This text covers all aspects of the immunology of fungal infection. Beyond the basics, coverage includes recent developments in innate and adaptive immunological mechanisms involved in the host response to fungal infection. The volume’s topical sections provide an immunological perspective on the cells, soluble factors and receptors involved in recognising and combating fungal infections. Discussion includes descriptions of immunity to specific pathogens, immune-escape mechanisms used by fungi, and therapeutic strategies.
This is a concise guide to the combined use of classical and molecular methods for the genetic analysis and breeding of fungi. It presents basic concepts and experimental designs, and demonstrates the power of fungal genetics for applied research in biotechnology and phytopathology. Case studies of Saccharomyces cerevisiae, Candida albicans, Aspergillus niger, Neurospora crassa, Podospora anserina, Phytophthora infestans and others are included.
The underlying mechanisms of Candida and candidiasis and promising new directions in drug discovery and treatment. • Reviews all aspects of this common fungal pathogen and its impact on human health, from the basic biology of Candida albicans to the clinical management of candidiasis. • Reviews the latest basic and clinical research, focusing on findings in genome variability, host-pathogen interactions, antifungal resistance and drug discovery, and diagnostics to foster better understanding and treatment of candidiasis. • Examines recent discoveries that have shed light on morphogenesis and the cell cycle, including how new findings on host responses may have applications for the diagnosis of blood-borne candidiasis.
The Oxford Textbook of Medical Mycology is a comprehensive reference text which brings together the science and medicine of human fungal disease. Written by a leading group of international authors to bring a global expertise, it is divided into sections that deal with the principles of mycology, the organisms, a systems based approach to management, fungal disease in specific patient groups, diagnosis, and treatment. The detailed clinical chapters take account of recent international guidelines on the management of fungal disease. With chapters covering recent developments in taxonomy, fungal genetics and other 'omics', epidemiology, pathogenesis, and immunology, this textbook is well suited to aid both scientists and clinicians. The extensive illustrations, tables, and in-depth coverage of topics, including discussion of the non-infective aspects of allergic and toxin mediated fungal disease, are designed to aid the understanding of mechanisms and pathology, and extend the usual approach to fungal disease. This textbook is essential reading for microbiologists, research scientists, infectious diseases clinicians, respiratory physicians, and those managing immunocompromised patients. Part of the Oxford Textbook in Infectious Disease and Microbiology series, it is also a useful companion text for students and trainees looking to supplement mycology courses and microbiology training.
The objective of this volume is to provide a preliminary data base for Candida albicans plus serve as a reference for the genetic methods now available for the manipulation of several species in the genus Candida. This comprehensive review focuses primarily on C. albicans and includes reference data on the types and complementation status of mutations isolated in C. albicans, preliminary recombination mapping, chromosome analysis, physical measurements of DNA content and complexity, mitochondrial genome mapping, and analyses of restriction fragment length polymorphisms. It discusses a variety of genetic techniques in relation to current research questions aimed at virulence factors, dimorphism, and the potential use of Candida strains in biotechnology processes. This up-to-date publication is an indispensable resource for everyone who is involved with microbiology, genetics, and molecular and cellular biology.
This volume introduces software used for gene prediction with focus on eukaryotic genomes. The chapters in this book describe software and web server usage as applied in common use-cases, and explain ways to simplify re-annotation of long available genome assemblies. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary computational requirements, step-by-step, readily reproducible computational protocols, and tips on troubleshooting and avoiding known pitfalls. Cutting-edge and thorough, Gene Prediction: Methods and Protocols is a valuable resource for researchers and research groups working on the assembly and annotation of single species or small groups of species. Chapter 3 is available open access under a CC BY 4.0 license via link.springer.com.
Fungi: Biology and Applications, Second Edition provides a comprehensive treatment of fungi, covering biochemistry, genetics and the medical and economic significance of these organisms at introductory level. With no prior knowledge of the subject assumed, the opening chapters offer a broad overview of the basics of fungal biology, in particular the physiology and genetics of fungi and also a new chapter on the application of genomics to fungi. Later chapters move on to include more detailed coverage of topics such as antibiotic and chemical commodities from fungi, new chapters on biotechnological use of fungal enzymes and fungal proteomics, and fungal diseases of humans, antifungal agents for use in human therapy and fungal pathogens of plants.
I belie ve that the book would provide an overview of the recent developments in the domain of yeast research with some new ideas, which could serve as an inspiration and challenge for researchers in this field. Ne w Delhi Prof. Asis Datta Dec. 24, 2007 F ormer Vice-chancellor, JNU Director, NCPGR (New Delhi) Pr eface Yeasts are eukaryotic unicellular microfungi that are widely distributed in the natural environments. Although yeasts are not as ubiquitous as bacteria in the na- ral environments, they have been isolated from terrestrial, aquatic and atmospheric environments. Yeast communities have been found in association with plants, a- mals and insects. Several species of yeasts have also been isolated from specialized or extreme environments like those with low water potential (e. g. high sugar/salt concentrations), low temperature (e. g. yeasts isolated from Antarctica), and low oxygen availability (e. g. intestinal tracts of animals). Around 1500 species of yeasts belonging to over 100 genera have been described so far. It is estimated that only 1% of the extant yeasts on earth have been described till date. Therefore, global efforts are underway to recover new yeast species from a variety of normal and extreme environments. Yeasts play an important role in food chains, and carbon, nitrogen and sulphur cycles. Yeasts can be genetically manipulated by hybridization, mutation, rare m- ing, cytoduction, spheroplast fusion, single chromosomal transfer and transfor- tion using recombinant technology. Yeasts (e. g.
A genetic predisposition is a genetic effect which influences the phenotype of an organism but which can be modified by the environmental conditions. Genetic testing is able to identify individuals who are genetically predisposed to certain health problems such as cancer or other life altering diseases. This book discusses the determination of the genetic basis of health problems that will help the precise mechanisms of health problem such as a disease or physical disorder.
