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Literature DB >> 3185115

Analysis of free malondialdehyde in photoirradiated corn oil and beef fat via a pyrazole derivative.

Abstract

Malondialdehyde (MA) formed in linolenic acid, linoleic acid, corn oil and beef fat upon photoirradiation was determined by gas chromatography (GC). The MA produced was reacted with methylhydrazine to give 1-methylpyrazole and was subsequently analyzed on a GC equipped with a nitrogen-phosphorus specific detector and a fused silica capillary column. MA values determined by this method correspond to free or unbound MA levels. Linolenic and linoleic acids produced 867 micrograms MA/g and 106 micrograms MA/g, respectively. Oleic and stearic acids did not produce detectable levels of MA upon photoirradiation. Amounts of MA produced after eight hour irradiations of corn oil and beef fat were 56.24 micrograms/g and 25.01 micrograms/g, respectively. Some photoreaction products in irradiated corn oil also were identified as methylhydrazine derivatives.

Entities: Chemical Species

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Substances：

Year: 1988 PMID： 3185115 DOI： 10.1007/bf02536226

Source DB: PubMed Journal: Lipids ISSN： 0024-4201 Impact factor: 1.880

18 in total

1. Ageing of Neurospora crassa. IV. Induction of senescence in wild type by dietary amino acid analogs and reversal by antioxidants and membrane stabilizers.

Authors: K D Munkres
Journal: Mech Ageing Dev Date: 1976 May-Jun Impact factor: 5.432

5. Gas chromatographic analysis of malonaldehyde and 4-hydroxy-2-(E)-nonenal produced from arachidonic acid and linoleic acid in a lipid peroxidation model system.

Authors: H Tamura; T Shibamoto
Journal: Lipids Date: 1991-02 Impact factor: 1.880

5 in total

Analysis of free malondialdehyde in photoirradiated corn oil and beef fat via a pyrazole derivative.

1. Ageing of Neurospora crassa. IV. Induction of senescence in wild type by dietary amino acid analogs and reversal by antioxidants and membrane stabilizers.

Review 2. Regulation and deterioration of structure in membranes.

3. Inactivation of ribonuclease and other enzymes by peroxidizing lipids and by malonaldehyde.

4. Mutagenicity of malonaldehyde, a decomposition product of peroxidized polyunsaturated fatty acids.

5. Comparative studies on different methods of malonaldehyde determination.

6. Detection of malonaldehyde by high-performance liquid chromatography.

7. Antioxidants reduce the mutagenic effect of malonaldehyde and beta-propiolactone. Part IX. Antioxidants and cancer.

8. Measurement of free and bound malondialdehyde in vitamin E-deficient and -supplemented rat liver tissues.

9. High performance liquid chromatographic determination of malondialdehyde in vegetable oils.

10. Unequivocal demonstration that malondialdehyde is a mutagen.

1. Gas chromatographic analysis of free and bound malonaldehyde in rat liver homogenates.

2. Formation of genotoxic dicarbonyl compounds in dietary oils upon oxidation.

3. Gas chromatographic analysis of reactive carbonyl compounds formed from lipids upon UV-irradiation.

4. Formation of formaldehyde and malonaldehyde by photooxidation of squalene.

5. Gas chromatographic analysis of malonaldehyde and 4-hydroxy-2-(E)-nonenal produced from arachidonic acid and linoleic acid in a lipid peroxidation model system.