Plant-parasitic nematodes are among the most destructive plant pathogens, causing enormous losses to agronomic crops worldwide. This book provides an up-to-date review of research related to two of the most important nematode pests, root-knot and cyst nematodes. Chapters cover early plant-nematode interactions, identification of nematode proteins important in the establishment of nematode feeding sites, and classification of biochemical and signaling pathways significant in the development of specialized feeding sites in the host. The cellular and subcellular structures essential for the parasitic interaction are examined by light and electron microscopy. Modern techniques of gene expression analyses and genomic sequencing are poised to provide an even greater wealth of information to researchers, enabling them to develop and examine natural and manmade mechanisms of resistance to this important plant pest.
| Plant Infection by Root-Knot Nematode |
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1 | |
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David McK. Bird, Charles H. Opperman, and Valerie M. Williamson |
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| Parasitism Genes: What They Reveal about Parasitism |
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15 | |
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Eric L. Davis, R.S. Hussey, and Thomas J. Baum |
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| Molecular Insights in the Susceptible Plant Response to Nematode Infection |
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45 | |
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Godelieve Gheysen and Melissa G. Mitchum |
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| Resistant Plant Responses |
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83 | |
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Anna Tomczak, Kamila Koropacka, Geert Smant, Aska Goverse, and Erin Bakker |
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| Development of the Root-Knot Nematode Feeding Cell |
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115 | |
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R. Howard Berg, Thomas Fester, and Christopher G. Taylor |
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| Structure of Cyst Nematode Feeding Sites |
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153 | |
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Miroslaw Sobczak and Wladyslaw Golinowski |
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| Transcriptomic Analysis of Nematode Infestation |
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189 | |
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Yuhong Li, Thomas Fester, and Christopher G. Taylor |
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| Genomic Analysis of the Root-Knot Nematode Genome |
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221 | |
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Charles H. Opperman, David McK. Bird, and Jennifer E. Schaff |
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| Molecular Approaches Toward Resistance to Plant-Parasitic Nematodes |
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239 | |
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| Index |
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269 | |
R. Howard Berg is Director of the Integrated Microscopy Facility at the Danforth Plant Science Center, St. Louis, Missouri. He earned his Ph.D. in Agronomy from the University of Florida (1977) and received postdoctoral training at the University of Florida and at Oregon State University. After several years managing the biological electron microscopy facility at the University of Florida, he joined the faculty at the University of Memphis, Tennessee, where he became an Associate Professor. He joined the Danforth Plant Science Center in 2000. His research interests include plant cell interactions with nitrogen-fixing endosymbionts, nematodes, and viruses.
Christopher G. Taylor studied Biochemistry (B.S., 1989) at Penn State University in State College, Pennsylvania followed by a Ph.D. in Genetics (1995) with an emphasis on gene expression in roots at North Carolina State University. In 1995, he worked as a Postdoctoral Fellow and Senior Scientist in Nematology at Monsanto Co. in St. Louis, Missouri. In 1999, he became a Senior Scientist and Group Leader of Nematology for Akkadix, Inc. in San Diego, California. From 2001 to the present, he has been a Principal Investigator at the Donald Danforth Plant Science Center in St. Louis, Missouri and Adjunct Assistant Professor at the University of Missouri Columbia and at the University of Missouri St. Louis. His major research interests include plant cell biology of root biotic interactions, nematology, microbiology, gene expression analysis and functional genomics.
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