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Our understanding of bacterial genetics has progressed as the genomics field has advanced. Genetics and genomics complement and influence each other; they are inseparable. Under the novel insights from genetics and genomics, once-believed borders in biology start to fade: biological knowledge of the bacterial world is being viewed under a new light and concepts are being redefined. Species are difficult to delimit and relationships within and between groups of bacteria – the whole concept of a tree of life – is hotly debated when dealing with bacteria. The DNA within bacterial cells contains a variety of features and signals that influence the diversity of the microbial world. This text assumes readers have some knowledge of genetics and microbiology but acknowledges that it can be varied. Therefore, the book includes all of the information that readers need to know in order to understand the more advanced material in the book.
Understanding of bacterial genetics and genomics is fundamental to understanding bacteria and higher organisms, as well. Novel insights in the fields of genetics and genomics are challenging the once clear borders between the characteristics of bacteria and other life. Biological knowledge of the bacterial world is being viewed under a new light with input from genetic and genomics. Replication of bacterial circular and linear chromosomes, coupled (and uncoupled) transcription and translation, multiprotein systems that enhance survival, wide varieties of ways to control gene and protein expression, and a range of other features all influence the diversity of the microbial world. This text acknowledges that readers have varied knowledge of genetics and microbiology. Therefore, information is presented progressively, to enable all readers to understand the more advanced material in the book. This second edition of Bacterial Genetics and Genomics updates the information from the first edition with advances made over the past five years. This includes descriptions for 10 types of secretion systems, bacteria that can be seen with the naked eye, and differences between coupled transcription-translation and the uncoupled runaway transcription in bacteria. Topic updates include advances in bacteriophage therapy, biotechnology, and understanding bacterial evolution. Key Features Genetics, genomics, and bioinformatics integrated in one place Over 400 full-colour illustrations explain concepts and mechanisms throughout and are available to instructors for download A section dedicated to the application of genetics and genomics techniques, including a chapter devoted to laboratory techniques, which includes useful tips and recommendations for protocols, in addition to troubleshooting and alternative strategies Bulleted key points summarize each chapter Extensive self-study questions related to the chapter text and several discussion topics for study groups to explore further This book is extended and enhanced through a range of digital resources that include: Interactive online quizzes for each chapter Flashcards that allow the reader to test their understanding of key terms from the book Useful links for online resources associated with Chapters 16 and 17
Presenting the basic concepts and most exciting developments, this textbook provides an introduction to the molecular genetics of bacteria in a form suitable for the needs of students studying microbiology, biotechnology, molecular biology, biochemistry, genetics and related biomedical sciences.
Fundamental Bacterial Genetics presents a conciseintroduction to microbial genetics. The text focuses on onebacterial species, Escherichia coli, but draws examples fromother microbial systems at appropriate points to support thefundamental concepts of molecular genetics. A solid balance ofconcepts, techniques and applications makes this book anaccessible, essential introduction to the theory and practice offundamental microbial genetics. FYI boxes - feature key experiments that lead to what we nowknow, biographies of key scientists, comparisons with other speciesand more. Study questions - at the end of each chapter, review and teststudents' knowledge of key chapter concepts. Key references - included both at chapter end and in a fullreference list at the end of the book. Full Chapter on Genomics, Bioinformatics and Proteomics -includes coverage of functional genomics and microarrays. Dedicated website – animations, study resources, webresearch questions and illustrations downloadable for powerpointfiles provide students and instructors with an enhanced,interactive experience.
Brock (U. of Wisconsin) highlights and analyzes the experimental work that shaped and drove the field of bacterial genetics. Concentrating on the science rather than the personalities involved, he discusses key data from original sources, illustrating his analysis with unpublished material and conversations with surviving investigators. Annotation
Genetics of Bacterial Diversity focuses on the rapidly developing field of ""non-K-12"" bacterial genetics that is largely outside the scope of other texts. The book begins with an introductory chapter that outlines the phylogenetic relationships of bacteria and the range of metabolic, behavioral, and developmental phenomena displayed by them. Two chapters then review the genetic processes found in bacteria generally, and discuss a range of genetic techniques used to analyze the various special systems described in the body of the book, respectively. Subsequent chapters deal with various special metabolic capabilities characteristic of certain groups of bacteria (light production, photosynthesis, nitrogen fixation, antibiotic production, degradation of aromatic compounds and mercury resistance); developmental processes of cell-cycle associated motility, sporulation, and specialized colonial behavior; four components of bacterial pathogenicity for animals; and pathogenic and symbiotic interactions of bacteria with higher plants. The final chapter explains some of the concepts and the progress being made in the application of population genetics to bacteria. This book may be of interest to microbiologists wishing to catch up on the genetic basis of some of the classical phenomena of bacteriology, and geneticists unfamiliar with some of the things that bacteria can accomplish.