bacteriophages and eukaryotic viruses, which share little sequence similarities, have icosahedr...
Whereas many viruses have capsids of uniquely defined sizes that observe icosahedral symmetry, retro...
<div><p>Viral capsid proteins assemble into large, symmetrical architectures that are not found in c...
Simple viruses are composed of a nucleic acid protected by a capsid which is a regular arrangement o...
Abstract: Retrovirus capsid is a fullerene-like lattice consisting of capsid protein hexamers and pe...
For survival, most natural viruses depend upon the existence of spherical capsids: protective shells...
Retrovirus capsid is a fullerene-like lattice consisting of capsid protein hexamers and pentamers. M...
Interactions between viral coat proteins determine the size and shape of the virus capsid. Therefore...
AbstractThere are many viruses whose genetic material is protected by a closed elongated protein she...
Spherical viruses are remarkably well characterized by the Triangulation (T) number developed by Cas...
Viruses are submicroscopic biological entities that need to infect a host cell in order to replicate...
Viruses are submicroscopic biological entities that need to infect a host cell in order to replicate...
<p>A) Representative icosahedral viral capsid structures with varying sizes. The Satellite Tobacco M...
Since the seminal work of Caspar and Klug on the structure of the protein containers that encapsulat...
The majority of viruses on Earth form capsids built by multiple copies of one or more types of a coa...
Many bacteriophages and eukaryotic viruses, which share little sequence similarities, have icosahedr...
Whereas many viruses have capsids of uniquely defined sizes that observe icosahedral symmetry, retro...
<div><p>Viral capsid proteins assemble into large, symmetrical architectures that are not found in c...
Simple viruses are composed of a nucleic acid protected by a capsid which is a regular arrangement o...
Abstract: Retrovirus capsid is a fullerene-like lattice consisting of capsid protein hexamers and pe...
For survival, most natural viruses depend upon the existence of spherical capsids: protective shells...
Retrovirus capsid is a fullerene-like lattice consisting of capsid protein hexamers and pentamers. M...
Interactions between viral coat proteins determine the size and shape of the virus capsid. Therefore...