Applied Molecular Genetics of Fungi

This book highlights the ways in which fungal recombinant DNA technology is being used in species of economic importance.

J. F. Peberdy (Edited by), C. E. Caten (Edited by), Jill E. Ogden (Edited by), J. W. Bennett (Edited by)

9780521415712, Cambridge University Press

Hardback, published 31 October 1991

200 pages, 34 b/w illus.
23.7 x 15.7 x 1.5 cm, 0.474 kg

"It may sound like an oxymoron, but gene transfer technology still has its major applications in basic research. For example, it can be used to identify pathogenicity genes in phytopathogenic fungi (Oliver et al.)...Overall, the chapters are well referenced and the book is well produced. It will serve as a useful point of departure to anyone contemplating novel applications of gene transfer technology, particularly in the less-studied fungi." Durgadas P. Kasbekar, The Quarterly Review of Biology

The interactions of fungi with mankind are both beneficial and harmful and are deeply rooted in the history of human society and agriculture. Over the centuries humans have sought to manipulate the growth of fungi to their advantage; the methods used, though largely empirical, have often been highly successful. Since the initial development of recombinant DNA technology in bacteria in the early 1970s, biology has been undergoing a molecular revolution which is spreading to all organisms, including fungi. The approach and techniques of molecular biology enable us to ask and answer fundamental questions about many aspects of fungal biology, and open the way to the directed manipulation of fungal metabolism. This book highlights the rapid development of gene transfer and cloning techniques in fungi and the ways in which these are being exploited in species of economic importance either in biotechnology or as plant pathogens.

Contributors
Preface
1. Gene-transfer systems and vector development for filamentous fungi C. A. M. J. J. van den Hondel and P. J. Hunt
2. Strategies for cloning genes from filamentous fungi G. Turner
3. Novel methods of DNA transfer J. W. Watts and N. J. Stacey
4. Saccharomyces cerevisiae: a host for the production of foreign proteins J. E. Ogden
5. The molecular biology of Trichoderma reesei and its application to biotechnology M. Pentilä, T. T. Teeri, H. Nevalainen and J. K. C. Knowles
6. Expression of heterologous genes in filamentous fungi R. W. Davies
7. Methylotrophic yeasts as gene expression systems R. A. Veale and P. E. Sudbery
8. Strain improvement of brewing yeast E. Hinchliffe
9. Identification of the Cephalosporium acremonium pbcAB gene using predictions from an evolutionary hypothesis P. L. Skatrud, J. Hoskins, M. B. Tobin, J. R. Miller, J. S. Wood, S. Kovacevic and S. W. Queener
10. Applications of genetically manipulated yeasts A. W. M. Strasser, Z. A. Janowicz, R. O. Roggenkamp, U. Dahlems, U. Weydemann, A. Merckelbach, G. Gellissen, R. J. Dohmen, M. Piontek, K. Melber and C. P. Hollenberg
11. Molecular biology of fungal plant pathogenicity R. P. Oliver, M. L. Farman, N. J. Talbot and M. T. McHale
Index.

Subject Areas: Mycology, fungi [non-medical PSQ]