Applied Microbiology and Biotechnology, Vol.47, No.2, 132-139, 1997
Lipid Storage Compounds in Marine-Bacteria
Forty psychrophile or psychrotrophic crude-oil-utilizing marine bacteria were investigated for their ability to accumulate lipid storage compounds in the cytoplasm during cultivation under nitrogen-limiting conditions. Most of them (73%) were able to accumulate specialized lipids like polyhydroxyalkanoic acids (PHA) while other lipids such as wax esters occurred in two isolates. Accumulation of PHA occurred predominantly at low temperatures (4-20 degrees C) as demonstrated for three isolates. Electron microscopy revealed polyphosphate inclusions occurring in two isolates in addition to PHA. Cells of the isolate Acinetobacter sp. 211 were able to synthesize and accumulate lipid inclusions during growth on acetate, ethanol, olive oil, hexadecanol and heptadecane. The composition of the lipid inclusions depended on the compounds provided as carbon source. Wax esters and acylglycerols occurred mainly during the cultivation on olive oil; in contrast, wax esters and free alcohols occurred during cultivation on hexadecanol. Total fatty acids in cells of the Acinetobacter sp. 211 amounted to 25% of the cellular dry weight in olive-oil-grown cells. Palmitic acid was the main fatty acid in the lipids when the cells were cultivated on acetate or ethanol (44% and 32% of total fatty acids respectively). In contrast, fatty acids occurring in the lipids during cultivation on hexadecanol, heptadecane or olive oil were related to the carbon source. The fatty acids present in the accumulated lipids consisted predominantly of saturated and unsaturated straight-chain fatty acids with a chain length ranging from 12 to 18 carbon atoms. Analysis of the lipid-granule-associated proteins in cells of Acinetobacter sp. 211 revealed a protein of 39 kDa as the predominant protein species.
Keywords:POLYHYDROXYALKANOIC ACIDS;PSEUDOMONAS-OLEOVORANS;POLYACRYLAMIDE GELS;RHODOCOCCUS-RUBER;PROTEINS;BIOSYNTHESIS;BODIES;IDENTIFICATION;ACCUMULATION;METABOLISM