Fungi Experimental Methods In Biology

About this book

Fungi are now at the forefront of research on mechanisms in gene silencing, biological rhythm, mating processes, biogenesis of intracellular organelles, adaptations to hostile habitats, structure of natural populations, and speciation. Because of their small genomes, fungi are being used in "systems biology" to understand the connections between genes, proteins, and metabolic and signaling pathways. The ease with which yeasts and fungi can be cultivated in simple nutritive media has also made these eukaryotic organisms the choice material for basic and applied research.

Fungi: Experimental Methods In Biology, Second Edition presents the latest information on fungal biology generated through advances in genetics, molecular biology, and biochemistry. It gives an account of real experiments that have been carried out on the diverse lifestyles of these organisms. Following in the footsteps of its highly-praised predecessor, Fungi: Experimental Methods In Biology continues to be a comprehensive review of the state of our knowledge about how fungi function.

New to this edition:
- New chapters on spores' dormancy, germination, and uses; fungi as scavengers; and fungi as chemical factories
- All chapters substantially revised, updated, and rewritten, in particular The Hyphal Mode of Life, Fungi as Symbiotic Partners, and Fungi as Plant Pathogens
- New material on the use of yeast for functional analysis of genomes; the use of Neurospora in cytogenetics and genes controlling conidiation; and the identification of the clock gene
- A new glossary to reinforce important concepts

Contents

The Unique Features of Fungi
- The Hyphal Mode of Life
- The Multinuclear Condition
- Spores: Their Dormancy, Germination, and Uses

Fungi in Biosphere and Human Health
- Fungi as Scavengers
- Fungi as Symbiotic Partners
- Fungi as Plant Pathogens
- Fungi as Chemical Factories

Gene Silencing
- Transformation and Discovery of Gene-Silencing Phenomena

Model Organisms
- Yeast: A Unicellular Paradigm for Complex Biological Processes
- Neurospora: A Gateway to Biology
- Aspergillus nidulans: A Model for Study of Form and Asexual Reproduction
- Ustilago maydis and Other Fungi as Models of Sexual Reproduction

Adaptations
- Photoresponses and Circadian Rhythm
- Thermophilic Fungi: Eukaryotic Life at High Temperature

Populations
- Species-Their Diversity and Populations
- Senescence

A Glossary of Mycological and Interdisciplinary Terms
Appendix: Naming, Defining, and Broadly Classifying Fungi
Index

Customer Reviews

Biography

Ramesh Maheshwari received his PhD degree from the University of Wisconsin-Madison. He did his postdoctoral work at the University of Michigan-Ann Arbor and at Stanford University, California. He has held academic appointment as a professor of biochemistry at the Indian Institute of Science in Bangalore. He is the author of Fungi: Experimental Methods in Biology and over 100 scientific papers on fungal and plant physiology. The thrust of his research over a span of 35 years was on the physiology and enzymes of thermophilic fungi and the genetics and ecology of Neurospora.