Plants parasitic nematodes/
edited by Bert M.Zuckerman
- Amsterdam: Elesvier, 2013.
- 508 p.
BIOCHEMISTRY, CYTOCHEMISTRY, AND GENETICS 1. Potential Use of Protein Patterns and DNA Nucleotide Sequences in Nematode Taxonomy E. G. Platzer I. Principles of Molecular Taxonomy 3 11. Proteins as Taxonomic Criteria 5 III. DNA as Taxonomic Criteria 15 IV. Conclusions 19 References 19 2. The Gene for Gene Relationship and Its Significance for Potato Cyst Nematodes and Their Solanaceous Hosts EG. W. Jones, D. M. Parrott, and J. N. Perry I. Introduction II. Feeding and the Feeding Site 24 III. Genetic Consequences of Mode of Feeding IV. The Gene-for-Gene Relationship V. Heterozygosity in Populations VI. Nature of Resistance VII. General Effects of Major Genes 31 IX. Modeling the Effects of Selection VIII. Function of N Genes Vi CONTENTS 3. Sex Determination in Nematodes Paul Goldstein I. Introduction 37 II. Nematodes with Sex Chromosomes 40 III. Nematodes without Sex Chromosomes 49 References 59 4. Genetics of Plant Nematode Interactions Gunnel S. Sldhu and John M. Webster I. Introduction 61 II. Physiological Specialization 62 III. Genetics of Host-Parasite Relationships 64 IV. Coevolution 76 V. Breeding for Resistance 79 VI. Conclusions 82 References 83 5. Electron Microscope Histochemistry Michael A. Mcclure I. Introduction 89 II. Physical Methods 90 III. Cytochemical Methods 98 IV. Electron Microscope Autoradiography 116 References 121 MORPHOLOGY AND FUNCTION 6. Sensory Structures A. Coomans andA. De Grisse I. Introduction 127 II. Morphology 127 III. Function 167 CONTENTS vii IV. Conclusions 171 References 172 7. Scanning Electron Microscopic Techniques and Applications for Use in Nematology William P. Wergin