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The means by which non-enveloped viruses penetrate cellular membranes during cell entry remain poorly defined. Recent findings indicate several members of this group share a common mechanism of membrane penetration in which the virus particle undergoes programmed conformational changes, leading to capsid disassembly and release of small membrane-interacting peptides.A complete understanding of host cell entry by this minimal system will help elucidate the mechanisms of non-enveloped virus membrane penetration in general
Inhaltsverzeichnis
Flock House Virus: A Model System for Understanding Non-Enveloped Virus Entry and Membrane Penetration.- The Caliciviruses.- Picornaviruses.- From Touchdown to Transcription: The Reovirus Cell Entry Pathway.- Rotavirus Cell Entry.- Structures and Functions of Parvovirus Capsids and the Process of Cell Infection.- Cellular Entry of Polyomaviruses.- Adenovirus.
Zusammenfassung
The means by which non-enveloped viruses penetrate cellular membranes during cell entry remain poorly defined. Recent findings indicate several members of this group share a common mechanism of membrane penetration in which the virus particle undergoes programmed conformational changes, leading to capsid disassembly and release of small membrane-interacting peptides.
A complete understanding of host cell entry by this minimal system will help elucidate the mechanisms of non-enveloped virus membrane penetration in general
Zusatztext
From the reviews:
“This book contains detailed, up-to-date descriptions of cellular entry mechanisms of non-enveloped viruses, such as ssRNA viruses (nodavirus, picornavirus, calicivirus), dsRNA viruses (orthoreovirus, rotavirus), ssDNA viruses (parvovirus) and dsDNA viruses (polyomavirus, adenovirus). … The book is strongly recommended to established virologists, molecular and structural biologists, and young scientists working in these areas.” (Ulrich Desselberger, Microbiology Today, May, 2011)
Bericht
From the reviews:
"This book contains detailed, up-to-date descriptions of cellular entry mechanisms of non-enveloped viruses, such as ssRNA viruses (nodavirus, picornavirus, calicivirus), dsRNA viruses (orthoreovirus, rotavirus), ssDNA viruses (parvovirus) and dsDNA viruses (polyomavirus, adenovirus). ... The book is strongly recommended to established virologists, molecular and structural biologists, and young scientists working in these areas." (Ulrich Desselberger, Microbiology Today, May, 2011)