The effects of high dietary levels of phosphatidylethanolamine (PE) on plasma concentrations of homocysteine (tHcy) have not previously been studied. Eighteen mink (Mustela vison) studied were fed one of three diets during a 25d period in a parallel-group design. The compared diets had 0, 17 and 67% extracted lipids from natural gas-utilising bacteria (LNGB), which were rich in PE. The group with 0% LNGB was fed a diet of 100% soyabean oil (SB diet). Phospholipids are the main lipid components in LNGB and Methylococcus capsulatus is the main bacteria (90%). The fasting plasma concentration of tHcy was significantly higher when the mink consumed the diet with 67% LNGB than when they consumed the SB diet (P=0·039). A significantly lower glutathione peroxidase activity was observed in mink consuming the 17% LNGB diet or the 67% LNGB diet than was observed in mink fed the SB diet. The lack of significant differences in the level of plasma PE due to the diets indicates that most of the PE from the 67% LNGB diet was converted to phosphatidylcholine (PC) in the liver. It has previously been hypothesised that phosphatidylethanolamine N-methyltransferase is an important source of tHcy. The present results indicate that plasma tHcy is at least partly regulated by phospholipid methylation from PE to PC. This methylation reaction is a regulator of physiological importance.