86419-85-4Relevant academic research and scientific papers
Dihydroceramide Δ4 desaturase initiates substrate oxidation at C-4
Savile,Fabrias,Buist
, p. 4382 - 4385 (2001)
The intermolecular primary deuterium isotope effects on the individual C-H bond cleavage steps involved in dihydroceramide Δ4 desaturation have been determined for the first time by incubating rat liver microsomes with 1:1 mixtures of nonlabeled substrate and the appropriate regiospecifically dideuterated analogue. Analysis of the enzymatic products via gas chromatography coupled to mass spectrometry showed that the introduction of the (E) double bond between C-4 and C-5 occurs in two discrete steps: cleavage of the C4-H bond was found to be very sensitive to isotopic substitution (kH/kD= 8.0 ± 8.0), while a negligible isotope effect (kH/kD= 1.02 ± 0.07) was observed for the C5-H bond-breaking step. According to a mechanistic model that we have previously proposed, these results suggest that initial oxidation for this desaturation reaction occurs at C-4. This finding correlates nicely with the observation that 4-hydroxylated products are produced from a similar substrate by a closely related oxidative enzyme in yeast.
The Nominal Butyl Ester Ion in the Mass Spectra of Long-Chain n-Alkyl Esters: A Postcript
Meyerson, Seymour,Kuhn, Eugene S.,Puskas, Imre,Fields, Ellis K.,Leitch, Leonard C.,et. al.
, p. 110 - 113 (2007/10/02)
n-Octadecyl benzoate, taken as a model for long-chain n-alkyl carboxylates generally, loses C14H28 under electron impact to yield a product with the same elemental composition as the butyl benzoate molecular ion.This product retains quantitatively one hyd
