Antec

The ALEXYS Carbohydrates Analyzer is a robust and reliable solution for the analysis of carbohydrates in apple juice, buttermilk, malt beer, and artificial sweeteners.

The ALEXYS carbohydrates analyzer is a robust and reliable solution for the analysis of carbohydrates in apple juice, buttermilk, malt beer, and artificial sweeteners.

A simple and sensitive method is presented for the direct analysis of Glyphosate and AMPA in drinking water without sample derivatization or pre-concentration.

With Antec Scientific’s new µ-PrepCell-SS, electrochemical reduction of disulfide bonds in proteins, mAbs, and other biopharmaceuticals is possible in any LC-MS workflow.

With Antec Scientific’s new µ-PrepCell-SS, electrochemical reduction of disulfide bonds in proteins, mAbs, and other biopharmaceuticals is possible in any LC-MS workflow.

With Antec Scientific’s new ground-breaking µ-PrepCell-SS, electrochemical reduction of disulfide bonds in peptides, proteins, mAbs, and other biopharmaceuticals becomes possible routinely in LC-MS workflows. • Fast and efficient reduction of S-S bonds • Robust on-line reduction in top-down and bottom-up Proteomics • Reagent free, no interfering DTT or TCEP, ideal for HDXMS • Superior peptide sequencing and S-S bond assignment

Reagent free reduction of protein disulfide bond without the use of interfering DTT or TECP for superior peptide sequencing and S-S bond assignment.

Reagent free reduction of protein disulfide bond without the use of interfering DTT or TECP for superior peptide sequencing and S-S bond assignment.

Electrochemical simulation of phase I metabolism of 3 novel cardiovascular drugs and comparison with in-vivo data (human urine) reveals the power of EC-MS

New electrochemical cell for on-line reduction of disulfide bonds in HDXMS with significant higher sequence coverage than TECP reduction.

New electrochemical cell for on-line reduction of disulfide bonds in HDXMS with significant higher sequence coverage than TECP reduction.

Electrochemical oxidation for fast mimicking of phase I metabolism of Triclosan and its transformation products including their synthesis for toxicological evaluation.

Rapid and cost-effective synthesis of mg quantities of metabolites or reference materials for comprehensive structural identification by MS, NMR or for toxicology studies.

Electrochemical oxidation for fast mimicking of phase I metabolism of Triclosan and its transformation products including their synthesis for toxicological evaluation.

Rapid and cost-effective synthesis of mg quantities of metabolites or reference materials for comprehensive structural identification by MS, NMR or for toxicology studies.

Electrochemical simulation of phase I metabolism of 3 novel cardiovascular drugs and comparison with in-vivo data (human urine) reveals the power of EC-MS

Antec introduced the ROXY as an electrochemical reactor up-front MS. The electrochemically-assisted reduction of disulphide bonds followed by on-line mass spectrometric (MS) detection is presented.