3 edition of Disease resistancein plants found in the catalog.
Disease resistancein plants
Vanderplank J. E.
|The Physical Object|
|Number of Pages||194|
Disease resistance in plants (Book, )  Get this from a library! Disease resistance in plants. [J E Van der Plank] -- Aandacht voor de ontwikkeling van nieuwe planterassen met genetische resistentie tegen ziekten, met behulp van genetische manipulatie, resistentievormen en resistentiegenen. Up-to-date, accurate information on recent developments in crop protection! Fungal Disease Resistance in Plants: Biochemistry, Molecular Biology, and Genetic Engineering presents the latest developments in crop protection from fungal infection. Leading experts in botany, plant breeding, and plant pathology contribute their knowledge to help reduce and possibly prevent new outbreaks of.
Plant-pathogen interactions is a rapidly developing area among the plant sciences. Molecular genetics has provided the tools to analyse and manipulate mechanisms of pathogenicity and resistance responses and has facilitated their study from the population to the molecular level. The book brings together the views of experts in the field and provides an overview of the genetic basis of 3/5(2). This book looks at disease resistance in wheat, concentrating on all the economically important diseases ― their economic impact and geographical spread, breeding for resistance, pathogen variability, resistance mechanisms and recent advances made on resistance genes.
Using molecular biology to improve disease resistance in plants - Duration: University of Minnesota views. Common Vegetable Diseases - Duration: This comprehensive reference book describes the molecular biology of plant-pathogen interactions in depth. With Dr. Vidhyasekaran’s keen insights and experienced critical viewpoint, Bacterial Disease Resistance in Plants: Molecular Biology and Biotechnological Applications not only presents reviews of current research but goes on to suggest.
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Disease Resistance in Plants, Second Edition, looks at genetic, epidemiologic, biochemical, and biometric principles for developing new cultivars possessing genetic resistance to diseases.
Disease Resistance in Plants Subsequent Edition by J. Vanderplank (Author) ISBN ISBN Why is ISBN important. ISBN. This bar-code number lets you verify that you're getting exactly the right version or edition of a book.
The digit and digit formats both work. Cited by: Disease Resistance in Plants, Second Edition, looks at genetic, epidemiologic, biochemical, and biometric principles for developing new cultivars possessing genetic resistance to Edition: 2.
Generously illustrated with figures and tables that make the data more quickly understandable, Bacterial Disease Resistance in Plants will be an invaluable resource and textbook for plant.
This book summarizes the recent advances in molecular and genetic techniques that have been successfully applied to impart disease resistance for plants and crops. It integrates the contributions from plant scientists targeting disease resistance mechanisms using.
This book summarizes the recent advances in molecular and genetic techniques that have been successfully applied to impart disease resistance for plants and crops. It integrates the contributions from plant scientists targeting disease resistance mechanisms using molecular, genetic, and.
Plant Disease Resistance Has Emerged as a Complex, Multicomponent System The agricultural revolution of approximat years ago intensiﬁed humanity’s relationship with plants. Developing disease-resistant plants is a continuing process. Special treatments for inducing gene changes include the application of mutation-inducing chemicals and irradiation with ultraviolet light and X-rays.
These treatments commonly induce deleterious genetic changes, but, occasionally, beneficial ones also may occur. Plant disease epidemiology – Meaning and importance, difference between simple and compound interest diseases – Factors affecting plant disease epidemics – host, pathogen, environment and time factor.
Plant Disease Forcasting – Meaning, advantages, methods in forecasting and examples. Remote sensing – Meaning, scope, objectives. Bacterial Disease Resistance in Plants also explores active oxygen species, inducible plant proteins and their signals and transcription mechanisms, inducible secondary metabolites, and more.
It introduces novel strategies for bacterial disease management using genes from human beings, birds, crabs, insects, fungi, bacteria, and bacteriophages. About this book. Plant pathogens and diseases are among the most significant challenges to survival that plants face.
Disease outbreaks caused by microbial or viral pathogens can decimate crop yields and have severe effects on global food supply. The first section covers biological mechanisms underpinning disease resistance in plants, while.
Studies in the Agricultural and Food Sciences: Plant Breeding for Pest and Disease Resistance presents a critical review of the development of resistant varieties of plant to pests and diseases.
Additional Physical Format: Online version: Van der Plank, J.E. Disease resistance in plants. New York, Academic Press, (OCoLC) Document Type. Some definitions and concepts. The progress of disease in relation to resistance in the host.
Vertical resistance in the host and stabilizing selection in the pathogen. Stabilizing selection and vertical resistance to nonobligate parasites. Theory of vertical and horizontal resistance.
The use of resistance. The loss of horizontal resistance. An important strategy to enhance plant disease resistance is to express in plants microbial-derived genes encoding proteins that are recognized by the plant surveillance system and elicit effective immune responses against pathogens (generally referred to as elicitors).
Examples of well-characterized elicitors include PAMPs, avirulence effectors, Hrp proteins delivered by the type III. Fungal Disease Resistance in Plants: Biochemistry, Molecular Biology, and Genetic Engineering presents the latest developments in crop protection from fungal infection.
Leading experts in botany, plant breeding, and plant pathology contribute their knowledge to help reduce and possibly prevent new outbreaks of devastating crop epidemics caused. There's an easy solution: choose disease-resistant plants.
These varieties have a proven track record of being resistant to some of the most common diseases that can damage or kill your favorite selections. So save yourself time and money and enjoy a more glorious garden for many years to come. Sort. Featured.
A - Z. Z - A. 1 2 3. Plants have developed a complex defense system against diverse pests and pathogens. Once pathogens overcome mechanical barriers to infection, plant receptors initiate signaling pathways driving the expression of defense response genes.
Plant immune systems rely on their ability to recognize enemy molecules, carry out signal transduction, and respond defensively through pathways involving Cited by: : Fungal Disease Resistance in Plants: Biochemistry, Molecular Biology, and Genetic Engineering (Crop Science) (): Punja, Zamir: Books.
The following points highlight the five genetic engineering techniques for disease resistance. Some of the techniques are: 1. Developing Virus Resistance Food Crops 2. Developing Fungi Resistance Food Crops 3.
Developing Bacteria Resistance Food Crops 4. Developing Insects Resistance Food Crops 5. Developing Nematode Resistance Food Crops 6. Improving Field-Crop Production and Soil. What is a plant disease?
•Visible effects of disease on plants are called symptoms. Any detectable changes in color, shape, and/or functions of the plant in response to a pathogen or disease-causing agent is a symptom.
•Signs of plant disease are physical evidence of the pathogen, for .Disease resistance is often defined as reduction of pathogen growth on or in the denotes less disease development in a genotype than that in the susceptible variety and is a relative."The book Disease and Insect Resistance in Plants covers in detail the principles and practices of conventional plant breeding as well as newer and recent biotechnological tools such as marker-assisted selection and transgenic crops.