

Robust-increased multiplex capability results in fewer missing quantitative values among samples and higher confidence among replicates.Consistent-identical reagent structure and performance among TMTzero, TMTduplex, TMTsixplex, and TMT10plex reagents allows efficient transition from method development to multiplex quantitation, enabling biomarker discovery research across platforms and datasets.Powerful-multiplexed MS analysis increases sample throughput and enables relative quantitation of up to ten different samples derived from cells, tissues, or biological fluids.TMT10plex label reagents are ideal for analysis of multiple protein samples from inhibitor dose response experiments, time course experiments, or improving statistics on biological replicates.įeatures of TMT10plex Isobaric Label reagent sets and mass tagging kits The different isotopes result in a 10-plex set of tags that have mass differences in the reporter that can be detected using high resolution Orbitrap MS instruments.Īdvantages of the TMT10plex label reagents include increased multiplex relative quantitation, increased sample throughput, and fewer missing quantitative values among samples. The TMT10plex label reagents share an identical structure with TMTzero, TMTduplex, and TMTsixplex reagents, but contain different numbers and combinations of 13C and 15N isotopes in the mass reporter. The Tandem Mass Tag (TMT) Isobaric Label reagents and kits are specifically designed to enable identification and quantitation of proteins in different samples using tandem mass spectrometry. For each sample, a unique reporter mass (i.e., TMT10 126-131 Da) in the low-mass region of the high-resolution MS/MS spectrum is used to measure relative protein expression levels during peptide fragmentation and tandem mass spectrometry. Up to ten different peptide samples prepared from cells or tissues can be labeled in parallel and then combined for analysis.

TMT10plex Isobaric Label reagents and kits contain ten isobaric compounds with the same mass and chemical structure (i.e., isotopomeric) composed of an amine-reactive NHS-ester group, a spacer arm, and a mass reporter.
