Auxins : structure, biosynthesis and functions /
Clasificación: | Libro Electrónico |
---|---|
Otros Autores: | , |
Formato: | Electrónico eBook |
Idioma: | Inglés |
Publicado: |
New York :
Nova Science Publishers,
©2012.
|
Colección: | Botanical research and practices.
|
Temas: | |
Acceso en línea: | Texto completo |
Tabla de Contenidos:
- AUXINS: STRUCTURE, BIOSYNTHESIS AND FUNCTIONS; BOTANICAL RESEARCH AND PRACTICES; AUXINS: STRUCTURE, BIOSYNTHESIS AND FUNCTIONS; Library of Congress Cataloging-in-Publication Data; CONTENTS; PREFACE; CHAPTER 1. AUXIN BIOSYNTHESIS IN PLANTS; ABSTRACT; ABBREVIATIONS; 1. INTRODUCTION; 2. MULTIPLE PATHWAYS POSTULATED FOR AUXIN BIOSYNTHESIS IN PLANTS; 3. THE INDOLE-3-ACETAMIDE PATHWAY; 3.1. A New Route in the IAA Biosynthetic Pathway in Plants; 3.2. The AtAMI1 and NtAMI1 Genes Encode Indole-3-Acetamide Hydrolase; 3.3. IAM is Detected in Many Plant Species.
- 3.4. IAM Hydrolase Activity is also Detected in Many Plant Species3.5. IAM is Incorporated into Plant Cells and Converted to IAA by the AMI1 Gene Product; 3.6. The AMI1 Gene Family is Widespread in the Plant Kingdom; 3.7. How is IAM Synthesized in Plants?; 4. THE INDOLE-3-PYRUVIC ACID PATHWAY; 4.1. The TAA1 and TIR2 Genes Encode Alliinase-Related Proteins; 4.2. TAA1 Protein Possesses Trp Aminotransferase Activity; 4.3. The TAA1/TIR2 Gene is Closely Related to TAR1 Gene; 4.4. Is IPA Converted into IAD in Plants?; 4.5. The Plant Aldehyde Oxidases are Characterized by Broad Substrate Specificity.
- 5. THE TRYPTAMINE PATHWAY5.1. Tryptamine: Intermediate in Indole Alkaloid and Serotonin Biosynthesis; 5.2. YUCCA Gene Family; 5.3. Does N-Hydroxytryptamine Exist in Plants?; 5.4. Reexamining the YUCCA Gene Function; 6. THE INDOLE-3-ACETALDOXIME PATHWAY; 6.1. Indole-3-Acetaldoxime is Found Only in Brassicaceae species Such as Arabidopsis; 6.2. CYP79B Gene Product is Involved in Indole Glucosinolate Biosynthesis; 6.3. IAOX is a Metabolic Intermediate in Indole Glucosinolate and Camalexin Biosynthesis; 6.4. IAN May Exist in Only Brassicaceae Species.
- 6.5. Arabidopsis Nitrilases are Involved in the Conversion of Nitriles to Carboxylic Acids6.6. Maize Nitrilases May also Function in the Detoxification of -Cyanoalanine In Vivo; CONCLUSIONS AND PERSPECTIVES; REFERENCES; CHAPTER 2. THE ROLES OF AUXIN DURING PLANT-MICROBE INTERACTIONS; ABSTRACT; INTRODUCTION; AUXIN SYNTHESIS IN MICROORGANISMS; Auxin Is Used as a Signal Molecule in Microorganisms; Plant Hormones in Pathogenic Plant-Microbe Interactions; Auxin at the Plant-Pathogen Interface; AUXIN IN BENEFICIAL PLANT-MICROBE INTERACTIONS; AUXIN IN THE NEW ERA OF FUNGAL GENOME SEQUENCING.
- CONCLUSIONACKNOWLEDGMENTS; REFERENCES; CHAPTER 3. AUXIN REGULATION AND FUNCTION: INSIGHTS FROM STUDIES ON ROOTED LEAFY STEM CUTTINGS OF TROPICAL TREE SPECIES; ABSTRACT; INTRODUCTION; AUXINS EFFECTS ON ROOTING OF LEAFY STEM CUTTINGS OF TROPICAL TREE SPECIES; HOW DO AUXINS FUNCTION IN ROOTING LEAFY STEM CUTTINGS?; CONCLUSIONS; REFERENCES; CHAPTER 4. FALLING APART: IS AUXIN THE WEAKEST LINK?; ABSTRACT; INTRODUCTION; SO MUCH MORE THAN JUST A BUNCH OF CELLS; WHO IS THE PUPPETEER?; REFERENCES; CHAPTER 5. CHEMICALS AS ADJUVANTS IN AUXIN INDUCED ADVENTITIOUS ROOTING; ABSTRACT; INTRODUCTION.