02820naa a2200337 a 450000100080000000500110000800800410001902400450006010000230010524501350012826000090026352017360027265000230200865000190203165000190205065000220206965000260209165000220211765000240213965000290216365000260219265300400221870000220225870000190228070000140229970000280231370000170234170000170235870000220237577300850239720942572018-08-22       2018    bl uuuu     u00u1 u    #d7 ahttp://dx.doi.org/10.19084/RCA173392DOI1 aNUNES, G. F. de O.  aPolyphasic characterization of forage legumes root nodule bacteria isolated from semiarid region in Brazil.h[electronic resource]  c2018  aForage legumes are important resources in semiarid regions due to their abilities to adapt to soils with low fertility and fix nitrogen when associated with diazotrophic bacteria. Here, we applied a polyphasic approach to characterize a set of legume nodule isolates obtained from Clitoria ternatea and Stylosllntlzes capitata cultivated in the soils of a semiarid region of Brazil. A tolal of 126 bacterial isolates were obtained: 45 isolates frorn C. ternatea and 81 isolates from S. capitata. Nodulation tests revealed only ten isolates that nodulated their original host: six isolates from C. iernaiea and four isolates from S. capitata. These ten legume nodule isolates were phenotypically and genotypically characterized. All isolates grew in fructose, glucose, sodium glutamate, maltose, xylose. and sucrose. Metabolic tests showed a relationship between tolerance to salt and high temperaturas, where isolates that tolerated the highest salt concentration also tolerated the highest ternperature. Three isolates showed amylolytic activity, and four isolates showed carboxymethyl cellulolytic activity. 5treptomycin was the most limiting and nalidixic acid was the least limiting antibiotic to bacterial growth. Seven out of ten isolates were indol-acetic acid producers. Additionally, 165 rRNA gene partial sequencing enabled the identification of members of the genera Bacillus (1), Bradvrhizobium (4), Leifeonia (3), Microvirga (1), and Rhizobium (1). These data reveal phenotypically and genotypically di verse bacteria inhabiting the nodules of the forage legumes C. tematea and S. capitata represent an important microbial source to protect new biotechnological products and improve forage legumes in semiarid regions.  aBiological control  aBradyrhizobium  aForage legumes  aNitrogen fixation  aStylosanthes capitata  aClitoria Ternatea  aControle Biológico  aFixação de Nitrogênio  aLeguminosa Forrageira  aFixação biológica do nitrogênio1 aMENEZES, K. A. S.1 aSAMPAIO, A. A.1 aLEITE, J.1 aFERNANDES JUNIOR, P. I.1 aSEIDO, S. L.1 aZILLI, J. E.1 aMARTINS, L. M. V.  tRevista de Ciências Agrárias, Lisboagv. 41, n. 3, p. 612-624, jul./set. 2018.