Isolation and identification of poly beta hydroxybutyric acid accumulating bacteria of Staphylococcal sp. and characterization of biodegradable polyester.

Staphylococcus sp. strain BP/SU1, capable of degrading the biopolymer and utilize it as a source of carbon and energy, was isolated from activated sludge using METABOLIX (MBX D411G). It was found that this strain was capable of accumulating poly(3-hydroxybutyric acid) P(3-HB), as granule poly (3-hydroxybutyric acid), p(3-HB), inclusion bodies when grown under suitable nutrient conditions. These strains could sustain cell growth up to a dry mass of 9.24 g/l with a doubling time of 8 to 10 hr and could accumulate P(3-HB) as granular inclusion bodies to a cell dry weight of more than 12%. P(3-HB) accumulated by this organism was isolated and characterized through NMR, FT-IR spectroscopy, UV Spectroscopy, Mass spectroscopy and Differential Scanning Calorimetry. P(3-HB) granules so isolated showed physical and chemical properties that should be possessed by a superior quality thermoplastic biopolymer.

Construction of shuttle vectors for cloning in Vibrio cholerae and Escherichia coli.

Starting from a naturally occurring cryptic plasmid pVC540 of Vibrio cholerae non-OI. strain 1095, a number of plasmid vectors have been constructed for cloning genes in Vibrio cholerae by introducing antibiotic resistance markers containing a set of unique cloning sites. The constructs pVC810 and pVE920 have the origins of both Vibrio cholerae and Escherichia coli replicons and are stable in both organisms in the absence of selective pressure. These plasmids can serve as shuttle vectors between Escherichia coli and Vibrio cholerae. The plasmid vectors reported here along with the demonstration of transformation in Vibrio cholerae by plasmid DNA will facilitate genetic analysis of this important human pathogen.