MARC details
| 000 -CABECERA |
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| campo de control de longitud fija |
07641nam a2200265 a 4500 |
| 003 - IDENTIFICADOR DEL NÚMERO DE CONTROL |
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OSt |
| 005 - FECHA Y HORA DE LA ÚLTIMA TRANSACCIÓN |
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20251128145128.0 |
| 008 - DATOS DE LONGITUD FIJA--INFORMACIÓN GENERAL |
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251124s2002 nyud||||r|||| 00| 0 eng d |
| 020 ## - NÚMERO INTERNACIONAL ESTÁNDAR DEL LIBRO |
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| Número Internacional Estándar del Libro |
978-1-560-22924-7 |
| 040 ## - FUENTE DE LA CATALOGACIÓN |
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| Centro catalogador/agencia de origen |
CHAP |
| Centro/agencia transcriptor |
PA |
| Normas de descripción |
rda |
| 082 ## - NÚMERO DE LA CLASIFICACIÓN DECIMAL DEWEY |
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| Número de edición |
632.32 |
| Número de clasificación |
V53 2002 |
| 100 0# - ENTRADA PRINCIPAL--NOMBRE DE PERSONA |
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| Nombre de persona |
Vidhyasekaran, P. |
| 9 (RLIN) |
119272 |
| 245 ## - MENCIÓN DE TÍTULO |
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| Título |
Bacterial Disease Resistance in Plants: |
| Resto del título |
Molecular Biology and Biotechnological Applications / |
| Mención de responsabilidad, etc. |
P. Vidhyasekaran |
| 264 ## - PRODUCCIÓN, PUBLICACIÓN, DISTRIBUCIÓN, FABRICACIÓN Y COPYRIGHT |
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| Producción, publicación, distribución, fabricación y copyright |
New York: |
| Nombre del de productor, editor, distribuidor, fabricante |
Routledge, |
| Fecha de producción, publicación, distribución, fabricación o copyright |
2002 |
| 300 ## - DESCRIPCIÓN FÍSICA |
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| Extensión |
xiv, 452p. |
| 336 ## - TIPO DE CONTENIDO |
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| Fuente |
rdacontent |
| Término de tipo de contenido |
texto |
| Código de tipo de contenido |
txt |
| 337 ## - TIPO DE MEDIO |
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| Fuente |
rdamedia |
| Nombre/término del tipo de medio |
sin medio |
| Código del tipo de medio |
n |
| 338 ## - TIPO DE SOPORTE |
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| Fuente |
rdacarrier |
| Nombre/término del tipo de soporte |
volumen |
| Código del tipo de soporte |
nc |
| 504 ## - NOTA DE BIBLIOGRAFÍA, ETC. |
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| Nota de bibliografía, etc. |
Bibliografía: p. 319-452 |
| 505 ## - NOTA DE CONTENIDO CON FORMATO |
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| Nota de contenido con formato |
Foreword.--Preface.-- Chapter 1. Molecular Recognition Processes Between Plant and Bacterial Pathogens<br/>Introduction.-- Physical Contact of Plant Cells is Necessary for Bacterial Recognition.-- Molecules Responsible for Physical Contact.--Many Bacterial Pathogens Induce Necrosis on Hosts and Nonhosts.-- Bacterial Pathogens Grow in Both Host and Nonhost Plants.-- Bacterial Pathogens Induce Leakage of Nutrients in Both Host and Nonhost Plants.--Bacterial Genes Involved in Recognition of Hosts and Nonhosts.-- Coregulation of hrp, avr and Other Pathogenicity Genes.-- Transcription of Bacterial Pathogenicity Genes in Planta.-- Plant-Derived Molecules May Be Involved in Induction of Bacterial Genes.-- Some Plant Signals May Direct Synthesis of Elicitors.-- Secretion of Elicitors From Bacterial Cells in Plants.-- The Role of hrp and avr Genes in Early Recognition Process in Plant-Bacterial Pathogen Interactions.-- Other Signal Molecules of Bacterial Pathogens.-- The Signal Transduction System.-- Systemic Signal Induction.-- Is Cell Death Involved in Signal Transduction Pathway?.-- How Pathogens Avoid or Overcome Host Defense Mechanisms Induced by the Signal Transduction System.-- Possible Role of Signal Transduction System in Evasion of Host Recognition by Phytopathogenic Bacteria During Pathogenesis.-- Conclusion.-- Chapter 2. Host Defense Mechanisms: Cell Wall the First Barrier and a Source of Defense Signal Molecules.-- The First Barrier to Bacterial Infection in Plants.-- Structure of the Plant Cell Wall.-- Pectic Polysaccharides.-- Cellulose.-- Hemicellulos.-- Cell Wall Proteins.-- Bacterial Genes Encoding Extracellular Enzymes.-- Bacterial Genes Regulating Production of Extracellular Enzymes.-- Bacterial Genes Regulating Secretion of Extracellular Enzymes.-- Secretion of Proteases.-- The Signaling System in Induction of Bacterial Extracellular Enzymes.-- Plant Cell Wall Components Involved in Defense Mechanisms Against Bacterial Pathogens.-- Bacterial Extracellular Enzymes Induce Host Defense Mechanisms.-- Pectic Fragments Induce Virulence Genes in Bacterial and Defense Genes in Plants.-- Pectic Enzymes Vary in Inducing Resistance or Susceptibility.-- Polygalacturonase-Inhibiting Proteins.-- Cell Wall Modifications and Bacterial Disease Resistance.-- Conclusion.-- Chapter 3. Active Oxygen Species<br/>Mechanism of Production of Active Oxygen Species.-- Signals for Induction of Active Oxygen Species in Bacteria-Infected Plants.-- Bacterial Infection Leads to Production of Active Oxygen Species in Plants.-- Active Oxygen Species May Induce Lipid Peroxidation.-- Increases in Active Oxygen Species Lead to Activation of Lipoxygenase.-- Active Oxygen Species Production Leads to Cell Membrane Damage.-- Active Oxygen Species May Directly Kill Bacterial Pathogens.-- Bacterial Pathogens May Tolerate Toxicity of Active Oxygen Species.-- Antioxidants of the Host May Protect Bacterial Pathogens Against Active Oxygen Species.-- The Possible Role of Active Oxygen Species in Disease Resistance.-- Conclusion.-- Chapter 4. Inducible Plant Proteins.-- Introduction.-- Nomenclature of Pathogen-Inducible Plant Proteins.-- Occurrence of PR Proteins in Various Plants.-- Classification of PR Proteins.-- Bacterial Pathogens Induce PR Proteins.-- Molecular Mechanisms of Induction of PR Proteins.-- Compartmentalization of PR Proteins in Plant Tissues.-- The Role of PR Proteins in Bacterial Disease Resistance.-- The Second Group of Pathogen-Inducible Proteins: Constitutive, but Increasingly Induced.-- Hydroxyproline-Rich Glycoproteins.-- Lectins. -- Not All Inducible Proteins Need Be Involved in Inducing Bacterial Disease Resistance.-- Conclusion.-- Chapter 5. Inducible Secondary Metabolites.--What Are Inducible Secondary Metabolites?.-- Bacterial Pathogens Induce Accumulation of Secondary Metabolites in Infected Tissues.-- Phytoalexins Accumulate in Plants After Irreversible Cell Membrane Damage.-- Phytoalexins Accumulate Only Locally and Not Systemically.-- Mode of Syntheses of Phytoalexins.-- Evidences That Induced Secondary Metabolites Are Involved in Bacterial Disease Resistance.-- Phytoalexins May Be Suppressed, Degraded, or Inactivated in Susceptible Interactions.-- Some Phytoalexins May Not Have Any Role in Disease Resistance.-- Constitutive, but Induced Secondary Metabolites During Pathogenesis.--Conclusion.-- Chapter 6. Biotechnological Applications: Molecular Manipulation of Bacterial Disease Resistance<br/>Introduction.-- Manipulation of Signal Transduction System for Induction of Disease Resistance.-- Manipulation of Resistance Genes Involved in Signal Transduction System.-- Manipulation of Signal Transduction System by Elicitors.-- Manipulation of Signal Transduction System by Using Chemicals.-- Manipulation of Signal Transduction System by Using Rhizobacterial Strains.-- Manipulation of Signal Transduction System by Enhanced Biosynthesis of Salicylic Acid.-- Manipulation of Signal Transduction System by Inducing Accelerated Cell Death.-- Manipulation of Signal Transduction System by Enhanced Biosynthesis of Cytokinins.-- Manipulation of Inducible Proteins for Induction of Bacterial Disease Resistance.- Suppression of Virulence Factors of Bacterial Pathogens to Manage Bacterial Diseases.-- Exploitation of Insect Genes Encoding Antibacterial Proteins for Bacterial Disease Management.-- Exploitation of Bacteriophage Genes for Bacterial Disease Management.-- Exploitation of Genes from Human Beings, Hens, and Crabs for Management of Plant Bacterial Diseases.-- Conclusion.-- References.-- Index |
| 520 ## - SUMARIO, ETC. |
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| Sumario, etc. |
Este completo libro de referencia describe en profundidad la biología molecular de las interacciones planta-patógeno. Con la profunda perspectiva y la experiencia crítica del Dr. Vidhyasekaran, Resistencia a Enfermedades Bacterianas en Plantas: Biología Molecular y<br/><br/>Resistencia a Enfermedades Bacterianas en Plantas también explora las especies activas de oxígeno, las proteínas vegetales inducibles, sus señales y mecanismos de transcripción, los metabolitos secundarios inducibles y más. Presenta nuevas estrategias para el manejo de enfermedades bacterianas utilizando genes de seres humanos, aves, cangrejos, insectos, hongos, bacterias y bacteriófagos, así como técnicas de ingeniería genética que pueden emplearse para desarrollar plantas transgénicas resistentes a enfermedades. Generosamente ilustrado con figuras y tablas que hacen que los datos se comprendan más rápidamente, Bacterial Disease Resistance in Plants será un recurso invaluable y un libro de texto para fitopatólogos, bacteriólogos, botánicos, fisiólogos de plantas, biólogos moleculares de plantas, microbiólogos, bioquímicos, biólogos de células vegetales y biólogos aplicados, ingenieros genéticos y estudiantes de posgrado en estas disciplinas. |
| 534 ## - NOTA SOBRE LA VERSIÓN ORIGINAL |
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| Frase introductoria |
Título original: |
| 650 #0 - PUNTO DE ACCESO ADICIONAL DE MATERIA--TÉRMINO DE MATERIA |
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| Término de materia o nombre geográfico como elemento de entrada |
Enfermedades bacterianas de las plantas |
| 9 (RLIN) |
187274 |
| 942 ## - ELEMENTOS DE PUNTO DE ACCESO ADICIONAL (KOHA) |
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| Fuente del sistema de clasificación o colocación |
Dewey Decimal Classification |
| Tipo de ítem Koha |
Libro |
