Quantitative preparation of methyl esters of short-chain and long-chain fatty acids for gas chromatographic analysis

A protocol was developed for the analysis of volatile short chain fatty acids in microsamples of feces, short chain fatty acid (SCFA) extraction was from fecal samples using ethanol incorporating n-hexanoic acid as an internal standard. The SCFAs were converted to pentafluorobenzyl esters with alpha

Two sets of l-phenyl alkyl ester derivatives were synthesized from the acyl chlorides of medium-and long-chain fatty acids and l-phenyl-l-alkanols. The 'H-NMR analysis of these ester derivatives gave a characteristic signal at 5.73--5.89 6 for the methine proton (--COOCHPhR, where R = alkyl). The L3

techniques to measure fecal SCFA concentrations are A simple, reproducible, and rapid gas chromatorather cumbersome and time-consuming. Most procegraphic method for short-chain fatty acid determinadures involve some kind of pretreatment of the fecal tion in human feces was developed. It involves dir

The gas chromatographic quantification of long-chain aldehydes occurring in the cuticular waxes of numerous plant species is often non-reproducible when silylating or methylating derivatization reagents are applied. It is shown that, depending on reaction conditions, more than 50% of the aldehydes p

A system for separation and quantitation of free fatty acids by HPLC is described. This system provides for separation of short, medium, and long chain, saturated from unsaturated, branched from unbranched free fatty acids, and iso- from anteiso-branched acids of equal carbon number, and for their q