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1、PREFACE Coronavirusesareimportanthumanandanimalpathogens,withsevereacute respiratorysyndrome(SARS)andMiddleEastrespiratorysyndrome(MERS) coronavirus being prominent examples. Although animal coronavirus- associated diseases, such as feline infectious peritonitis, have been reported more than a centu
2、ry ago, the causative agents were only recognized in the late 1960s as a group of related enveloped RNA viruses. The International Committee on Taxonomy of Viruses approved a separate virus family Coronaviridaein1975.Morerecently,anadditionaltaxonomicrankwasintro- duced in this family, with coronavi
3、ruses being classified as members of the subfamily Coronavirinae that, currently, is comprised of four genera. The first complete genome sequence of a coronavirus (avian infectious bronchitis virus) was published in 1987. The study revealed that, compared to other RNAviruses,coronaviruseshaveextreme
4、lylargegenomesofapproximately 30 kb. In 1989, Alexander Gorbalenya and colleagues published the first comprehensivesequenceanalysisofacoronavirusreplicasegene.Functional predictions arising from this seminal work provided a framework for many subsequent biochemical, structural, and phylogenetic stud
5、ies of corona- and related viruses. The studies identified several phylogenetically related lineages of plus-strand RNA viruses that, despite profound divergence at the sequence level, were revealed to encode a conserved array of functional domains in their replicase genes and to use similar strateg
6、ies to express and replicatetheirlargepolycistronicgenomes.Thesevirusesarenowrecognized as members of the order Nidovirales and belong to one of the four established families Arteriviridae, Mesoniviridae, Coronaviridae, and Roniviridae. Nidovirus RNA synthesis and processing was revealed to involve
7、an unusually large number of proteins, and also the enormous complexity of interactions between nidoviral and host cell functions is exceptional in the RNA virus world.Coronavirusesandother nidoviruseswithgenomesizesof morethan 20 kb also stick out from all other RNA viruses by encoding a 30-to-50 e
8、xoribonucleasethatwasshowntoincreasethefidelityofviralRNAsynthesis andisthoughttobeakeyfactorintheevolutionofRNAgenomesofthislarge size.Additionalinterestinstudyingcoronaviruseswassparkedbytwonewly emerging zoonotic coronaviruses, SARS-CoV and MERS-CoV, that are abletocausesevereorevenfatal respirat
9、orydiseaseinhumans.Overthepast few years, a large number of previously unknown corona- and related xiii nidoviruses were discovered in mammals, birds, insects, fish, and reptiles, while other studies provided a wealth of new information on the biology and pathogenesis of human and animal coronavirus
10、es. In several cases, the studies also revealed unique properties not reported previously for other RNA viruses outside the Nidovirales. The chapters included in this volume review our current understanding of important aspects of coronavirus biology and pathogenesis, including virushost interaction
11、s, and they give an overview of new strategies in the development of vaccines and antivirals suitable to combat coronavirus infections. I hope that this book will be useful to academic researchers and their students as well as clinicians with an interest in coronavirus-related diseases and the biolo
12、gy of these viruses. I thank all colleagues who contrib- uted to this book and would like to express my gratitude to Prof. Thomas Mettenleiter for his encouragement and Ms. Helene Kabes and her staff for guidance and help in the preparation of this volume. JOHNZIEBUHR Giessen, Germany August 2016 xivPreface
