The unsaturated fatty acid requirement in Escherichia coli Temperature dependence and total replacement by branched-chain fatty acids

Abstract

The present study evaluates the unsaturated fatty acid requirement in Escherichia coli. A derivative of a double mutant defective both in unsaturated fatty acid biosynthesis and in fatty acid degradation has been selected which grows equally well on anteisopentadecanoate ( 12-Me-14:0) or cis-Δ 9- octadecenoate ( cis-δ 9-18:1 ). When this strain is grown for many generations on 12-Me-14:0, there is extensive incorporation of this analogue into the membrane phospholipid and essentially no detectable unsaturated fatty acids residues in any lipid-containing structures of the cell envelope. Secondly, as the maximal growth temperature of E. coli is approached, the minimum content of unsaturated fatty acid required by this strain for growth decreases to a few percent and is associated with the appearance of substantial amounts of 12:0 (8%) and 14:0 (50%) in the phospholipid. These experiments demonstrate that the cis unsaturated fatty acids of E. coli phospholipids can be replaced by residues which possess no special electronic configuration. Hence, the unsaturated fatty acids do not participate in specific interactions with other membrane components but serve a general role of controlling the packing of paraffin chains in the membrane bilayer.