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A unique, rigorous scientific approach to understanding bacterial genetics • Provides a complete overview of the entire field of bacterial genetics, helping the reader to understand how the field has evolved. • Inspires readers by providing an opportunity to learn from John Roth’s achievements and contributions to bacterial genetics. • Offers valuable lessons in the history and science of bacterial genetics by providing a behind the scenes look at some of the most important triumphs and mishaps that have occurred on the path to discovery.
Prokaryotic Genomics provides molecular microbiologists in particular and researchers working with bacteria in general with the most important established recipes needed for their work. The volume covers both revisited classical methods and new tools for global analysis such as genomics or proteomics. It is written for those in need of a bench manual to complete their experiments and for those wanting to understand the modern tools used in microbiology.
The Cellular Basis of Consciousness theory places the first appearance of sentience at the emergence of life. It makes the radical, and previously unexplored, claim that prokaryotes, like bacteria, possess a primitive form of consciousness. The implications of the theory for the philosophy of mind, cell-biology, and cognitive neurosciences are explored.
All species, extant and extinct, from the simplest unicellular prokaryotes to humans, have an existential consciousness. Without sentience, the first cells that emerged some 4 billion years ago would have been evolutionary dead-ends, unable to survive in the chaotic, dangerous environment in which life first appeared and evolved. In this book, Arthur Reber's theory, the Cellular Basis of Consciousness (CBC), is outlined and distinguished from those models that argue that minds could be instantiated on artificial entities and those that maintain consciousness requires a nervous system. The CBC framework takes a novel approach to classic topics such as the origin-of-life, philosophy of mind, t...
This book presents epigenetics research as a new way of looking at genetics. Topics range from basic epigenetics mechanisms to development of cells and organisms and the biological basis of diseases. In addition the book focuses on immunology and the role of viruses in epigenetics. The last part of the book highlights proteins and peptides as epigenetic modulators.
The present volume of Epigenetics and Human Health is devoted to the patho-epigenetics of viral and microbial infections, an exiting new field of disease-related epigenetic research. As recognized during the past years, epigenetic reprogramming of pathogen and host genome functions – the latter frequently induced by pathogens – plays an important role in many infectious processes. Beyond their immediate relevance for pathogen proliferation and obligatorily associated symptoms, such alterations frequently contribute to severe additional complications, such as the development of immunodeficiency, cancer and various chronic disorders. This holds in particular for epigenetic dysregulation of host gene expression induced by latent infections. The present book summarizes current knowledge of the mechanisms underlying epigenetic changes caused by viral, bacterial, fungal and protozoan infections and their impact on human health.
DNA methyltransferases are important enzymes in a broad range of organisms. Dysfunction of DNA methyltransferases in humans leads to many severe diseases, including cancer. This book focuses on the biochemical properties of these enzymes, describing their structures and mechanisms in bacteria, humans and other species, including plants, and also explains the biological processes of reading of DNA methylation and DNA demethylation. It covers many emerging aspects of the biological roles of DNA methylation functioning as an essential epigenetic mark and describes the role of DNA methylation in diseases. Moreover, the book explains modern technologies, like targeted rewriting of DNA methylation by designed DNA methyltransferases, as well as technological applications of DNA methyltransferases in DNA labelling. Finally, the book summarizes recent methods for the analysis of DNA methylation in human DNA. Overall, this book represents a comprehensive state-of-the-art- work and is a must-have for advanced researchers in the field of DNA methylation and epigenetics.
Professor Max Delbrück was a charismatic scientist, and winner of the Nobel Prize in Physiology or Medicine in 1969, who gathered around him numerous students, colleagues and friends to explore modern quantitative approaches to biology. This small book is a collection of personal reminiscences given at a Centennial Celebration of his birth at the University of Salamanca, Spain, in October 2006 by those who primarily joined Max in a search for understanding sensory transduction. Included among the twenty-three chapters and three appendices are several chapters by persons unable to attend as well as some talks presented at other centenary celebrations for Max. In addition three of Max and Man...
The book brings a completely different perspective than available books by combining the information gained from the human genome with that derived from parallel metagenomic studies, and new results from investigating the effects of these microbes on the host immune system. Although there are a number of books that focus on the human genome that are currently available, there are no books that bring to the forefront the mix of the human genome and the genomes and metagenomes of the microbial species that live within and on us.
The book will cover the most important zoonoses with a public health impact and debate actual developments in this field from a One Health perspective. The outline of the book follows a “setting” approach, i.e. special settings of zoonoses with a public health aspect, rather than presenting a simple textbook of an encyclopedic character. Main chapters will deal with zoonoses in the food chain including a special focus on the emerging issue of antibiotic resistance, with zoonoses in domestic and pet animals, in wildlife animal species (including bats as an important infectious agent multiplier), influenza and tuberculosis as most prominent zoonoses, and zoonotic pathogens as bioterroristic agents. Special interest chapters debate non-resolved and currently hotly debated zoonoses (e.g. M. Crohn/paratuberculosis, chronic botulism) as well as the economic and ecological aspects of zoonoses.