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Salmonella Infections
Salmonella enterica encompasses a diverse range of bacteria that cause a spectrum of diseases in many hosts. Advancements in prevention and treatment of S. enterica infections have at times been hampered by compartmentalization of research efforts and lack of multidisciplinary approaches. This book attempts to cover a diverse range of topics related to the biology of S. enterica infections, including epidemiological and clinical aspects, molecular pathogenesis, immunity to disease and vaccines. S. enterica infections are important zoonoses and therefore material on infections of animals and public health issues have also been considered. Each chapter can be read independently, but the full contents of the book will provide the reader with up-to-date knowledge on all the key aspects of salmonellosis in humans and animals. It will therefore be of interest to graduate students and researchers, as well as to clinicians, whose research focuses on this important pathogen.
Proceedings of 46th World Congress on Microbiology 2017
September 18-19, 2017 Dublin, Ireland Key Topics : Emerging Techniques in Bacteriology, Advances of Techniques in Virology, Innovations in Veterinary Microbiology, Enumeration of Environmental Microbiology, Improvements in Agricultural Microbiology, Flora in Soil & Water Microbiology, Futuristic Innovations in Industrial & Food Microbiology, Pure Microbiology & Microbes World, Melioration in Mycology & Phycology, Nematology & Proto-Zoology, Advances in Medical Parasitology, Microbial Identification & Physiology, Breakthrough Approaches in Medical & Molecular Microbiology, Microbial Immunology & Infection Control, Current Trends in Microbiology, Vaccines & Anti-Microbials,
Computing for Biologists
Computing is revolutionizing the practice of biology. This book, which assumes no prior computing experience, provides students with the tools to write their own Python programs and to understand fundamental concepts in computational biology and bioinformatics. Each major part of the book begins with a compelling biological question, followed by the algorithmic ideas and programming tools necessary to explore it: the origins of pathogenicity are examined using gene finding, the evolutionary history of sex determination systems is studied using sequence alignment, and the origin of modern humans is addressed using phylogenetic methods. In addition to providing general programming skills, this book explores the design of efficient algorithms, simulation, NP-hardness, and the maximum likelihood method, among other key concepts and methods. Easy-to-read and designed to equip students with the skills to write programs for solving a range of biological problems, the book is accompanied by numerous programming exercises, available at www.cs.hmc.edu/CFB.
Biology of Salmonella
Salmonella infections of man and animals continue to be a distressing health problem worldwide. Far from disappearing, the incidence of typhoid fever in developing countries may be far higher than we had imagined. Salmonella food poisoning has increased to one of the major causes of gastroenteritis in the developed world, in itself also an indication that animal salmonellosis is still a major cause for concern. The situation requires a concerted multidisciplinary research effort in order to generate the new information and technology needed to assist in the control of these diseases. This concept was the driving force behind the NATO Advanced Research Workshop on "Biology of Salmonella" held...
Susceptibility to Infectious Diseases
In the last ten years, substantial progress has been made in identifying why some people are particularly susceptible to specific infectious diseases. Extensive evidence has now accumulated that host genes are important determinants of the outcome of infection for many common pathogens. This book, written by leading authorities, summarises the advances which have been made in understanding the complexity of host genetic susceptibility. The diseases covered include those of great public health inportance such as malaria and HIV, and those of current topical interest such as Creutzfeldt-Jakob disease.
Bacterial Cell-to-Cell Communication
Many bacterial diseases are caused by organisms growing together as communities or biofilms. These microorganisms have the capacity to coordinately regulate specific sets of genes by sensing and communicating amongst themselves utilizing a variety of signals. This book examines the mechanisms of quorum sensing and cell-to-cell communication in bacteria and the roles that these processes play in regulating virulence, bacterial interactions with host tissues, and microbial development. Recent studies suggest that microbial cell-to-cell communication plays an important role in the pathogenesis of a variety of disease processes. Furthermore, some bacterial signal molecules may possess immunomodulatory activity. Thus, understanding the mechanisms and outcomes of bacterial cell-to-cell communication has important implications for appreciating host-pathogen interactions and ultimately may provide new targets for antimicrobial therapies that block or interfere with these communication networks.
The Dynamic Bacterial Genome
The genetic information contained in DNA is not static, especially in bacterial DNA. It is capable of recombining with other DNA sequences and transferring to other bacteria. These processes allow bacteria to rapidly respond to their environment and are also important in production of disease and the spread of antibiotic resistance. This book is concerned with the mechanisms underlying these dynamic processes in bacterial DNA.
Bacterial Protein Toxins
Bacterial toxins that act inside cells interact very specifically with key components of the cell and some even manipulate the cell in subtle ways for their own purposes. These potent toxins, described in this 2005 book, will be of interest to both microbiologists and cell biologists. Some of these toxins are conventional multidomain toxins that are self-programmed to enter cells. Others are delivered by type III mechanisms, often as a package of potent molecules. The molecular targets for all these toxins mediate signal transduction and the cell cycle to regulate the crucial processes of cell growth, cell division and differentiation. Thus these potent toxins are not only responsible for disease, but also provide a powerful set of tools with which to interrogate the biology of the cell. In addition such toxins may act directly to promote carcinogenesis and hence their study is also of interest in a wider context.
Mammalian Host Defense Peptides
Cationic antimicrobial peptides are multifunctional peptides of the innate immune system, which not only act directly against microorganisms, but also signal between early and late immune responses and modulate inflammatory reposnes. The significance of these host defence peptides in combating infection and in host-microbe homeostasis has become increasingly clear, through advances made by microbiologists, biochemists, biophysicists, immunologists, molecular biologists, and a range of medical and pharmaceutical researchers. This book, drawing together contributions from leading scientists, reviews significant recent advances in our knowledge of mammalian antimicrobial peptides. In addition to providing up-to-date overviews of their structure, expression and biology, their multiple activities and interactions with microbial populations as well as their potential application as novel therapeutic agents are summarized. Chapters describing developments using animal models and investigations of the roles of these host defence peptides in microbial infections are complemented by chapters addressing their mechanisms of action and of microbial resistance.
