Biological Nitrogen Fixation and Beneficial Plant-Microbe Interaction

<div>PREFACE </div><div>Part 1. Ecology, diversity, and evolution of Plant Probiotic Microorganisms (PPM) </div><div>1. Identification of human pathogenic bacteria in plant roots by using MALDI-TOF MS methodology</div><div>2. Rhizobial biofertilizers for ornamental plants</div><div>3. Analysis of the PGPB potential of bacterial endophytes associated to maize</div><div>4. Identification of rhizobial strains nodulating Pisum sativum in Northern Spain soils by MALDI-TOF&nbsp;</div>&nbsp; &nbsp;MS (matrix-assisted laser desorption ionization time-of-flight mass spectrometry) analysis<div>5. Analysis of cultivable endophytic bacteria in roots of maize in a soil from León province in&nbsp;</div><div>&nbsp; &nbsp;mainland Spain</div><div>Part II. Genetics, genomics and proteomics of PPM and their associated plants </div><div>6. Molecular determinants of negative regulation of the Bradyrhizobium diazoefficiens transcription&nbsp;</div><div>&nbsp; &nbsp;factor FixK2</div><div>7. MALDI-TOF MS (matrix-assisted laser desorption ionization time-of-flight mass spectrometry)&nbsp;</div><div>&nbsp; &nbsp;analysis &nbsp;of rhizobia nodulating Phaseolus vulgaris in different soils</div><div>Part III. Plant-microorganisms interactions </div><div>8. Optimization of the immunodetection of tagged-LYK3 Nod-factor receptor in Medicago truncatula &nbsp;&nbsp;</div><div>&nbsp; &nbsp;root extracts</div><div>9. Functional Characterization of a Chitinase Class III (CgCHI3) and a Glutathione S-transferase&nbsp;</div><div>&nbsp; &nbsp;CCgGST) involved in Casuarina glauca-Frankia symbiosis</div><div>10.Effective colonization of spinach root-surface by Rhizobium</div><div>11.Interactions between Micromonospora and arbuscular mycorrhizal fungi</div><div>12.Different effects on Vigna unguiculata plants after the inoculation with strains from two&nbsp;</div><div>&nbsp; &nbsp;Bradyrhizobium symbiovars</div><div>Part IV. Physiology and biochemistry of beneficial microorganisms and associated plants 150<<div>13.Salt stress tolerance in Casuarina glauca and its relation with nitrogen-fixing Frankia bacteria</div><div>Part V. Inoculants for agriculture and environmental science </div><div>14.Induced Systemic Resistance could explain the reduction in the incidence of black sigatoka&nbsp;</div><div>&nbsp; &nbsp;(Mycosphaerella fijiensis) in banana plants inoculated with bacteria isolated from banana tree &nbsp;</div><div>&nbsp; &nbsp;roots in the Dominican Republic</div><div>15.Microbial inoculants with autochthonous bacteria for biodiverse legume pastures in Portuguese&nbsp;</div><div>&nbsp; &nbsp;agro-forestry ecosystems</div><div>16.Improving legume-rhizobium symbiosis for copper phytostabilization through genetic&nbsp;</div><div>&nbsp; &nbsp;manipulation of both symbionts</div><div>17.Symbiotic and agronomic characterization of Bradyrhizobial strains nodulating cowpea in&nbsp;</div><div>&nbsp; &nbsp;Northern Peru</div><div>18.Rhizobium as potential biofertilizer of Eruca sativa<div>19.Biocontrol of Fusarium oxysporum f.sp. phaseoli and Phytophthora capsici with autochthonous&nbsp;</div><div>&nbsp; &nbsp;endophytes in common bean and pepper in Castilla y León (Spain)&nbsp;</div><div>20.Disease control and plant growth promotion (PGP) of selected bacterial strains in Phaseolus&nbsp;</div><div>&nbsp; &nbsp;vulgaris</div><div><br></div>