ABSTRACT
An antibacterial metabolite extracted from Paenibacillus polymyxa HKA-15 showed strong inhibition against Xanthomonas campestris pv. phaseoli strains CP-1-1 and M-5. Minimum inhibitory concentration (MIC) of crude extract against strains CP-1-1 and M-5 was found to be 1.7 mg/ml and 1.52 mg/ml, respectively. In UV-Vis range, the absorption peak of crude extract was maximum at 240 nm. The compound is resilience to wide range of temperature, pH, surfactants and organic solvents. The complete loss of activity was observed when crude metabolite was treated with pepsin (400 unit / ml). Characterization of crude metabolite suggested its hydrophobic and peptide nature. Inhibition of Xanthomonas campestris pv. phaseoli by peptide like metabolite produced by Paenibacillus polymyxa strain HKA-15 under in vitro conditions showed ecological and biotechnological potential of strain HKA-15 to control common blight disease in beans.
ABSTRACT
Sinorhizobium fredii USDA257 forms nitrogen-fixing nodules in association with the primitive soybean cultivar 'Peking' but fails to initiate nodules on many advanced soybean cultivars, including 'McCall'. This distinction is controlled by a set of nodulation genes termed nolXWBTUV. Inactivation of any of these genes enables USDA257 to nodulate McCall and many other improved soybean cultivars. Mutation in the nolXWBTUV locus also alters the Nod factor structure resulting in the production of a novel molecule with glucose incorporated into the chitin backbone. Some of the genes located in the nolXWBTUV locus reveal sequence homologies to known components of the type III secretion system (TTSS) of plant and animal pathogenic bacteria. Recent studies have demonstrated the presence of a complete TTSS in USDA257 and few other symbiotic bacteria. The TTSS cluster of USDA257 contains 27 open reading frames out of which 10 code for the structural components of the TTSS. USDA257, when grown in presence of flavonoids, secrete several proteins called Nops (Nodulation Outer Proteins) into the extracellular environment. Genes located in the TTSS of USDA257 encode some of the extracellular proteins, such as NopX, NopB, and NopL. These type III secreted proteins appear to play an important role in regulating nodulation in a host-dependent manner. Failure to elaborate the Nops results in a drastic phenotypic effect on soybean nodulation, indicating that these proteins may play a pivotal role in soybean cultivar specificity. The secretion of Nops appears to be facilitated by novel filamentous appendages (pili) that are produced by USDA257 upon induction by flavonoids. Biochemical studies have demonstrated the close association of several Nops with the purified pili. However, it remains to be seen if the filamentous appendages can function as conduits for delivery of Nops into the host cell. This review examines the current state of our knowledge on the molecular aspects of soybean cultivar-specific nodulation by USDA257.