Biological nitrogen fixation: 1
Gespeichert in:
| Weitere Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Hoboken [u.a.]
Wiley-Blackwell
2015
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| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XXVIII, 497 S. Ill., graph. Darst. |
| ISBN: | 9781118637128 |
Internformat
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| 245 | 1 | 0 | |a Biological nitrogen fixation |n 1 |c ed. by Frans J. de Bruijn |
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Datensatz im Suchindex
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|---|---|
| adam_text | Contents
Preface xiii
Acknowledgments xv
Contributors xvii
VOLUME 1
1. Introduction
Frans J. de Bruijn
9
l
Section 1 Focus Chapters
2. Recent Advances in Understanding Nitrogenases and How They Work 7
William E. Newton
3. Evolution and Taxonomy of Nitrogen-Fixing Organisms with Emphasis on Rhizobia 21
Kristina Lindström, Aregu Amsalu Aserse, and Seyed Abdollah Mousavi
4. Evolution of Rhizobium Nodulation: From Nodule-Specific Genes (Nodulins)
to Recruitment of Common Processes 39
Sjef Moling and Ton Bisseling
5. Bioengineering Nitrogen Acquisition in Rice: Promises for Global Food Security 47
vu
Herbert J. Kronzucker and Devrim Coskun
Contents
yin
Section 2 Chemistry and Biochemistry of Nitrogenases
6. An Overview on Fe-S Protein Biogenesis from Prokaryotes to Eukaryotes 59
Mahipal Singh Kesawat, Basanta Kumar Das, Manu Kumar, Govindaraj Ramakanirao
Bhaganagare, and Manorama
7. Biosynthesis of the Iron-Molybdenum Cofactor of Nitrogenase 75
Emilio Jiménez-Vicente, Jose A. Hernandez, Carlos Echavarri-Erasun, and Luis M. Rubio
8. Distribution and Ecological Niches of Nitrogenases 87
Alexander N. Glazer, Katerina Kechris, and James B. Howard
Section 3 Expression and Regulation of Nitrogen Fixation Genes and Nitrogenase
9. Regulation of nif Gene Expression in Azotobacter vinelandii 101
César Poza-Carrion, Carlos Echavarri-Erasun, and Luis M. Rubio
10. Regulatory Coupling of Nitrogen and Carbon Metabolism in Nitrogen-Fixing
Pseudomonas stutzeri A1501 109
Min Lin, Yongliang Yan, Wei Lu, Yuhua Zhan, Yunhua Zhang, and Claudine Elmerich
11. Regulation of Nitrogen Fixation and Molybdenum Transport in Rhodobacter capsulatus 121
Bernd Masepohl
12. Metabolic Regulation of Nitrogenase Activity’ in Rhodospirillum rubrum:
The Role of PII Proteins and Membrane Sequestration 131
Stefan Nordlund
13. How Does the DraG-Pn Complex Regulate Nitrogenase Activity in Azospirillum brasilense? 139
Xiao-Dan Li, Fritz K Winkler, and Luciano F. Huergo
14. Fe Protein Overexpression Can Enhance the Nitrogenase Activity of Azotobacter vinelandii 147
Papri Nag and Subrata Pal
15. FNR-Like Proteins in Rhizobia: Past and Future 155
David Zamorano-Sdnchez and Lourdes Girard
Section 4 Taxonomy and Evolution of Nitrogen Fixing Organisms
16. Exploring Alternative Paths for the Evolution of Biological Nitrogen Fixation 169
John W. Peters and Eric S. Boyd
Contents
17. Phytogeny, Diversity, Geographical Distribution, and Host Range of
Legume-Nodulating Betaproteobacteria: What Is the Role of Plant Taxonomy? 177
Lionel Moulin, Euan K. James, Agnieszka Klonowska, Sergio Miana de Faria,
and Marcelo E Simon
18. Bradyrhizobium, the Ancestor of All Rhizobia: Phylogeny of Housekeeping
and Nitrogen-Fixation Genes 191
Mariangela Hungria, Pâmela Menna, and Jakeline Renata Marçon Delamuta
19. Interaction between Host and Rhizobial Strains: Affinities and Coevolution 203
O. Mario Aguilar, Maria Pla Beker, Flavio A. Blanco, Maria Eugenia Zanetti, and Priscila A.
Calderoli
20. Assessment of Nitrogenase Diversity in the Environment 209
John Christian Gaby and Daniel H. Buckley
Section 5 Genomics of Nitrogen Fixing Organisms
21. Genetic Regulation of Symbiosis Island Transfer in Mesorhizobium loti 219
Joshua P. Ramsay and Clive W. Ronson
22. The Azotobacter vinelandii Genome: An Update 225
Joâo C. Setubal and Nalvo F Almeida
23. The Genome Sequence of the Novel Rhizobial Species Microvirga lotononidis Strain
WSM3557t 235
Julie Ardley, Nikos Kyrpides, Natalia Ivanova, Tanja Woyke, and Wayne Reeve
24. Genome Characteristics of Frankia sp. Reflect Host Range and Host Plant Biogeography 245
Philippe Normand, David R. Benson, and Louis S. Tisa
25. Core and Accessory Genomes of the Diazotroph Azospirillum 253
Florence Wisniewski-Dyé, Benoît Drogue, Stéphanie Borland, Claire Prigent-Combaret, Kirill
Borziak, Igor B. Zhulin, Luis Lozano, Victor Gonzdles, and Patrick Mavingui
26. Pangenome Evolution in the Symbiotic Nitrogen Fixer Sinorhizobium meliloti 265
Marco Galardini, Francesco Pini, Marco Bazzicalupo, Emanuele G. Biondi,
and Alessio Mengoni
27. Pangenomic Analysis of the Rhizobiales Using the GETJHOMOLOGUES
Software Package 271
Pablo Vinuesa and Bruno Contreras-Moreira
X
Contents
Section 6 Physiology and Metabolism of Nitrogen Fixing Organisms
28. Metabolism of Photosynthetic Bradyrhizobia during Root and Stem Symbiosis
with Aeschynomene Legumes 283
Benjamin Gourion, Katia Bonaldi, and Eric Giraud
29. A Plethora of Terminal Oxidases and Their Biogenesis Factors in Bradyrhizobium
japonicum 293
Zeb A. Youard, Helge K. Abicht, Elisabeth Mohorko, Fabio Serventi, Eugenia Rigozzi, Raphael
Ledermann, Hans-Martin Fischer, Rudi Glockshuber, and Hauke Hennecke
30. Rhizobial Extracytoplasmic Function (ECF) r Factors and Their Role in Oxidative
Stress Response of Bradyrhizobium japonicum 307
Nadezda Masloboeva, Hauke Hennecke, and Hans-Martin Fischer
31. Role of the Bacterial BacA ABC-Transporter in Chronic Infection of Nodule Cells
by Rhizobium Bacteria 315
Ibtissem Guefrachi, Camille Verly, Eva Kondorosi, Benoit Alunni, and Peter Mergaert
32. Molecular Keys to Broad Host Range in Sinorhizobium fredii NGR234, USDA257,
and HH103 325
Dagmar Krysciak, Mariita Rodriguez Orbegoso, Christel Schmeisser, and Wolfgang R. Streit
33. Motility and Chemotaxis in the Rhizobia 337
Dinah D. Tambalo, Christopher K. Yost, and Michael F Hynes
34. The PTSNtr System Globally Regulates ATP-Dependent Transporters in Rhizobium
leguminosarum 349
Jürgen Prell, Philip Poole, Verena Untiet, and Ramakrishnan Karunakaran
Section 7 Nitrogen Fixing Organisms, the Plant Rhizosphere and Stress Tolerance
35. Actinorhizal Plant Root Exudates Alter the Physiology, Surface Properties,
and Plant Infectivity of Frankia 359
Nicholas J. Beauchemin, Faten Ghodhbane-Gtari, Teal Furnholm, Julien Lavenus, Sergio Svistoonoff,
Patrick Doumas, Didier Bogusz, Laurent Laplaze, and Louis S. Tisa
36. Exopolysaccharide Production in Rhizobia Is Regulated by Environmental Factors 365
Monika Janczarek
37. Regulation of Symbiotically Important Functions by Quorum Sensing
in the Sinorhizobium meliloti - Alfalfa Interaction 381
Luciana V Rinaudi-Marron and Juan E. Gonzdlez
Contents
38. Lumichrome: A Bacterial Signal Molecule Influencing Plant Growth 389
Felix D. Dakora
39. Genes Involved in Desiccation Resistance of Rhizobia and Other Bacteria 397
Jodi L. Humann and Michael L. Kahn
40. The General Stress Response in Alpha-Rhizobia 405
Laurent Sauviac, Bénédicte Bastiat, and Claude Bruand
Section 8 Physiology and Regulation of Nodulation
41. The Root Hair: A Single Cell Model for Systems Biology 417
Marc Libault
42. How Transcriptomics Revealed New Information on Actinorhizal Symbioses
Establishment and Evolution 425
Sergio Svistoonoff, Alexandre Tromas, Nathalie Diagne, Nicole Alloisio, Laurent Laplaze,
Antony Champion, Didier Bogusz, Jocelyne Bonneau, and Valérie Hocher
43. Molecular Biology of Infection and Nodule Development in Discaria trinervis -Frankia
Actinorhizal Symbiosis 433
Leandro Imanishi, Alice Vayssières, Virginie Vaissayre, Francine Perrine-Walker,
Daniel Moukouanga, Mikael Lucas, Hassen Gherbi, Laurent Laplaze, Luciano Gabbarini,
Claudio Valverde, Eugenia Chaia, Didier Bogusz, Claudine Franche, Luis Wall,
and Sergio Svistoonoff
44. Lotus japonieus Nodulates When It Sees Red 441
Maki Nagata, Ann M. Hirsch, and Akihiro Suzuki
45. Out of Water of a New Model Legume: The Nod-independent Aeschynomene evenia 447
Jean-François Arrighi and Fabienne Cartieaux
46. Phosphorus Use Efficiency for N2 Fixation in the Rhizobial Symbiosis with Legumes 455
Jean-Jacques Drevon, Josiane Abadie, Nora Alkama, Andry Andriamananjara, Laurie Amène,
Adnane Bargaz, Georg Carlssonn, Benoît Jaillard, Mohamed Lazali, Cherki Ghoulam, Sidi Mohamed
Ounane, Catherine Pernot, Bouaziz Sifi, Fatma Tajini, and Mainassera Zaman-AUah
47. Regulation of Nodule Development by Short- and Long-Distance Auxin Transport Control 465
Ulrike Mathesius, Jian Jin, Giel E. van Noorden, Liang P J. Ng, and Anton P Wasson
48. Functional Analysis of Nitrogen-Fixing Root Nodule Symbioses Induced by Frankia:
Transport and Metabolic Interactions 475
Alison M. Berry, Isaac Gifford, and Katharina Pawlowski
Contents
Xll
49. iVÖOT-Dependent Control of Nodule Identity: Nodule Homeosis and Merirostem
Perturbation 487
Jean-Malo Couzigou and Pascal Ratet
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| spelling | Biological nitrogen fixation 1 ed. by Frans J. de Bruijn Hoboken [u.a.] Wiley-Blackwell 2015 XXVIII, 497 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Stickstofffixierung (DE-588)4183273-5 gnd rswk-swf Stickstofffixierung (DE-588)4183273-5 s DE-604 Bruijn, Frans J. de edt (DE-604)BV042599730 1 Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=028032828&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Biological nitrogen fixation Stickstofffixierung (DE-588)4183273-5 gnd |
| subject_GND | (DE-588)4183273-5 |
| title | Biological nitrogen fixation |
| title_auth | Biological nitrogen fixation |
| title_exact_search | Biological nitrogen fixation |
| title_full | Biological nitrogen fixation 1 ed. by Frans J. de Bruijn |
| title_fullStr | Biological nitrogen fixation 1 ed. by Frans J. de Bruijn |
| title_full_unstemmed | Biological nitrogen fixation 1 ed. by Frans J. de Bruijn |
| title_short | Biological nitrogen fixation |
| title_sort | biological nitrogen fixation |
| topic | Stickstofffixierung (DE-588)4183273-5 gnd |
| topic_facet | Stickstofffixierung |
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