Food Safety: Past, Present, and Predictions offers a multidisciplinary approach on major food industry regulatory compliance changes that have emerged since the landmark 1993 E.coli outbreak. The book is broad in coverage, providing a look back at 25 years of change in order to better conceptualize the future of effective and sustainable food safety compliance efforts and technologies. Historical case studies and technological developments are written by experts and those who played key roles in events. Topics are explained in a way that not only helps improve industry and consumer awareness, but also offers tools to improve education and communication.

Corepressors are newly discovered assemblies of proteins that play essential roles in eukaryotic gene regulation. Recent discoveries about corepressors have provided new insights into the molecular basis of gene regulation, and have established surprising connections between the mechanisms of action of a wide variety of transcriptional regulators. The reviews in this volume critically discuss the nature, mechanisms of action, and physiological roles of corepressors in a diverse assortment of biological systems. Both basic and clinical investigators will be able to find relevant information. The comprehensive nature of the compilation, and the breadth of the reviews, are intended to provide the reader with an excellent introduction to the newly emergent and rapidly-growing field of corepressor research. A valuable and detailed reference guide.

This book guides through the fascinating world of viruses and makes readers enjoy science in an accessible way. Virologist and author Professor Van Wilson imparts knowledge about what viruses are, how they work, and how much they impact life on Earth. The book equips the reader with the scientific basics behind virus function and presents the historic milestones of virus research and discovery. Well-known viruses such as HIV or Influenza are tackled alongside novel pathogens like coronavirus SARS-CoV-2. Professor Wilson explores where they come from and how they impact our society. Last but not least the book provides exciting insights into how our immune system reacts to different viruses and how vaccines contribute to conquer pandemics. While scientifically informative, this book makes the field of virology understandable to a lay audience and encourages readers to further thinking. And more importantly, it conveys the wonder, beauty, and mystery of these ubiquitous, microscopic marvels. This book addresses anyone interested in understanding the principles of virology, viral diseases, or the impact of viruses on human societies.

This volume details applications in molecular biological techniques and focuses on applications to determine the involvement of glycans in virus interactions. Chapters guide readers through glycan analysis, glycan distribution analysis, glycan and lectin microarray, preparation of recombinant viral domain protein, reverse genetics and receptor binding, virus-host interactions and receptor binding, and sialidase: assays and inhibitors. Written in the successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible protocols, and notes on troubleshooting and avoiding known pitfalls. Authoritative and cutting-edge, Glycovirology: Methods and Protocols aims to be an essential resource for researchers who wish to learn more about glycovirology.

Both communicable and noncommunicable diseases of the respiratory system are an increasing healthcare problem despite medical advances. This book aims at unraveling the mechanisms and improving the treatment of pulmonary pathologies, ranging from such common conditions like influenza and related viral infections, functional lung dysfunction, to lung lesions and others. Chapters present late-breaking findings in the diagnostics, pharmacotherapy, and clinical evidence-based decision-making to provide results that can be used to improve healthcare and quality of life. Extending new knowledge and exploring recent medical advances, the book will hopefully help enrich research and clinical experience regarding important respiratory issues. The book is intended for general practitioners and all professionals engaged in the pulmonary field, from basic scientists to clinical investigators.

Antimicrobial Resistance in Agriculture: Perspective, Policy and Mitigation is a valuable industrial resource that addresses complex, multi-factorial topics regarding farm, wild, companion animals, fish, and how the environment plays an important role in amplification and transmission of resistant bugs into the human food chain. Information of phenotypical and genotypical properties of each bacterial genus associated with antimicrobial resistance, transmission dynamics from different reservoirs (food animals, poultry, fishes) and control measures with alternative therapy, such as phytobiotics and nanomaterials are provided. Researchers, scientists and practitioners will find this an essential resource on the judicial use of antibiotics in animals and humans.

A follow-up to Emerging Issues and Controversies in Infectious Diseases, this volume provides a comprehensive review of topical issues in infectious diseases, highlighting the controversies related to the newest findings and recommendations. Coverage includes trends and debates in HIV research, community-acquired pneumonia, H. pylori, progress in Hepatitis C treatment paired with the lack of progress on Hepatitis B, and the effects of climate change on infectious disease epidemiology, among others. This is an essential resource for practicing and academic physicians, investigators, residents, and fellows focused on infectious diseases, infection control, public health, and global health.

Virus Entry, Volume 104, the latest release in the Advances in Virus Research series, highlights new advances in the field, with this new volume presenting interesting chapters on plant virus cell-to-cell entry, plant virus entry via insect transmission, VSV/Rabies virus entry, Papovavirus entry, New approaches to study fusion proteins, Hantavirus receptors, Gamma Herpesvirus entry, and many other interesting topics.

This book offers a much-needed discussion on the targeting of biofilm-related infections. Chapters include discussions on the impact of biofilm on medical implants, industrial applications, as well as wound and tissue infections. It also offers discussions on regulatory management for industrial sectors and medical environments. Given that there continues to be a paucity of effective antimicrobial products, devices, and coatings in clinical and industrial use that effectively reduce rates of infection or biofilm-related problems, Targeting Biofilms in Translational Research, Device Development, and Industrial Sectors, offers a fresh and much-needed perspective aimed at helping create healthier controlled environments and safer devices. This comprehensive book is indispensable for industrial and academic translational researchers, device developers, and regulatory experts looking to create more effective antimicrobial products.

This books comprises of 24 chapters by experts from developed and developing countries. The book cover Argentina, Australia, Bangladesh, Brazil, Canada, Fiji, France, India, Indonesia, Italy, Japan, Malaysia, Mexico, Papua New Guinea, South Africa, Taiwan, Thailand, the UK and England, USA, West Africa, and Zambia. FOREWORD by David J. Hunter, Emeritus Professor, Newcastle University, the UK.

This volume details the most updated concepts and experimental protocols developed by leading researchers in the field. Chapters guide readers through methods on bioinformatics tools, hepatitis c virus(HCV) cloning, culture, and purification, HCV life cycle, host immune responses, and small animal models. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and cutting-edge, Hepatitis C Virus Protocols aims to ensure successful results in the further study of this vital field.

Three members of the genus Yersinia are important human pathogens, causing diseases ranging from the deadly plague to relatively mild gastroenteritis. In this book, leading Yersinia researchers review the hot topics in the systems biology and control of these important bacteria.

Three times in the last century, influenza viruses have undergone major genetic changes resulting in global pandemics that had devastating effects. The most infamous pandemic was the "Spanish Flu" which affected up to 25% of the world population and is thought to have killed at least 40 million people. In 1997 and 2003, a new influenza A virus of H5N1 subtype emerged in Asia and was transmitted directly from birds to humans with lethal outcomes. Despite monumental efforts to contain them, the H5N1 viruses expanded their territory and caused a major outbreak in wild waterfowl in China in 2005. Despite extensive, coordinated efforts by various agencies and disciplines, both national and international, we are ill-equipped for a new influenza pandemic. In fact, it is highly unlikely that adequate supplies of vaccine for the H5N1 viruses will be prepared prior to the occurrence of the next pandemic. To combat the outbreaks that will undoubtedly occur in the near future, a better understandi

This second edition updates the reader on the most common intrauterine transmitted viral infection, CMV. The history of this disease, its pathophysiological background, epidemiology and symptoms, as well as diagnostic and therapeutic strategies, will be discussed in detail. Further a section specifically dedicated to prevention measures is included to the new edition. The chapter on virus-host interaction for defense and transmission is elaborately updated.

The chapters in this topical volume of Advances in Microbiology, Infectious Diseases and Public Health present exciting, insightful observations on emerging viral infections like influenza, Middle East respiratory syndrome, or mosquito-transmitted diseases, as well as the potential of social media in preventing and fighting infectious diseases. This rapidly developing field of study, which involves interdisciplinary and challenging research conducted in both industrialized and limited-resource countries, can yield vital information for the life and social sciences, for public health, and for healthcare in general. The aim of this volume is to contribute to the development of knowledge on emerging infections in the endless struggle between viruses and man. The chapters selected are not intended as a systematic collection of all emerging infections, but instead highlight recent discoveries and provide insights on today's hot topics. The book offers a valuable resource for all scientists working in the field of emerging viral infections and possible vaccines, as well as for laboratory and medical staff whose work involves preventing, controlling and combatting infectious diseases.

Apoptosis is a regulated, energy-dependent process by which a cell se- destructs. This mechanism of programmed cell death plays an important role in normal development and control of cell numbers in mature a- mals. Apoptosis was initially defined by morphological criteria to describe the distinctive appearance of dying cells that developed nuclear conden- tion, cell shrinkage, and cytoplasmic blebbing. Initiation of the apoptotic process can come from external or internal stimuli and is highly regulated both by molecules that facilitate and by molecules that inhibit the process. Common features of apoptosis include activation of proteases and - cleases, mitochondrial membrane permeabilization, chromatin disruption, and translocation of phosphatidylserine from the inner to the outer s- face of the plasma membrane. Apoptotic cells attract phagocytes that - gulf the apoptotic bodies and prevent tissue damage in the region. Intense investigation of the cell death process has defined many molecular features of the pathway by which regulation and execution can be exploited by pathogens.

Leading researchers are specially invited to provide a complete understanding of a key topic within the multidisciplinary fields of physiology, biochemistry and pharmacology. In a form immediately useful to scientists, this periodical aims to filter, highlight and review the latest developments in these rapidly advancing fields.

This volume provides a compilation of methods that will aid researchers studying virology, immunology, and vaccinology of this devastating disease of swine. Written in the format of the highly successful Methods in Molecular Biology series, each chapter includes an introduction to the topic, lists necessary materials and reagents, includes tips on troubleshooting and known pitfalls, and step-by-step, readily reproducible protocols. Authoritative and cutting-edge, African Swine Fever Virus: Methods and Protocols aims to be a foundation for future studies and to be a source of inspiration for new investigations in the field.

With the exception of a few tropical medicine schools worldwide, current medical education programs include almost zero discussion of the interface between infectious diseases and entomology. That is why this book was initially published in the first edition almost 17 years ago. The third edition of this valuable infectious disease entomology book updates all existing chapters with the newest scientific developments described in the medical and entomological literature in addition to covering 10 entirely new topics not addressed in previous editions, which include: * arthropod identification controversies * early beginnings of public health and disease control * red-meat allergy * updates on vaccine development for dengue and malaria * discussion of Chikungunya and Zika viruses * American Boutonnneuse Fever * the newest controversies in Lyme disease * recent findings of viruses in ticks * bed bug bite reactions * Morgellons disease (an imaginary infectious disease)

This volume describes the most common laboratory procedures for isolation, identification and characterization of polioviruses used in clinical and research laboratories. Written for the Methods in Molecular Biology series, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and practical, Poliovirus: Methods and Protocols aims to ensure successful results in the further study of this vital field.

This book explores the many mechanisms by which the most prevalent Spirochetal pathogens persist in a healthy immune-competent host. Among them are the direct and indirect suppression of host immune signals, phase and antigenic variation, escaping recognition by host complement proteins, and seclusion into immune privileged sites. We also explore antibiotic therapy for control of infection, a baffling topic that lends itself to exalted interpretation.

This book highlights treatment strategies for bacterial biofilms in connection with a variety of human diseases. In particular, it reviews bacterial biofilm formation and its mechanism. Topics covered include biofilms in human health, the role of biofilms in mediating human diseases, and methods for testing bacterial biofilms. Further sections concentrate on biofilm-mediated diseases in different parts of the human gastrointestinal tract, while therapeutic strategies for biofilm control and natural agents that disrupt bacterial biofilms are also covered. Readers will also find the latest advances in probiotics and biofilms, as well as the use of probiotics to counteract biofilm-associated infections. Biofilms and antimicrobial resistance are discussed. Subsequent chapters address the management of inflammatory bowel disease via probiotics biofilms, as well as the role of probiotics bacteria in the treatment of human diseases associated with bacterial biofilms. The book is chiefly intended for clinicians/scientists in the fields of medical microbiology, applied microbiology, biochemistry, and biotechnology.

In this issue, guest editors bring their considerable expertise to this important topic. Provides in-depth reviews on the latest updates in the field, providing actionable insights for clinical practice. Presents the latest information on this timely, focused topic under the leadership of experienced editors in the field. Authors synthesize

DNA Methods in Clinical Microbiology describes the novel DNA-based technology now used in the diagnosis and management of infectious diseases. It is a concise, yet readable, overview written primarily for clinicians, clinical microbiologists, medical students and undergraduates in medical and veterinary microbiology. The book has two primary aims. First, to explain the principles of these methods at the molecular' level. Second, to provide a clinical perspective by reporting results from actual DNA-based investigations on a range of specimens. Those approaching DNA methods for the first time are assisted by a brief rA(c)sumA(c) of the relevant features of nucleic acids (Chapter 2): this information is essential for an understanding of later chapters. Subsequent text covers detection, characterization and quantification of pathogens by a variety of methods - e.g., target amplification (PCR, LCR, NASBA, TMA and SDA), signal amplification (bDNA) and probe-based techniques; the chapter on typing describes nearly twenty named molecular methods, including spoligotyping and MLST. All chapters include an adequate range of current reference from which, if required, detailed protocols can be obtained. The diagrams are clear, and readers are assisted by a detailed index.