Mammalian target of rapamycin signaling inhibition ameliorates vascular calcification via Klotho upregulation

Oxidized 915 ABSTRACT Thiobarbituric acid (TBA) reaction of several aldehydes and oxidized lipids in glacial acetic acid was performed. All the samples were freely soluble in the solvent used. Saturated aldehydes produced a stable yellow pigment with an absorption maximum at 455 nm, a red pigment derived from malonaldehyde at 532 am, and an orange pigment due to dienals at 495 nm. The absorbance maximum was 7-9 per ~mol for saturated aldehydes, 27.5 per ~mol for malonaldehyde and about 2 per/~mol for dienals. Autoxidation of unoxidized lipids increased progressively in glacial acetic acid. When the TBA test was performed under nitrogen, autoxidation of unoxidized lipids was inhibited completely. While saturated aldehydes produced no yellow pigment under nitrogen, oxidized lipids produced a considerable amount of stable yellow pigment. The value for absorbance at 455 nm as a function of autoxidation time paralleled those of peroxide values. The absorbance of most oxidized llpids at 455 nm was higher than at 532 nm. Yellow pigment formation in the TBA test under nitrogen could not be ascribed to free saturated aldehydes but rather to unspecified closely related substances. The stable yellow pigment was found to be an excellent indicator of lipid oxidation.Lipids 20: 915-921, 1985.

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Thiobarbituric acid‐reactive substances from peroxidized lipids

Kosugi

Kojima

Kikugawa

1989

Lipids

136

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The thiobarbituric acid (TBA) reaction was performed on linoleic acid 13-monohydroperoxide, autoxidized fatty esters, edible fats and oils, rat liver microsomal lipids, and on human erythrocyte ghost lipids in order to determine which substances from peroxidized lipids are TBA-reactive. The reaction was carried out in 2% acetic acid containing butylated hydroxytoluene using two different reaction modes: a one-step mode which involves heating at 100°C, and a two-step mode which involves first treatment at 5°C and subsequent heating at 100°C. Yields of the red 1∶2 malonaldehyde/TBA adduct, as estimated by absorbance, fluorescence intensity and high-performance liquid chromatography, were much higher than the malonaldehyde content as determined by direct chemical analysis. Yields of red pigment obtained by the two-step mode were slightly higher than those obtained by the one-step mode. Pigment yields were dramatically increased by addition oft-butyl hydroperoxide. Red pigment formation from alkenals and alkadienals was similarly enhanced by the two-step mode or by addition oft-butyl hydroperoxide, whereas pigment formation from malonaldehyde was not. It appears likely that a component of the total red pigment formed from the peroxidized lipids was due to aldehyde species other than malonaldehyde.

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Characteristics of the thiobarbituric acid reactivity of oxidized fats and oils

Kosugi

Kojima

Kikugawa

1991

J Americ Oil Chem Soc

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The thiobarbituric acid (TBA) reactivity of oxidized methyl linoleate, soybean oil, sesame oil, lard, chicken oil and sardine oil was characterized by using four different methods with 0.01% butylated hydroxytoluene (BHT). Optimal pH for the reactivity of most of the oxidized samples was 3–4, and that of some samples was above 5. Introduction of 2 mMt‐butyl hydroperoxide (t‐Bu00H) or 0.2 mM ferric ion in the reaction markedly enhanced the reactivity. Introduction of 0.2 mM ethylenediamine tetraacetic acid suppressed the reactivity. The characteristics of the TBA‐reactivity of the samples were similar to those of alkadienals or alkenals. The most preferable method for the estimation of the TBA‐reactive substances of the oxidized fats and oils was that using solvents at pH 3.5 with introduction of BHT, andt‐Bu00H or ferric ion.

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Hiroko Kosugi

Interpretation of the thiobarbituric acid reactivity of rat liver and brain homogenates in the presence of ferric ion and ethylenediaminetetraacetic acid

Formation of yellow, orange, and red pigments in the reaction of alk-2-enals with 2-thiobarbituric acid

Thiobarbituric acid reaction of aldehydes and oxidized lipids in glacial acetic acid

Thiobarbituric acid‐reactive substances from peroxidized lipids

Characteristics of the thiobarbituric acid reactivity of oxidized fats and oils

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