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Nitrogen is arguably the most important nutrient required by plants. However, the availability of nitrogen is limited in many soils and although the earth's atmosphere consists of 78.1% nitrogen gas (N2) plants are unable to use this form of nitrogen. To compensate , modern agriculture has been highly reliant on industrial nitrogen fertilizers to achieve maximum crop productivity. However, a great deal of fossil fuel is required for the production and delivery of nitrogen fertilizer. Moreover carbon dioxide (CO2) which is released during fossil fuel combustion contributes to the greenhouse effect and run off of nitrate leads to eutrophication of the waterways. Biological nitrogen fixation is an alternative to nitrogen fertilizer. It is carried out by prokaryotes using an enzyme complex called nitrogenase and results in atmospheric N2 being reduced into a form of nitrogen diazotrophic organisms and plants are able to use (ammonia). It is this process and its major players which will be discussed in this book. Biological Nitrogen Fixation is a comprehensive two volume work bringing together both review and original research articles on key topics in nitrogen fixation. Chapters across both volumes emphasize molecular techniques and advanced biochemical analysis approaches applicable to various aspects of biological nitrogen fixation. Volume 1 explores the chemistry and biochemistry of nitrogenases, nif gene regulation, the taxonomy, evolution, and genomics of nitrogen fixing organisms, as well as their physiology and metabolism. Volume 2 covers the symbiotic interaction of nitrogen fixing organisms with their host plants, including nodulation and symbiotic nitrogen fixation, plant and microbial "omics", cyanobacteria, diazotrophs and non-legumes, field studies and inoculum preparation, as well as nitrogen fixation and cereals. Covering the full breadth of current nitrogen fixation research and expanding it towards future advances in the field, Biological Nitrogen Fixation will be a one-stop reference for microbial ecologists and environmental microbiologists as well as plant and agricultural researchers working on crop sustainability.Biological Nitrogen Fixation VOLUME 1 Chapter 1. Introduction Frans J. de Bruijn Section 1. Focus Chapters Chapter 2. Recent advances in Understanding Nitrogenases and How They Work William Newton Chapter 3. Evolution and Taxonomy of Nitrogen-fixing Organisms with emphasis on Rhizobia Kristina Lindstrom Chapter 4. Evolution of Rhizobium Nodulation: From Nodule Specific Genes (Nodulins) to Recruitment of Common Processes Ton Bisseling Chapter 5. Bioengineering Nitrogen Acquisition in Rice: Promises for Global Food Security Herbert Kronzucker Section 2. Chemistry and Biochemistry of Nitrogenases Chapter 6. An Overview of Fe-S Protein Biogenesis from Prokaryotes to Eukaryotes Mahipal Kesawat Chapter 7. Biosynthesis of the Iron-Molybdenum Cofactor of Nitrogenase Luis Rubio Chapter 8. Distribution and Ecological Niches of Nitrogenases Alexander Glazer Section 3. Expression and Regulation of Nitrogen Fixation Genes and Nitrogenase Chapter 9. Regulation of nif Gene Expression in Azotobacter vinelandii Cesar Poza-Carrion, Luis Rubio Chapter 10. Coupling of Regulation between Nitrogen and Carbon Metabolism in Nitrogen Fixing Pseudomonas stutzeri A1501 Lin Min Chapter 11. Regulation of NItrogen Fixation and Molybdenum Transport in Rhodobacter capsulatus Bernd Masepohl Chapter 12. Metabolic Regulation of Nitrogenase Activity in Rhodospirillum rubrum: The Role of PII Proteins and Membrane Sequestration Stefan Nordlund Chapter 13. How Does the DraG-PII Complex Regulate Nitrogenase Activity in Azospirillum brasilense? Xiao-Dan Li Chapter 14. Fe Protein Over-expression Can Enhance the Nitrogenase Activity of Azotobacter vinelandii Papri Nag Chapter 15. FNR-like Proteins in Rhizobia: Past and Future Lourdes Girard Section 4. Taxonomy and Evolution of Nitrogen Fixing Organisms Chapter 16. Exploring Alternative Paths for the Evolution of Biological Nitrogen Fixation John Peters Chapter 17. Phylogeny, Diversity, Geographical Distribution and Host Range of Legume-Nodulating Betaproteobacteria: What Is the Role of Plant Taxonomy? Lionel Moulin, Euan James Chapter 18. Bradyrhizobium, The Ancestor of All Rhizobia: Phylogeny of Housekeeping and Nitrogen-fixation Genes Mariangela Hungria Chapter 19. Interaction between Host and Rhizobial Strains: Affinities and Coevolution Mario Aguilar Chapter 20. Assessment of Nitrogenase Diversity in the Environment Daniel Buckley Section 5. Genomics of Nitrogen Fixing Organisms Chapter 21. Genetic Regulation of Symbiosis Island Transfer in Mesorhizobium loti Joshua Ramsay, Clive Ronson Chapter 22. The Azotobacter vinelandii Genome: An Update Joao C. Setubal Chapter 23. The Genome Sequence of the Novel Rhizobial Species Microvirga lotononidis Strain WSM3557. Julie Ardley Chapter 24. Genome Characteristics of Frankia sp. Reflect Host Range and Host Plant Biogeography Philippe Normand, David Benson Chapter 25. Core and Accessory Henomes of The Diazotroph Azospirillum Florence Wisniewski-Dye Chapter 26. Pangenome Evolution in The Symbiotic Nitrogen Fixer Sinorhizobium meliloti Marco Galardini Chapter 27. Pangenomic Analysis of The Rhizobiales Using The GET-HOMOLOGUES Software Package Pablo Vinuesa Section 6. Physiology and Metabolism of Nitrogen Fixing Organisms Chapter 28. Metabolism of Photosynthetic Bradyrhizobia During Root and Stem Symbiosis with Aeschynomene legumes Benjamin Gourion Chapter 29. A Plethora of Terminal Oxidases and Their Biogenesis Factors in Bradyrhizobium japonicum Hauke Hennecke Chapter 30. Rhizobial Extracytoplasmic Function (ECF) Factors and Their Role in Oxidative Stress Response of Bradyrhizobium japonicum Hans-Martin Fischer Chapter 31. Role of the Bacterial BacA ABC-transporter in Chronic Infection of Nodule Cells by Rhizobium Peter Mergaert Chapter 32. Molecular Keys to Broad Host Range in Sinorhizobium fredii NGR234, USDA257 and HH103 Wolfgang Streit Chapter 33. Motility and Chemotaxis in the Rhizobia Michael Hynes Chapter 34. The Pts/Ntr System Globally Regulates ATP-dependent Transporters in Rhizobium leguminosarum Jurgen Prell Section 7. Nitrogen Fixing Organisms, the Plant Rhizosphere and Stress Tolerance Chapter 35. Actinorhizal Root Exudates Alter the Physiology, Surface Properties and Plant Infectivity of Frankia Louis Tisa Chapter 36. Exopolysaccharide Production in Rhizobia is Regulated by Environmental Factors Monika Janczarek Chapter 37. Regulation of Symbiotically-Important Functions by Quorum Sensing in the Sinorhizobium meliloti-Alfalfa Interaction Juan Gonzales Chapter 38. Lumichrome as a Bacterial Signal Molecule Influencing Plant Growth Felix Dakora Chapter 39. Genes Involved in Desiccation Resistance of Rhizobia and Other Bacteria Michael Kahn Chapter 40. The General Stress Response in Alpha-rhizobia Claude Bruand Section 8. Physiology and Regulation of Nodulation Chapter 41. The Root Hair: A Single Cell Model for Systems Biology Marc Libault Chapter 42. How Transcriptomics Revealed New Information on Actinorhizal Symbioses Establishment and Evolution Valerie Hocher Chapter 43. Molecular Biology of Infection and Nodule Development in Discaria trinervis Frankia Actinorhizal Symbiosis Sergio Svistoonoff Chapter 44. Lotus japonicus Nodulates When It Sees Red Akihiro Suzuki Chapter 45. Out of Water of A New Model Legume: The Nod-independent Aeschynomene evenia Jean-Francois Arrighi Chapter 46. Phosphorus Use Efficiency for N2 Fixation in The Rhizobial Symbiosis with Legumes Jean Jacques Drevon Chapter 47. Regulation of Nodule Development by Short and Long Distance Auxin Transport Ulrike Mathesius Chapter 48. Functional Analysis of Nitrogen-Fixing Root Nodule Symbioses Induced by Frankia: Transport and Metabolic Interactions Alison Berry Chapter 49. NOOT-dependent Control of Nodule Identity: Nodule Homeosis and Meristem Perturbation Pascal Ratet Volume 2 Section 9. Recognition in Nodulation Chapter 50. Roles for Flavonoids in Symbiotic Root-Rhizosphere Interactions Ulrike Mathesius Chapter 51. Nod Factor Recognition in Medicago truncatula Jean Jacques Bono Chapter 52. Role of Ectoapyrases in Nodulation Gary Stacey Chapter 53. Role of Rhizobium Cellulase CelC2 in Root Colonization and Infection Pedro Mateos Chapter 54. Nod Factor-Induced Calcium Signaling in Legumes Giles Oldroyd Chapter 55. Signalling and Communication between Actinorhizal Plants and Frankia During the Intracellular Symbiotic Process Claudine Franche Section 10. Infection and Nodule Ontogeny Chapter 56. The Role of Hormones in Rhizobial Infection Jeremy Murray Chapter 57. Nuclear Ca2+ Signaling Reveals Active Bacterial-Host Signaling throughout Rhizobial Infection in Root Hairs of Medicago truncatula David Barker Chapter 58. A Pectate Lyase Required for Plant-Cell Wall Remodelling During Infection of Legumes by Rhizobia Allan Downie Chapter 59. Dissecting The Roles in Outer and Inner Root Cell Layers of Plant Genes That Control Rhizobial Infection and Nodule Organogenesis Clare Gough Chapter 60. The Medicago truncatula NIP/LATD Transporter Is Essential for Nodulation and Appropriate Root Architecture Rebecca Dickstein Chapter 61. A MYB Coiled Coil Type Transcription Factor Interacts with NSP2 and Is Essential for Nodulation in Lotus japonicus Zhongming Zhang Chapter 62. AP2/ERF Transcription Factors and Root Nodulation Fernanda de Carvalo-Niebel Chapter 63. Identification of Medicago truncatula Genes Required for Rhizobial Invasion and Bacteroid Differentiation Peter Kalo Chapter 64. Multifacetted Roles of Nitric Oxide in Rhizobium-Legume Symbioses Eliane Meilhoc Chapter 65. Profiling Symbiotic Responses of Sinorhizobium fredii Strain NGR234 with RNA-seq Xavier Perret Chapter 66. Computational and Experimental Evidence That Auxin Accumulation in Nodule and Lateral Root Primordia Occurs by Different Mechanisms Eva Elisabeth Deinum Section 11. Transitions from the Bacterial to the Bacteroid State Chapter 67. Bacteroid Differentiation in Legume Nodules: Role of AMP-like Host Peptides in the Control of the Endosymbiont Eva Kondorosi Chapter 68. The Symbiosome Membrane Penelope Smith Section 12. Nitrogen Fixation, Assimilation and Senescence in Nodules Chapter 69. Nodulin Intrinsic Proteins: Facilitators of Water and Ammonia Transport across the Symbiosome Membrane Daniel Roberts Chapter 70. Leghemoglobins with Nitrated Hemes in Legume Root Nodule Manuel Becana Chapter 71. The Role of 1-aminocyclopropane-1-carboxylase Enzyme in Leguminous Nodule Senescence Neung Teaumroong Section 13. Microbial Omics Chapter 72. Pool-Seq Analysis of Microsymbiont Selection by the Legume Plant Host Juan Imperial Chapter 73. Contribution of the RNA Chaperone Hfq to Environmental Fitness and Symbiosis in Sinorhizobium meliloti Jose I. Jimenes-Zurdo Chapter 74. Biodiversity, Symbiotic Efficiency and Genomics of Rhizobium tropici and Related Species Mariangela Hungria Chapter 75. The Frankia alni Symbiotic Transcriptome Philippe Normand Chapter 76. A Comprehensive Survey of Soil Rhizobiales Using High-Throughput DNA Sequencing Ryan Jones Chapter 77. Gene Targeted Metagenomics of Diazotrophs in Coastal Saline Soil Bhanavath Jha Section 14. Plant Omics and Functional Genetics Chapter 78. The Medicago truncatula Genome Frederic Debelle Chapter 79. Leveraging Large-Scale Approaches to Dissect the Rhizobia-Legume Symbiosis Oswaldo Valdes-Lopez Chapter 80. LegumeIP: An Integrative Platform for Comparative Genomics and Transcriptomics of Model Legumes Patrick Xuechun Zhao Chapter 81. Databases of Transcription Factors in Legumes Lam-son Phan Tran Chapter 82. Functional Genomics of Symbiotic Nitrogen Fixation in Legumes with a Focus on Transcription Factors and Membrane Transporters Michael Udvardi Chapter 83. Retrotransposon (Tnt1)-insertion Mutagenesis in Medicago as a Tool for Genetic Dissection of Symbiosis in Legumes Michael Udvardi Section 15. Cyanobacteria and Archaea Chapter 84. Marine Titrogen Fixation: Organisms, Significance, Enigmas and Future Directions Jonathan Zehr Chapter 85. Requirement of Cell Wall Remodelling for Cell-Cell Communication and Cell Differentiation in Filamentous Cyanobacteria of the Order Nostocales Karl Forchhammer Chapter 86. Nitrogen Fixation in the Oxygenic Phototrophic Prokaryotes (Cyanobacteria): The Fight Against Oxygen Enrique Flores Chapter 87. Underestimation of Marine Dinitrogen Fixation: A Novel Method and Novel Diazotrophic Habitats Ruth Schmitz Section 16. Diazotrophic Plant Growth Promoting Rhizobacteria and Non-Legumes Chapter 88. One Hundred Years Discovery of Nitrogen-Fixing Rhizobacteria Claudine Elmerich Chapter 89. Symbiotic Nitrogen Fixation in Legumes: Perspectives on the Diversity and Evolution of Nodulation by Rhizobium and Burkholderia Species Ann Hirsch Chapter 90. Agronomic Applications of Azospirillum and Other PGPR Yaacov Okon Chapter 91. Auxin Signaling in Azospirillum brasilense: A Proteome Analysis Stijn Spaepen Chapter 92. Genetic and Functional Characterization of Paenibacillus riograndensis: A Novel Plant Growth Promoting Bacterium Isolated from Wheat Luciane Passaglia Chapter 93. Role of Herbaspirillum seropedicae LPS in Plant Colonization Rose Adele Monteiro Chapter 94. Culture-independent Assessment of Diazotrophic Bacteria in Sugarcane and Isolation of Bradyrhizobium spp. from Field Grown Sugarcane Plants Using Legume Trap Plants Anton Hartmann Chapter 95. How Fertilization Affects the Selection of Plant Growth Promoting Rhizobacteria by Host Plants Luciane Passaglia Section 17. Field Studies, Inoculum Preparation, Applications of Nod Factors Chapter 96. Appearance of Membrane Compromised, Viable But Not Culturable and Culturable Rhizobial Cells As A Consequence of Desiccation Jan Vriezen Chapter 97. Making the Most of High Quality Inoculants Rosalind Deaker Chapter 98. Rhizobiophages As Markers in The Selection of Symbiotically Efficient Rhizobia for Legumes Felix Dakora Chapter 99. Nitrogen Fixation with Soybean: The Perfect Symbiosis? Mariangela Hungria Chapter 100. Nodule Functioning and Symbiotic Efficiency of Cowpea and Soybean Varieties in Africa Flora Pule Meulenberg Chapter 101. Microbial Quality of Commercial Inoculants to Increase BNF and Nutrient Use Efficiency Didier Lesueur Chapter 102. Developed Fungal-Bacterial Biofilms Having Nitrogen Fixers: Universal Biofertilizers for Legumes and Non-legumes H.M. Herath Chapter 103. Phenotypic Variation in Azospirillum spp. and Other Root-Associated Bacteria Anton Hartmann Chapter 104. The physiological mechanisms of desiccation tolerance in rhizobia Andrea Casteriano Chapter 105. Food Grain Legumes: Their Contribution to Soil Fertility and Human Nutrition and Health in Africa Felix Dakora Chapter 106. Plant Breeding for Biological Nitrogen Fixation: A Review Peter Kennedy Chapter 107. LCO Applications Provide Improved Responses with Legumes and Non-legumes Stewart Smith Section 18 Nitrogen Fixation and Cereals Chapter 108. The Quest for Biological Nitrogen Fixation in Cereals : A Perspective and Prospective Frans J. de Bruijn Chapter 109. Environmental and Economic Impacts of Biological N2 Fixing (BNF) Cereal Crops Perrin Beatty Chapter 110. Conservation of the Symbiotic Signalling Pathway between Legumes and Cereals: Did Nodulation Constraints Drive Legume Symbiotic Genes to Become Specialised During Evolution? Charles Rosenberg Chapter 111. Occurrence and Ecophysiology of the Natural Endophytic Rhizobium-rice Association, and Translational Assessment of its Biofertilizer Performance within the Egypt Nile Delta Youssef Yanni Section 19. Concluding Chapters Chapter 112. The Relevance of N-fixation and N-recyling for Insect Biomass and N-balances of Ecosystems Martin Heil Chapter 113. Rapid Identification of Nodule Bacteria with MALDI-TOF Mass Spectrometry Xavier Perret Chapter 114. The Microbe-Free Plant: Fact or Artefact? Martin Heil


Szczegóły: Biological Nitrogen Fixation 2 vols

Tytuł: Biological Nitrogen Fixation 2 vols
Producent: John Wiley
ISBN: 9781118637043
Rok produkcji: 2015
Ilość stron: 1260
Oprawa: Twarda
Waga: 0.67 kg


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Biological Nitrogen Fixation 2 vols

Nitrogen is arguably the most important nutrient required by plants. However, the availability of nitrogen is limited in many soils and although the earth's atmosphere consists of 78.1% nitrogen gas (N2) plants are unable to use this form of nitrogen. To compensate , modern agriculture has been highly reliant on industrial nitrogen fertilizers to achieve maximum crop productivity. However, a great deal of fossil fuel is required for the production and delivery of nitrogen fertilizer. Moreover carbon dioxide (CO2) which is released during fossil fuel combustion contributes to the greenhouse effect and run off of nitrate leads to eutrophication of the waterways. Biological nitrogen fixation is an alternative to nitrogen fertilizer. It is carried out by prokaryotes using an enzyme complex called nitrogenase and results in atmospheric N2 being reduced into a form of nitrogen diazotrophic organisms and plants are able to use (ammonia). It is this process and its major players which will be discussed in this book. Biological Nitrogen Fixation is a comprehensive two volume work bringing together both review and original research articles on key topics in nitrogen fixation. Chapters across both volumes emphasize molecular techniques and advanced biochemical analysis approaches applicable to various aspects of biological nitrogen fixation. Volume 1 explores the chemistry and biochemistry of nitrogenases, nif gene regulation, the taxonomy, evolution, and genomics of nitrogen fixing organisms, as well as their physiology and metabolism. Volume 2 covers the symbiotic interaction of nitrogen fixing organisms with their host plants, including nodulation and symbiotic nitrogen fixation, plant and microbial "omics", cyanobacteria, diazotrophs and non-legumes, field studies and inoculum preparation, as well as nitrogen fixation and cereals. Covering the full breadth of current nitrogen fixation research and expanding it towards future advances in the field, Biological Nitrogen Fixation will be a one-stop reference for microbial ecologists and environmental microbiologists as well as plant and agricultural researchers working on crop sustainability.Biological Nitrogen Fixation VOLUME 1 Chapter 1. Introduction Frans J. de Bruijn Section 1. Focus Chapters Chapter 2. Recent advances in Understanding Nitrogenases and How They Work William Newton Chapter 3. Evolution and Taxonomy of Nitrogen-fixing Organisms with emphasis on Rhizobia Kristina Lindstrom Chapter 4. Evolution of Rhizobium Nodulation: From Nodule Specific Genes (Nodulins) to Recruitment of Common Processes Ton Bisseling Chapter 5. Bioengineering Nitrogen Acquisition in Rice: Promises for Global Food Security Herbert Kronzucker Section 2. Chemistry and Biochemistry of Nitrogenases Chapter 6. An Overview of Fe-S Protein Biogenesis from Prokaryotes to Eukaryotes Mahipal Kesawat Chapter 7. Biosynthesis of the Iron-Molybdenum Cofactor of Nitrogenase Luis Rubio Chapter 8. Distribution and Ecological Niches of Nitrogenases Alexander Glazer Section 3. Expression and Regulation of Nitrogen Fixation Genes and Nitrogenase Chapter 9. Regulation of nif Gene Expression in Azotobacter vinelandii Cesar Poza-Carrion, Luis Rubio Chapter 10. Coupling of Regulation between Nitrogen and Carbon Metabolism in Nitrogen Fixing Pseudomonas stutzeri A1501 Lin Min Chapter 11. Regulation of NItrogen Fixation and Molybdenum Transport in Rhodobacter capsulatus Bernd Masepohl Chapter 12. Metabolic Regulation of Nitrogenase Activity in Rhodospirillum rubrum: The Role of PII Proteins and Membrane Sequestration Stefan Nordlund Chapter 13. How Does the DraG-PII Complex Regulate Nitrogenase Activity in Azospirillum brasilense? Xiao-Dan Li Chapter 14. Fe Protein Over-expression Can Enhance the Nitrogenase Activity of Azotobacter vinelandii Papri Nag Chapter 15. FNR-like Proteins in Rhizobia: Past and Future Lourdes Girard Section 4. Taxonomy and Evolution of Nitrogen Fixing Organisms Chapter 16. Exploring Alternative Paths for the Evolution of Biological Nitrogen Fixation John Peters Chapter 17. Phylogeny, Diversity, Geographical Distribution and Host Range of Legume-Nodulating Betaproteobacteria: What Is the Role of Plant Taxonomy? Lionel Moulin, Euan James Chapter 18. Bradyrhizobium, The Ancestor of All Rhizobia: Phylogeny of Housekeeping and Nitrogen-fixation Genes Mariangela Hungria Chapter 19. Interaction between Host and Rhizobial Strains: Affinities and Coevolution Mario Aguilar Chapter 20. Assessment of Nitrogenase Diversity in the Environment Daniel Buckley Section 5. Genomics of Nitrogen Fixing Organisms Chapter 21. Genetic Regulation of Symbiosis Island Transfer in Mesorhizobium loti Joshua Ramsay, Clive Ronson Chapter 22. The Azotobacter vinelandii Genome: An Update Joao C. Setubal Chapter 23. The Genome Sequence of the Novel Rhizobial Species Microvirga lotononidis Strain WSM3557. Julie Ardley Chapter 24. Genome Characteristics of Frankia sp. Reflect Host Range and Host Plant Biogeography Philippe Normand, David Benson Chapter 25. Core and Accessory Henomes of The Diazotroph Azospirillum Florence Wisniewski-Dye Chapter 26. Pangenome Evolution in The Symbiotic Nitrogen Fixer Sinorhizobium meliloti Marco Galardini Chapter 27. Pangenomic Analysis of The Rhizobiales Using The GET-HOMOLOGUES Software Package Pablo Vinuesa Section 6. Physiology and Metabolism of Nitrogen Fixing Organisms Chapter 28. Metabolism of Photosynthetic Bradyrhizobia During Root and Stem Symbiosis with Aeschynomene legumes Benjamin Gourion Chapter 29. A Plethora of Terminal Oxidases and Their Biogenesis Factors in Bradyrhizobium japonicum Hauke Hennecke Chapter 30. Rhizobial Extracytoplasmic Function (ECF) Factors and Their Role in Oxidative Stress Response of Bradyrhizobium japonicum Hans-Martin Fischer Chapter 31. Role of the Bacterial BacA ABC-transporter in Chronic Infection of Nodule Cells by Rhizobium Peter Mergaert Chapter 32. Molecular Keys to Broad Host Range in Sinorhizobium fredii NGR234, USDA257 and HH103 Wolfgang Streit Chapter 33. Motility and Chemotaxis in the Rhizobia Michael Hynes Chapter 34. The Pts/Ntr System Globally Regulates ATP-dependent Transporters in Rhizobium leguminosarum Jurgen Prell Section 7. Nitrogen Fixing Organisms, the Plant Rhizosphere and Stress Tolerance Chapter 35. Actinorhizal Root Exudates Alter the Physiology, Surface Properties and Plant Infectivity of Frankia Louis Tisa Chapter 36. Exopolysaccharide Production in Rhizobia is Regulated by Environmental Factors Monika Janczarek Chapter 37. Regulation of Symbiotically-Important Functions by Quorum Sensing in the Sinorhizobium meliloti-Alfalfa Interaction Juan Gonzales Chapter 38. Lumichrome as a Bacterial Signal Molecule Influencing Plant Growth Felix Dakora Chapter 39. Genes Involved in Desiccation Resistance of Rhizobia and Other Bacteria Michael Kahn Chapter 40. The General Stress Response in Alpha-rhizobia Claude Bruand Section 8. Physiology and Regulation of Nodulation Chapter 41. The Root Hair: A Single Cell Model for Systems Biology Marc Libault Chapter 42. How Transcriptomics Revealed New Information on Actinorhizal Symbioses Establishment and Evolution Valerie Hocher Chapter 43. Molecular Biology of Infection and Nodule Development in Discaria trinervis Frankia Actinorhizal Symbiosis Sergio Svistoonoff Chapter 44. Lotus japonicus Nodulates When It Sees Red Akihiro Suzuki Chapter 45. Out of Water of A New Model Legume: The Nod-independent Aeschynomene evenia Jean-Francois Arrighi Chapter 46. Phosphorus Use Efficiency for N2 Fixation in The Rhizobial Symbiosis with Legumes Jean Jacques Drevon Chapter 47. Regulation of Nodule Development by Short and Long Distance Auxin Transport Ulrike Mathesius Chapter 48. Functional Analysis of Nitrogen-Fixing Root Nodule Symbioses Induced by Frankia: Transport and Metabolic Interactions Alison Berry Chapter 49. NOOT-dependent Control of Nodule Identity: Nodule Homeosis and Meristem Perturbation Pascal Ratet Volume 2 Section 9. Recognition in Nodulation Chapter 50. Roles for Flavonoids in Symbiotic Root-Rhizosphere Interactions Ulrike Mathesius Chapter 51. Nod Factor Recognition in Medicago truncatula Jean Jacques Bono Chapter 52. Role of Ectoapyrases in Nodulation Gary Stacey Chapter 53. Role of Rhizobium Cellulase CelC2 in Root Colonization and Infection Pedro Mateos Chapter 54. Nod Factor-Induced Calcium Signaling in Legumes Giles Oldroyd Chapter 55. Signalling and Communication between Actinorhizal Plants and Frankia During the Intracellular Symbiotic Process Claudine Franche Section 10. Infection and Nodule Ontogeny Chapter 56. The Role of Hormones in Rhizobial Infection Jeremy Murray Chapter 57. Nuclear Ca2+ Signaling Reveals Active Bacterial-Host Signaling throughout Rhizobial Infection in Root Hairs of Medicago truncatula David Barker Chapter 58. A Pectate Lyase Required for Plant-Cell Wall Remodelling During Infection of Legumes by Rhizobia Allan Downie Chapter 59. Dissecting The Roles in Outer and Inner Root Cell Layers of Plant Genes That Control Rhizobial Infection and Nodule Organogenesis Clare Gough Chapter 60. The Medicago truncatula NIP/LATD Transporter Is Essential for Nodulation and Appropriate Root Architecture Rebecca Dickstein Chapter 61. A MYB Coiled Coil Type Transcription Factor Interacts with NSP2 and Is Essential for Nodulation in Lotus japonicus Zhongming Zhang Chapter 62. AP2/ERF Transcription Factors and Root Nodulation Fernanda de Carvalo-Niebel Chapter 63. Identification of Medicago truncatula Genes Required for Rhizobial Invasion and Bacteroid Differentiation Peter Kalo Chapter 64. Multifacetted Roles of Nitric Oxide in Rhizobium-Legume Symbioses Eliane Meilhoc Chapter 65. Profiling Symbiotic Responses of Sinorhizobium fredii Strain NGR234 with RNA-seq Xavier Perret Chapter 66. Computational and Experimental Evidence That Auxin Accumulation in Nodule and Lateral Root Primordia Occurs by Different Mechanisms Eva Elisabeth Deinum Section 11. Transitions from the Bacterial to the Bacteroid State Chapter 67. Bacteroid Differentiation in Legume Nodules: Role of AMP-like Host Peptides in the Control of the Endosymbiont Eva Kondorosi Chapter 68. The Symbiosome Membrane Penelope Smith Section 12. Nitrogen Fixation, Assimilation and Senescence in Nodules Chapter 69. Nodulin Intrinsic Proteins: Facilitators of Water and Ammonia Transport across the Symbiosome Membrane Daniel Roberts Chapter 70. Leghemoglobins with Nitrated Hemes in Legume Root Nodule Manuel Becana Chapter 71. The Role of 1-aminocyclopropane-1-carboxylase Enzyme in Leguminous Nodule Senescence Neung Teaumroong Section 13. Microbial Omics Chapter 72. Pool-Seq Analysis of Microsymbiont Selection by the Legume Plant Host Juan Imperial Chapter 73. Contribution of the RNA Chaperone Hfq to Environmental Fitness and Symbiosis in Sinorhizobium meliloti Jose I. Jimenes-Zurdo Chapter 74. Biodiversity, Symbiotic Efficiency and Genomics of Rhizobium tropici and Related Species Mariangela Hungria Chapter 75. The Frankia alni Symbiotic Transcriptome Philippe Normand Chapter 76. A Comprehensive Survey of Soil Rhizobiales Using High-Throughput DNA Sequencing Ryan Jones Chapter 77. Gene Targeted Metagenomics of Diazotrophs in Coastal Saline Soil Bhanavath Jha Section 14. Plant Omics and Functional Genetics Chapter 78. The Medicago truncatula Genome Frederic Debelle Chapter 79. Leveraging Large-Scale Approaches to Dissect the Rhizobia-Legume Symbiosis Oswaldo Valdes-Lopez Chapter 80. LegumeIP: An Integrative Platform for Comparative Genomics and Transcriptomics of Model Legumes Patrick Xuechun Zhao Chapter 81. Databases of Transcription Factors in Legumes Lam-son Phan Tran Chapter 82. Functional Genomics of Symbiotic Nitrogen Fixation in Legumes with a Focus on Transcription Factors and Membrane Transporters Michael Udvardi Chapter 83. Retrotransposon (Tnt1)-insertion Mutagenesis in Medicago as a Tool for Genetic Dissection of Symbiosis in Legumes Michael Udvardi Section 15. Cyanobacteria and Archaea Chapter 84. Marine Titrogen Fixation: Organisms, Significance, Enigmas and Future Directions Jonathan Zehr Chapter 85. Requirement of Cell Wall Remodelling for Cell-Cell Communication and Cell Differentiation in Filamentous Cyanobacteria of the Order Nostocales Karl Forchhammer Chapter 86. Nitrogen Fixation in the Oxygenic Phototrophic Prokaryotes (Cyanobacteria): The Fight Against Oxygen Enrique Flores Chapter 87. Underestimation of Marine Dinitrogen Fixation: A Novel Method and Novel Diazotrophic Habitats Ruth Schmitz Section 16. Diazotrophic Plant Growth Promoting Rhizobacteria and Non-Legumes Chapter 88. One Hundred Years Discovery of Nitrogen-Fixing Rhizobacteria Claudine Elmerich Chapter 89. Symbiotic Nitrogen Fixation in Legumes: Perspectives on the Diversity and Evolution of Nodulation by Rhizobium and Burkholderia Species Ann Hirsch Chapter 90. Agronomic Applications of Azospirillum and Other PGPR Yaacov Okon Chapter 91. Auxin Signaling in Azospirillum brasilense: A Proteome Analysis Stijn Spaepen Chapter 92. Genetic and Functional Characterization of Paenibacillus riograndensis: A Novel Plant Growth Promoting Bacterium Isolated from Wheat Luciane Passaglia Chapter 93. Role of Herbaspirillum seropedicae LPS in Plant Colonization Rose Adele Monteiro Chapter 94. Culture-independent Assessment of Diazotrophic Bacteria in Sugarcane and Isolation of Bradyrhizobium spp. from Field Grown Sugarcane Plants Using Legume Trap Plants Anton Hartmann Chapter 95. How Fertilization Affects the Selection of Plant Growth Promoting Rhizobacteria by Host Plants Luciane Passaglia Section 17. Field Studies, Inoculum Preparation, Applications of Nod Factors Chapter 96. Appearance of Membrane Compromised, Viable But Not Culturable and Culturable Rhizobial Cells As A Consequence of Desiccation Jan Vriezen Chapter 97. Making the Most of High Quality Inoculants Rosalind Deaker Chapter 98. Rhizobiophages As Markers in The Selection of Symbiotically Efficient Rhizobia for Legumes Felix Dakora Chapter 99. Nitrogen Fixation with Soybean: The Perfect Symbiosis? Mariangela Hungria Chapter 100. Nodule Functioning and Symbiotic Efficiency of Cowpea and Soybean Varieties in Africa Flora Pule Meulenberg Chapter 101. Microbial Quality of Commercial Inoculants to Increase BNF and Nutrient Use Efficiency Didier Lesueur Chapter 102. Developed Fungal-Bacterial Biofilms Having Nitrogen Fixers: Universal Biofertilizers for Legumes and Non-legumes H.M. Herath Chapter 103. Phenotypic Variation in Azospirillum spp. and Other Root-Associated Bacteria Anton Hartmann Chapter 104. The physiological mechanisms of desiccation tolerance in rhizobia Andrea Casteriano Chapter 105. Food Grain Legumes: Their Contribution to Soil Fertility and Human Nutrition and Health in Africa Felix Dakora Chapter 106. Plant Breeding for Biological Nitrogen Fixation: A Review Peter Kennedy Chapter 107. LCO Applications Provide Improved Responses with Legumes and Non-legumes Stewart Smith Section 18 Nitrogen Fixation and Cereals Chapter 108. The Quest for Biological Nitrogen Fixation in Cereals : A Perspective and Prospective Frans J. de Bruijn Chapter 109. Environmental and Economic Impacts of Biological N2 Fixing (BNF) Cereal Crops Perrin Beatty Chapter 110. Conservation of the Symbiotic Signalling Pathway between Legumes and Cereals: Did Nodulation Constraints Drive Legume Symbiotic Genes to Become Specialised During Evolution? Charles Rosenberg Chapter 111. Occurrence and Ecophysiology of the Natural Endophytic Rhizobium-rice Association, and Translational Assessment of its Biofertilizer Performance within the Egypt Nile Delta Youssef Yanni Section 19. Concluding Chapters Chapter 112. The Relevance of N-fixation and N-recyling for Insect Biomass and N-balances of Ecosystems Martin Heil Chapter 113. Rapid Identification of Nodule Bacteria with MALDI-TOF Mass Spectrometry Xavier Perret Chapter 114. The Microbe-Free Plant: Fact or Artefact? Martin Heil

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Szczegóły: Biological Nitrogen Fixation 2 vols

Tytuł: Biological Nitrogen Fixation 2 vols
Producent: John Wiley
ISBN: 9781118637043
Rok produkcji: 2015
Ilość stron: 1260
Oprawa: Twarda
Waga: 0.67 kg


Recenzje: Biological Nitrogen Fixation 2 vols

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