The relative antioxidant activity and steric structure of green tea catechins - A kinetic approach.

There are eight most abundant green tea catechins (GTCs) existing in four pairs of eipimers, and carbon-3 configuration represents the only steric difference within each pair. This study aimed to use a new kinetic approach to elucidate the effect of stereochemical changes on the antioxidant activity. A mixture of eight GTCs was treated by 2,2-diphenyl-1-picrylhydrazyl (DPPH) prepared in a series of concentrations, their relative reaction rates towards scavenging DPPH were revealed by the recently introduced parameter, i.e. Dm. The 3-R configuration in (-)-epicatechin, (-)-epigallocatechin and (-)-epigallocatechin gallate gave lower Dm values demonstrating faster kinetics as opposed to their 3-S counterparts, with the only exception of the pair of (-)-catechin gallate and (-)-epicatechin gallate in which 3-S configuration was faster. These results suggested that the kinetic approach adopted in this study could reflect the different antioxidant activity of GTCs attributed by minor steric changes.

A new parameter to simultaneously assess antioxidant activity for multiple phenolic compounds present in food products.

In this work, we established a new methodology to simultaneously assess the relative reaction rates of multiple antioxidant compounds in one experimental set-up. This new methodology hypothesizes that the competition among antioxidant compounds towards limiting amount of free radical (in this article, DPPH) would reflect their relative reaction rates. In contrast with the conventional detection of DPPH decrease at 515nm on a spectrophotometer, depletion of antioxidant compounds treated by a series of DPPH concentrations was monitored instead using liquid chromatography coupled with quadrupole time-of-flight (LC-QTOF). A new parameter, namely relative antioxidant activity (RAA), has been proposed to rank these antioxidants according to their reaction rate constants. We have investigated the applicability of RAA using pre-mixed standard phenolic compounds, and also extended this application to two food products, i.e. red wine and green tea. It has been found that RAA correlates well with the reported k values. This new parameter, RAA, provides a new perspective in evaluating antioxidant compounds present in food and herbal matrices. It not only realistically reflects the antioxidant activity of compounds when co-existing with competitive constituents; and it could also quicken up the discovery process in the search for potent yet rare antioxidants from many herbs of food/medicinal origins.

Multiplex single-nucleotide polymorphism typing by nanoparticle-coupled DNA-templated reactions.

A novel chip-based detection approach for single-nucleotide polymorphism (SNP) typing based on nanoparticle-coupled DNA-templated ligation reactions is reported. In contrast to conventional methods or recently developed techniques, this approach does not need costly instrumentation and complex stringency washing processes and offers both rapid multiplex SNP detection capability and ultrahigh sensitivity. The ability of the approach to quickly identify the precise location of the single-base mismatch may provide a time-efficient method for high-throughput multiplex SNP genotyping.