The study of viruses necessarily involves dissecting the intimate details of cellular pathways. Viruses have often been employed as tools in studying cellular pathways, as was done by early retrovirologists such as Peyton Rous in attempting to understand the mechanism of cellular transformation and oncogenesis. On the other side of the coin, virologists seek to de?ne those cellular elements interacting intimatelywiththeir virus ofinterestinorder to better understand viral replication itself, and in some cases to develop antiviral strategies. It is in the intersection of virology and cell biology that many of us ?nd the most rewarding aspects of our research. When a new discovery yields insights into basic cellular mechanisms and presents new targets for int- vention to ?ght a serious pathogen, the impact can be high and the excitement intense. HIV has been no exception to the rule that viruses reveal many basic aspects of cellular biology. In recent years, in part because of the importance of HIV as a major cause of human suffering, numerous cellular processes have been elucidated through work on processes or proteins of this human retrovirus. The excitement in this ?eld is especially well illustrated by the discovery of new innate means of resisting viral replication, such as the work on APOBEC3G, TRIM5a, and BST-2/ tetherin presented in this volume.

Over the past decade, enormous progress has been made in understanding the late events in the HIV replication cycle. This has been made possible by major advances in cell biology, virology, and structural biology. The field continues to move forward rapidly, with important new discoveries being reported on a regular basis. The impact of this progress across a broad spectrum of biomedical research has been substantial. The increase in basic knowledge in the areas of HIV assembly, release, and maturation has been accompanied by new possibilities for therapeutic intervention.The work includes topics relating to basic molecular biology, cell biology, and structural biology of HIV assembly, coupled with more applied ideas of how this basic information can inform the field of antiretroviral research. The book coversall major topics pertaining to the late stages of HIV replication, with leaders in each area recruited to contribute chapters in their areas of expertise . The topics will be sufficiently focused to allow authors the opportunity to cover the latest developments in detail.

Now in four convenient volumes, Field’s Virology remains the most authoritative reference in this fast-changing field, providing definitive coverage of virology, including virus biology as well as replication and medical aspects of specific virus families. This volume of Field’s Virology: RNA Viruses, Seventh Edition covers the latest information on RNA viruses, how they cause disease, how they can cause epidemics and pandemics, new therapeutics and vaccine approaches, as provided in new or extensively revised chapters that reflect these advances in this dynamic field. Bundled with the eBook, which will be updated regularly as new information about each virus is available, this text serves as the authoritative, up-to-date reference book for virologists, infectious disease specialists, microbiologists, and physicians, as well as medical students pursuing a career in infectious diseases. Covers both basic science and medical features of each virus, emphasizing viruses of medical importance and interest, while also including other viruses in specific cases where more is known about their mechanisms of replication or pathogenesis Includes two new chapters on SARS - Coronavirus 2 covering both basic science and clinical aspects of CoV2 and COVID-19 Covers human immunodeficiency virus (HIV), rotaviruses, respiratory syncytial virus (RSV), measles virus, and more Features more than 400 full-color illustrations, including key figures for use as lecture slides Provides quick, flexible access to current information both in print and in an improved eBook format Discusses virus structure, virus entry, replication, and assembly, virus-host cell interactions, host immune responses and vaccines, antiviral therapeutics, viral persistence and latency for HIV, and mechanisms of viral oncogenesis for HTLV-1 and HCV New and forthcoming Field’s Virology volumes, available in print and eBook format: • Emerging Viruses - 2020 • DNA Viruses - 2021 • RNA Viruses • Fundamental Virology   Enrich Your eBook Reading Experience Read directly on your preferred device(s),such as computer, tablet, or smartphone. Easily convert to audiobook,powering your content with natural language text-to-speech.

The study of viruses necessarily involves dissecting the intimate details of cellular pathways. Viruses have often been employed as tools in studying cellular pathways, as was done by early retrovirologists such as Peyton Rous in attempting to understand the mechanism of cellular transformation and oncogenesis. On the other side of the coin, virologists seek to de?ne those cellular elements interacting intimatelywiththeir virus ofinterestinorder to better understand viral replication itself, and in some cases to develop antiviral strategies. It is in the intersection of virology and cell biology that many of us ?nd the most rewarding aspects of our research. When a new discovery yields insights into basic cellular mechanisms and presents new targets for int- vention to ?ght a serious pathogen, the impact can be high and the excitement intense. HIV has been no exception to the rule that viruses reveal many basic aspects of cellular biology. In recent years, in part because of the importance of HIV as a major cause of human suffering, numerous cellular processes have been elucidated through work on processes or proteins of this human retrovirus. The excitement in this ?eld is especially well illustrated by the discovery of new innate means of resisting viral replication, such as the work on APOBEC3G, TRIM5a, and BST-2/ tetherin presented in this volume.

Over the past decade, enormous progress has been made in understanding the late events in the HIV replication cycle. This has been made possible by major advances in cell biology, virology, and structural biology. The field continues to move forward rapidly, with important new discoveries being reported on a regular basis. The impact of this progress across a broad spectrum of biomedical research has been substantial. The increase in basic knowledge in the areas of HIV assembly, release, and maturation has been accompanied by new possibilities for therapeutic intervention.The work includes topics relating to basic molecular biology, cell biology, and structural biology of HIV assembly, coupled with more applied ideas of how this basic information can inform the field of antiretroviral research. The book covers all major topics pertaining to the late stages of HIV replication, with leaders in each area recruited to contribute chapters in their areas of expertise . The topics will be sufficiently focused to allow authors the opportunity to cover the latest developments in detail.