Structure Based Study Of Viral Replication
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Structure-based Study of Viral Replication
Ch. 1. Human rhinovirus cell entry and uncoating / Renate Fuchs and Dieter Blaas -- ch. 2. Role of lipid microdomains in influenza virus multiplication / Makoto Takeda -- ch. 3. Functions of integrin alpha2beta1, a collagen receptor, in the internalization of echovirus 1 / Varpu Marjomäki [und weitere] -- ch. 4. Entry mechanism of murine and SARS coronaviruses - similarity and dissimilarity / Fumihiro Taguchi -- ch. 5. Hepatitis viruses, signaling events, and modulation of the innate host response / Syed Mohammad Moin, Anindita Kar-Roy and Shahid Jameel -- ch. 6. Virus-cell interaction of HCV / Hideki Tani [und weitere] -- ch. 7. RNA replication of hepatitis C virus / Hideki Aizaki and Tetsuro Suzuki -- ch. 8. Structure and dynamics in viral RNA packaging / Thorsten Dieckmann and Marta Zumwalt -- ch. 9. Rational design of viral protein structures with predetermined immunological properties / James Lara and Yury Khudyakov -- ch. 10. Bioinformatics resources for the study of viruses at the Virginia Bioinformatics Institute / Anjan Purkayastha [und weitere] -- ch. 11. Virus architecture probed by atomic force microscopy / A.J. Malkin [und weitere] -- ch. 12. Filovirus assembly and budding / Takeshi Noda and Yoshihiro Kawaoka -- ch. 13. Challenges in designing HIV Env immunogens for developing a vaccine / Indresh K. Srivastava and R. Holland Cheng -- ch. 14. Insights into the Caliciviridae family / Grant Hansman -- ch. 15. Mathematical approaches for stoichiometric quantification in studies of viral assembly and DNA packaging / Peixuan Guo, Jeremy Hall and Tae Jin Lee -- ch. 16. Virus-like particles of fish nodavirus / Chan-Shing Lin -- ch. 17. The assembly of the double-layered capsids of phytoreoviruses / Toshihiro Omura [und weitere] -- ch. 18. Structure and assembly of human herpesviruses: new insights from cryo-electron microscopy and tomography / Z. Hong Zhou and Pierrette Lo -- ch. 19. Human papillomavirus type 16 capsid proteins: immunogenicity and possible use as prophylactic vaccine antigens / Tadahito Kanda, Kei Kawana and Hiroyuki Yoshikawa -- ch. 20. Chimeric recombinant Hepatitis E virus-like particles presenting foreign epitopes as a novel vector of vaccine by oral administration / Yasuhiro Yasutomi -- ch. 21. Nucleocapsid protein of hantaviruses (Bunyaviridae): structure and functions / Alexander Plyusnin [und weitere] -- ch. 22. Astrovirus replication: an overview / Susana Guix, Albert Bosch and Rosa M. Pintó -- ch. 23. DNA vaccines against viruses / Britta Wahren and Margaret Liu -- ch. 24. Life cycles of polyomaviridae - DNA tumor virus / Masaaki Kawano, Hiroshi Handa and R. Holland Cheng
Structure-based Study Of Viral Replication (With Cd-rom)
This book addresses the innovative themes in characterizing the cellular membrane platforms and intracellular networking, as well as the architectural aspects of cell compartments mediated by the entry and replication cycles of viruses. The instrumentation of modern molecular and cellular biology provides a potent array of wave packets to image, detect and manipulate major dynamics of macromolecular and subviral assemblies as in the host cellular context.The book includes case studies presented with highly coherent and structured illuminations, including microscopy, spectroscopy and scanning probes. The compilation and integration of the methodology provides time-resolved observations on the reactivity of structures from near-atomic resolution to various molecular or cellular levels of descriptors. The book provides a broad introduction to the various fascinating virus systems and may be used as an advanced textbook by graduate students in biomedicine. It provides adequate background material to explore further the research problems of epidemics in the 21st century.
Structural Biology for Virus Research
Viruses are absolutely and strictly dependent on target host cells for their replication. However, they have their own unique strategies at each replication step from the entry into cells, transcription, translation, assembly of viral genome/proteins, and up to the release of progeny virions from cells. We virologists have to understand these complex biological interactions between viruses and host cells. Importantly, extensive studies based on bio-structural technology have revealed in succession the detailed and bottom line mechanisms of viral replication processes otherwise impossible. We now know the highly dynamic nature of viral genome/proteins, and are impressed by their ingeniously organized functionality in hostile host environments. For characterization of viruses as a unique genetic entity and pathogenic agent, it has been critical to investigate thoroughly the individual viral components and host factors involved in the virus replication cycle. Because many viral and cellular factors essential for viral replication and pathogenicity have been newly discovered through the efforts of virologists, the necessity of contribution to the progress of virology by the structural biology is now greatly increasing. To fully understand precise mechanisms underlying the functional interaction of viral and host molecules, needless to say, it is crucially required to have their structural information. We need to know molecular details of the nucleic acids, proteins, and interacting molecules. The information indispensable for understanding certain biological phenomena may only be provided by high-resolution three-dimensional structures. Of note, a number of anti-viral drugs have been generated based on the structural information. The interacting interfaces between virus and host components, which are important for viral replication, can be potent targets for anti-viral drugs. Their structural characterization would lead to designing rigid anti-viral drugs and/or vaccines. In this Research Topic, we wish to summarize and review what the structural biology has accomplished so far to resolve the important virological issues. We also wish to describe the perspective of the structural biology for the future virology. Finally, the presentation of ongoing original works is greatly encouraged.