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Plant Nematode Interactions: A View on Compatible Interrelationships, Volume 73 [Kõva köide]

Volume editor (Faculty of Environmental Sciences and Biochemistry, Universidad de Castilla-la Mancha, Spain), Volume editor (Department of Environmental Sciences, Universidad de la Mancha, Spain)
  • Formaat: Hardback, 440 pages, kõrgus x laius: 229x152 mm, kaal: 610 g
  • Sari: Advances in Botanical Research
  • Ilmumisaeg: 25-Mar-2015
  • Kirjastus: Academic Press Inc
  • ISBN-10: 0124171613
  • ISBN-13: 9780124171619
Teised raamatud teemal:
Plant Nematode Interactions: A View on Compatible Interrelationships, Volume 73Suurem pilt
  • Formaat: Hardback, 440 pages, kõrgus x laius: 229x152 mm, kaal: 610 g
  • Sari: Advances in Botanical Research
  • Ilmumisaeg: 25-Mar-2015
  • Kirjastus: Academic Press Inc
  • ISBN-10: 0124171613
  • ISBN-13: 9780124171619
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9780124171619.html
Märksõnad:
Advances in Botanical Research publishes in-depth and up-to-date reviews on a wide range of topics in plant sciences. Currently in its 73rd volume, the series features several reviews by recognized experts on all aspects of plant genetics, biochemistry, cell biology, molecular biology, physiology and ecology. This thematic volume features reviews on molecular and developmental aspects of the compatible plant-nematode interaction. The contributors all actively work in the field of molecular genetics and genomics of plant parasitic nematodes and nematode feeding sites. Reviews focus on molecular and physiological aspects of nematode feeding site development and includes specific chapters on nematode effectors as well as plant responses.
  • Publishes in-depth and up-to-date reviews on a wide range of topics in plant sciences
  • This volume features reviews of the fast moving field of compatible interaction between plants and sedentary endo-parasitic nematodes
  • A strong focus on molecular and physiological aspects of nematode feeding site development and includes specific chapters on nematode effectors as well as plant responses

Arvustused

Praise for the Series: "A valuable addition to any college library as current reference material for advanced undergraduates, graduate students, and professional scientists." --Choice

Muu info

The 73rd volume of Advances in Botanical Research features a wide range of reviews by recognized experts on all aspects of plant genetics, biochemistry, cell biology, molecular biology, physiology and ecology.
Contributors xi
Preface xv
1 Overview of Root-Knot Nematodes and Giant Cells
1(32)
Carolina Escobar
Marta Barcala
Javier Cabrera
Carmen Fenoll
1 Introduction to Plant Parasitic Nematodes
2(3)
2 General Aspects of Root-Knot Nematodes (RKNs)
5(3)
3 The Morphology and Reproduction of RKNs
8(4)
4 The Life Cycle of RKNs
12(3)
5 Giant Cells (GCs): From Vascular Cells to Nourishing Cells
15(7)
6 Holistic Approaches to Tackle GCs Specific Gene Expression
22(1)
7 Conclusions
23(10)
Acknowledgements
24(1)
References
24(9)
2 Introductory
Chapter on the Basic Biology of Cyst Nematodes
33(28)
Holger Bohlmann
1 Introduction
34(1)
2 Morphology
35(4)
3 Hatching
39(5)
4 Host Finding and Penetration
44(1)
5 Induction of a Feeding Site
45(3)
6 Reproduction and Life Cycle
48(1)
7 Host Range
49(1)
8 Survival
50(1)
9 Plant Resistance against Cyst Nematodes
50(11)
References
53(8)
3 Cell Wall Alterations in Nematode-Infected Roots
61(30)
Krzysztof Wieczorek
1 Introduction
62(3)
2 Modifications of the Plant Cell Wall Caused by Cell Wall Modifying and Degrading Proteins Secreted during Migratory Phase by Plant-Parasitic Nematodes
65(5)
3 Structural Modification of the Cell Wall in Feeding Sites Induced by Plant-Parasitic Nematodes
70(4)
4 Cell Wall-Related Effectors Secreted by Plant-Parasitic Nematodes during Sedentary Phase of Nematode Parasitism
74(1)
5 Expression of Plant Genes Encoding Proteins Involved in Cell Wall Modification and Biosynthesis during Sedentary Phase of Nematode Parasitism
75(16)
References
84(7)
4 The Plant Cell Cycle Machinery: Usurped and Modulated by Plant-Parasitic Nematodes
91(28)
Janice de Almeida Engler
Paulo Vieira
Natalia Rodiuc
Maria Fatima Grossi de Sa
Gilbert Engler
1 The Plant Cell Cycle in Nematode Feeding Sites
92(3)
2 Genes Involved in the Endocycle are Critical for Plant-Parasitic NFS Establishment
95(2)
3 The Involvement of CKI during Gall Formation
97(3)
4 Understanding the Cell Cycle during Plant-Nematode Interactions Using Different Microscopy Approaches
100(12)
5 Conclusions and Perspectives
112(7)
Acknowledgements
113(1)
References
113(6)
5 Metabolism in Nematode Feeding Sites
119(20)
Shahid Siddique
Florian M.W. Grundler
1 Metabolism in NFSs
120(7)
2 Vascularization and Nutrient Delivery
127(4)
3 Amino Acid Metabolism in NFSs
131(2)
4 Conclusion and Perspective
133(6)
Acknowledgements
134(1)
References
134(5)
6 The Role of Lipid Signalling in Regulating Plant-Nematode Interactions
139(28)
Sigal Brown Miyara
Iberkleid lonit
Patricia Buki
Mike Kolomiets
1 Introduction
140(8)
2 The Role of Lipid Signals in Regulating Plant-Nematode Interaction
148(10)
3 Conclusions and Future Issues
158(9)
Acknowledgements
158(1)
References
158(9)
7 Developmental Pathways Mediated by Hormones in Nematode Feeding Sites
167(22)
Javier Cabrera
Fernando E. Diaz-Manzano
Carmen Fenoll
Carolina Escobar
1 Introduction
168(3)
2 Nematode Peptide Hormones as Interceptors of Plant Development to Form Feeding Sites
171(4)
3 Auxins, Lateral Root Formation and Feeding Sites
175(4)
4 Giant Cell Morphogenesis and Transfer Cell Nature
179(10)
Acknowledgements
181(1)
References
182(7)
8 Recent Advances in Understanding Plant--Nematode Interactions in Monocots
189(32)
Diana Fernandez
Anne-Sophie Petitot
Maira Grossi de Sa
Vu Phong Nguyen
Janice de Almeida Engler
Tina Kyndt
1 Introduction
190(2)
2 Monocotyledonous Plant-Nematode Systems: Biology and Genetics of Interactions
192(9)
3 Histological Descriptions of Roots during Nematode Development and Host Resistance Responses
201(4)
4 Transcriptomics of Monocotyledonous Plant Responses to Nematodes
205(6)
5 Nematode Effectors in Monocots-Nematode Interactions
211(1)
6 Conclusions
212(9)
References
213(8)
9 Gene Silencing in Nematode Feeding Sites
221(20)
Tarek Hewezi
Thomas J. Baum
1 Introduction
221(2)
2 Global Gene Downregulation in the Nematode Feeding Sites
223(1)
3 Influence of Various Components of Small RNA Pathways on Nematode Parasitism
224(2)
4 Key Regulatory Roles of miRNAs in Feeding Site Initiation and Formation
226(3)
5 Suppression of Nematode Genes Using Host-Induced Gene Silencing
229(3)
6 VIGS as a Tool for Functional Genomics of Plant-Nematode Interactions
232(2)
7 Conclusions and Perspectives
234(7)
Acknowledgements
235(1)
References
235(6)
10 Exploiting Solved Genomes of Plant-Parasitic Nematodes to Understand Parasitism
241(18)
David M. Bird
Valerie M. Williamson
Charles H. Opperman
1 Introduction
242(2)
2 The EST Epoc
244(2)
3 Whole PPN Genomes
246(2)
4 Comparative Genomics
248(2)
5 Diverse Reproductive Modes of PPN Impact Genome Analysis
250(2)
6 Integration of Genetics with Genomics for Phenotype-Based Identification of Parasitism Genes
252(7)
References
255(4)
11 Emerging Roles of Cyst Nematode Effectors in Exploiting Plant Cellular Processes
259(34)
Michael Gardner
Anju Verma
Melissa G. Mitchum
1 Introduction
260(1)
2 Augmentation of Plant Developmental Processes
261(9)
3 Modulation of Host Stress and Defence Responses
270(11)
4 Genome-Enabled Effector Discovery
281(12)
Acknowledgements
284(1)
References
284(9)
12 Function of Root-Knot Nematode Effectors and Their Targets in Plant Parasitism
293(32)
Nhat My Truong
Chinh-Nghia Nguyen
Pierre Abad
Michael Quentin
Bruno Favery
1 Introduction
294(1)
2 Compatible Interaction and Life Cycle
295(2)
3 Identification of Nematode-Secreted Effectors
297(11)
4 Functional Analyses of Effectors
308(10)
5 Conclusions
318(7)
Acknowledgements
319(1)
References
319(6)
13 Suppression of Plant Defences by Plant-Parasitic Nematodes
325(14)
Sophie Mantelin
Peter Thorpe
John T. Jones
1 Introduction
325(1)
2 Plant Defences
326(1)
3 Nematode Effectors
327(1)
4 Suppression of Plant Defences
328(4)
5 Hormone Signalling and Plant Defences
332(7)
Acknowledgements
334(1)
References
334(5)
14 Application of Biotechnology for Nematode Control in Crop Plants
339(38)
John Fosu-Nyarko
Michael G.K. Jones
1 Introduction
340(1)
2 Early Selection for Plants with Nematode Resistance; Susceptibility, Resistance and Tolerance
341(3)
3 Biotechnological Approaches to Plant Parasitic Nematode Control
344(1)
4 Natural Resistance Approach to Plant Parasitic Nematode Control
344(5)
5 Transgenic Approaches to Plant Parasitic Nematode Control
349(8)
6 Transgenic' Technology Advances
357(2)
7 From the Laboratory to the Market - Commercialization of Plant Parasitic Nematode-Resistance Traits
359(4)
8 Transgenic Nematode Resistance for Public Good
363(2)
9 Regulation and Public Acceptance of GM Traits
365(1)
10 Safety of RNAi-Based Traits
365(1)
11 Genome-Enabled Development of Novel Chemical Nematicides
366(1)
12 Ectopic Delivery of dsRNA -- Nontransgenic RNAi
367(1)
13 Other New Nematode Control Agents
367(1)
14 Conclusions
368(9)
References
371(6)
Subject Index 377(14)
Author Index 391
Carolina Escobar completed a first degree in Biology at the University Autonoma of Madrid where she also received her M.Sc. degree. She was a PhD student at the John Innes Center, UK, in Molecular aspects of oxidative stress in plants, receiving her PhD degree from the University of East Anglia, UK in 1998. After a brief post-doctoral position at Wageningen University, Netherlands, on molecular analysis of the Rhizobium interaction, she moved at Castilla La Mancha (UCLM) University in 1999 as part of the group of Plant Biotechnology and Molecular Biologyleaded by Carmen Fenoll. In 2003, she started her own research group on molecular and developmental aspects of the plant-nematode interaction with the aim to identify biotechnology tools for nematode control supported by National and EU funding. She holds an assistant professorship position at the Department of Environmental Sciences, UCLM, and teaches in different courses as Functional Cell Biology, Plant physiology, Genetic Engineering and Systems Biology. She has been also a visitor researcher at Durham University, UK, and at the National Biotechnology Center in Madrid, Spain. As a result, she has supervised 5 PhD thesis and more than 20 final research projects for M. Sc. students and undergraduates. She actively participates in the EU Erasmus mobility program supervising several students every year and holds extensive collaborations with different groups in Europe. She also keeps active a research line on the initial plant responses to contaminants as heavy metals, pointing to the restoration of local Hg contaminated areas. Carmen Fenoll obtained her PhD in Biological Sciences at the Universidad Autónoma de Madrid/ National Research Council-CSIC, working on photosynthetic bacteria. She moved to the field of plant molecular biology as a Fulbright postdoc at the University of California-San Diego (CA) and established her group at the Universidad Autónoma de Madrid in 1990 as an Associate Professor. In 2000, she moved to the Universidad de Castilla-la Mancha as part of a team to set up a new Faculty and Research Institute on Environmental Sciences in Toledo (Spain). Since then, she is Professor of Plant Biology at the Faculty of Environmental Sciences and Biochemistry in that University, where she teaches molecular biology, genetic engineering, genomics, plant physiology and biotechnology. She coordinates the research group on Plant Biotechnology and Molecular Biology, interested in the regulation of gene expression and cell differentiation and development using molecular genetics and genomics in several biological systems, one of which is nematode feeding sites induced by Meloidogyne spp. in Arabidopsis thaliana. She has also been Visiting Scientist at the Salk Institute in La Jolla, CA, and Tinker Full Professor at the University of Wisconsin, Madison