Dissolving mechanism of strain P17 on insoluble phosphorus of yellow-brown soil

Strain P17 was a bacterial strain identified as Bacillus megaterium isolated from ground accumulating phosphate rock powder. The fermentation broth of strain P17 and the yellow-brown soil from Nanjing Agricultural University garden were collected to conduct this study. The simulation of fixed insoluble phosphorous forms after applying calcium superphosphate into yellow-brown soil was performed in pots, while available P and total P of soil were extremely positive correlative with those of groundwater. Then the dissolving effect of strain P17 on insoluble P of yellow-brown soil was studied. Results showed that Bacillus megaterium strain P17 had notable solubilizing effect on insoluble phosphates formed when too much water-soluble phosphorous fertilizer used. During 100 days after inoculation, strain P17 was dominant. Until the 120th day, compared with water addition, available P of strain P17 inoculation treated soil increased by 3 times with calcium superphosphate addition. Besides available P, pH, activity of acid and alkaline phosphatase and population of P-solubilizing microbes were detected respectively. P-solubilizing mechanism of P-solubilizing bacteria strain P17 seems to be a synergetic effect of pH decrease, organic acids, phosphatase, etc.

Enriquecimiento en mutantes de Bacillus megaterium deficientes en la síntesis de poli-ß-hidroxibutirato (PHB) / Enrichment for mutants of Bacillus megaterium deficient in the synthesis of poly-ß-hydroxybutyrate (PHB)

La centrifugación en gradientes de sacarosa permite la separación de células según su densidad boyante de acuerdo al contenido en poli-ß-hidroxibutirato (PHB). En este trabajo este método se evaluó y se adaptó para detectar mutantes deficientes en la síntesis de PHB de B. megaterium analizando un bajo porcentaje de la población mutagenizada