Preface

Coronaviruses, such as severe acute respiratory syndrome-coronavirus (SARS-CoV) and Middle East respiratory syndrome-coronavirus (MERS-CoV), have posed significant public health threats in the last two decades. It has been revealed that bats act as natural reservoirs for these viruses, and periodic monitoring of coronaviruses in bats, dogs, civets, and other wild animals may thus provide important clues about emergent infectious viruses that transfer to humans. The Eastern bent-wing bat Miniopterus fuliginosus (M. fuliginosus) and genus Rhinolophus are distributed extensively throughout China and other countries. Therefore, there is a need to analyze the genetic diversity of coronaviruses transmitted to humans. The only coronavirus genus found was alphacoronavirus. The established alphacoronavirus genome sequences showed high similarity to other alphacoronaviruses found in other Miniopterus species and other animals. It suggests that their transmission in different Miniopterus species may provide opportunities for recombination with different alphacoronaviruses. The genetic information for these novel alphacoronaviruses will improve our understanding of the evolution and genetic diversity of coronaviruses, with potentially important implications for the transmission of human diseases. This virus is different from the previously isolated MERS-CoV and SARS-CoV, which are the seventh ones that can infect humans.

In Volume 1 of this book proposal, we consolidated the genetic diversity/mutation that occurred in 2002-12. Since both SARS-CoV and MERS-CoV are closest, the approaches discussed here will be similar and/or varying by a slight degree. In the last 18-19 years, this is the third outbreak of the same coronavirus with a slight mutation that shocked the whole world. This book should be prioritized as up-to-date literature on genetic mutations that have occurred in the form of SARS-CoV and MERS-CoV. It will act as a suitable reference if any such outbreak appears in the near future. Volume 1 of this proposed book proposal has been classified into two parts: Part I: Genetic Mutation of SARS-CoVand Part II: Genetic Mutation of MERS-CoV.

With the emergence of new coronavirus variants, different host tropism permits a thorough analysis of their genomic diversity/mutations that acquired adaptability to their host. Thus, in Part I, we start the book with chapters dealing with mutations in SARS-CoV, the host genetic diversity of SARS-CoV, newly emerging variants of SARS-CoV, the genetic architecture of host proteins involved in SARS-CoV, and the landscape of host genetic factors correlating with SARS-CoV. In Part II, a critical analysis of the MERS-CoV involves the potential to mutate its genome by opposite genetics and to get better recombinant viruses with described mutations. Such processes will assist in studying the capabilities of particular genes and their effects on virus survival and pathogenesis. These strategies can even help in determining host factors correlating with MERS-CoV genome growth and proliferation.

This book will appear as a baseline for scientists and health professionals to better understand the genetic diversity of SARS-CoV and MERS-CoV. However, this single book would not have succeeded without the enthusiasm and determination of publishers and investigators to take time from their hectic schedules and endow on time. We thank the scrutineers who contributed, directly and indirectly, to bring it to realism.