Michael Antolovich scite author profile

Antioxidant activity has been assessed in many ways. The limitation of many newer methods is the frequent lack of an actual substrate in the procedure. The combination of all approaches with the many test methods available explains the large variety of ways in which results of antioxidant testing are reported. The measurement of antioxidant activities, especially of antioxidants that are mixtures, multifunctional or are acting in complex multiphase systems, cannot be evaluated satisfactorily by a simple antioxidant test without due regard to the many variables influencing the results. Several test procedures may be required to evaluate such antioxidant activities. A general method of reporting antioxidant activity independent of the test procedure is proposed.

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Phenolic content and antioxidant activity of olive extracts

McDonald

et al. 2001

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Analytical Chemistry of Fruit BioflavonoidsA Review

Robards¹,

Antolovich²

1997

Analyst

423

262

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Sample preparation in the determination of phenolic compounds in fruits

Antolovich

Prenzler

Robards

et al. 2000

Analyst

269

178

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Biotransformations of phenolic compounds in Olea europaea L.

Ryan

Antolovich

Prenzler

et al. 2002

Scientia Horticulturae

216

152

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Identification of Phenolic Compounds in Tissues of the Novel Olive Cultivar Hardy's Mammoth

Ryan

Antolovich

Herlt

et al. 2002

J. Agric. Food Chem.

109

108

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A methodological approach to phenolic profiling making extensive use of LC-MS with extracted ion chromatograms was applied to extracts of five different olive tissues: pulp, seed, stone, new-season leaves, and old-season leaves. Tissue extracts of the cultivars Hardy's Mammoth, Corregiola, Verdale, and Manzanillo were analyzed by HPLC with UV and ESI MS detection. Chromatograms of samples of green Hardy's Mammoth drupes, a uniquely Australian olive cultivar, were dominated by a large, broad peak. This peak was not attributable to oleuropein, which is usually the dominant phenolic compound in green olive fruit, but the phenolic compound I. This compound was isolated by semipreparative HPLC and characterized by 1D- and 2D-NMR. Extraction studies showed that the compound was not likely to be an artifact of an enzymatic degradation process. Tritium labeling studies were used to establish a possible relationship between the biosynthesis of I and oleuropein.

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Quantitative Changes in Phenolic Content during Physiological Development of the Olive (Olea europaea) Cultivar Hardy's Mammoth

Ryan

Prenzler

Lavee

et al. 2003

J. Agric. Food Chem.

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This investigation was designed to characterize phenolic metabolism of the olive cultivar, Hardy's Mammoth, by examining its constitutive tissues. The phenolic profiles of pulp, seed, stone, and new and old season leaves were monitored over two fruiting seasons, to investigate possible relationships between tissues and phenol content and to determine the impact of alternate fruit bearing. No major qualitative differences in phenolic composition were found between the various tissues; however, distinct differences between the tissues with respect to quantifiable phenols were established. Relationships between 2-(3,4-dihydroxyphenyl)ethyl (3E,4E)-4-formyl-3-(2-oxoethyl)hex-4-enoate ester, oleuropein, and hydroxytyrosol in pulp and leaf were identified and found to be related to alternate bearing. Concentrations of 5-caffeoylquinic acid in old season leaves differed dramatically between seasons, confirming earlier studies.

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Liquid chromatography with electrospray ionisation mass spectrometric detection of phenolic compounds from Olea europaea

Ryan

Robards

Prenzler

et al. 1999

Journal of Chromatography A

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