The spontaneous encapsulation of genomic and non-genomic polyanions by coat proteins of simple icosahedral viruses is driven, in the first instance, by electrostatic interactions with polycationic RNA binding domains on these proteins. The efficiency with which the polyanions can be encapsulated in vitro, and presumably also in vivo, must in addition be governed by the loss of translational and mixing entropy associated with co-assembly, at least if this co-assembly constitutes a reversible process. These forms of entropy counteract the impact of attractive interactions between the constituents and hence they counteract complexation. By invoking mass action-type arguments and a simple model describing electrostatic interactions, we show how...
Virus coat proteins spontaneously self-assemble into empty shells in aqueous solution under the appr...
Virus coat proteins spontaneously self-assemble into empty shells in aqueous solution under the appr...
Virus coat proteins spontaneously self-assemble into empty shells in aqueous solution under the appr...
The spontaneous encapsulation of genomic and non-genomic polyanions by coat proteins of simple icosa...
The spontaneous encapsulation of genomic and non-genomic polyanions by coat proteins of simple icosa...
The spontaneous encapsulation of genomic and non-genomic polyanions by coat proteins of simple icosa...
The spontaneous encapsulation of genomic and non-genomic polyanions by coat proteins of simple icosa...
The spontaneous encapsulation of genomic and non-genomic polyanions by coat proteins of simple icosa...
\u3cp\u3eThe spontaneous encapsulation of genomic and non-genomic polyanions by coat proteins of sim...
The spontaneous encapsulation of genomic and non-genomic polyanions by coat proteins of simple icosa...
Viral self-assembly is of tremendous virological and biomedical importance. Although theoretical and...
Virus coat proteins spontaneously self-assemble into empty shells in aqueous solution under the appr...
Virus coat proteins spontaneously self-assemble into empty shells in aqueous solution under the appr...
Virus coat proteins spontaneously self-assemble into empty shells in aqueous solution under the appr...
Virus coat proteins spontaneously self-assemble into empty shells in aqueous solution under the appr...
Virus coat proteins spontaneously self-assemble into empty shells in aqueous solution under the appr...
Virus coat proteins spontaneously self-assemble into empty shells in aqueous solution under the appr...
Virus coat proteins spontaneously self-assemble into empty shells in aqueous solution under the appr...
The spontaneous encapsulation of genomic and non-genomic polyanions by coat proteins of simple icosa...
The spontaneous encapsulation of genomic and non-genomic polyanions by coat proteins of simple icosa...
The spontaneous encapsulation of genomic and non-genomic polyanions by coat proteins of simple icosa...
The spontaneous encapsulation of genomic and non-genomic polyanions by coat proteins of simple icosa...
The spontaneous encapsulation of genomic and non-genomic polyanions by coat proteins of simple icosa...
\u3cp\u3eThe spontaneous encapsulation of genomic and non-genomic polyanions by coat proteins of sim...
The spontaneous encapsulation of genomic and non-genomic polyanions by coat proteins of simple icosa...
Viral self-assembly is of tremendous virological and biomedical importance. Although theoretical and...
Virus coat proteins spontaneously self-assemble into empty shells in aqueous solution under the appr...
Virus coat proteins spontaneously self-assemble into empty shells in aqueous solution under the appr...
Virus coat proteins spontaneously self-assemble into empty shells in aqueous solution under the appr...
Virus coat proteins spontaneously self-assemble into empty shells in aqueous solution under the appr...
Virus coat proteins spontaneously self-assemble into empty shells in aqueous solution under the appr...
Virus coat proteins spontaneously self-assemble into empty shells in aqueous solution under the appr...
Virus coat proteins spontaneously self-assemble into empty shells in aqueous solution under the appr...