Project description:We present a novel Tandem Mass Tag Solid Phase Amino Labeling (TMT-SPAL) protocol using reversible immobilization of peptides onto octadecyl-derivatised (C18) solid supports. This method can reduce the number of steps required in complex protocols saving time and potentially reducing sample losses. In our global phosphopeptide profiling workflow (SysQuant) we can cut 24 hours from the protocol while increasing peptide identifications (20%) and reducing side-reactions. Solid phase labeling with TMTs does require some modification to typical labeling conditions particularly pH. It has been found that complete labeling equivalent to 2 standard basic pH solution phase labeling for small and large samples can be achieved on C18 resins using slightly acidic buffer conditions. Improved labeling behaviour on C18 compared to standard basic pH solution phase labeling is demonstrated. We analysed our samples for histidine, serine, threonine and tyrosine-labeling to determine the degree of over-labeling and observed higher than expected levels (25% of all Peptide Spectral Matches (PSMs)) of overlabeling at all of these amino acids (predominantly at tyrosine and serine) in our standard solution phase labeling protocol. Over-labeling at all these sites is greatly reduced (four-fold to 7% of all PSMs) by the low pH conditions used in the TMT-SPAL protocol. Over-labeling seems to represent a so-far overlooked mechanism causing reductions in peptide identification rates with NHS-activated TMT-labeling compared to label-free methods. Our results also highlight the importance of searching data for over-labeling when labeling methods are used.

Project description:Tandem Mass Tag (TMT) technology is an in vitro peptide labeling technique developed by Thermo Fisher Scientific, a peptide labeling technology developed in vitro. The technology uses six (TMTsixplex™ Isobaric Label Reagent Set) or 10 (TMT10plex™ Isobaric Label Reagent Set) isotope labels by labeling peptide specific amino acid sites. In TMT experiments, the relative and absolute amounts of proteins in up to 10 different samples can be compared flexibly by tandem mass spectrometry analysis. In TMT experiments, whole proteins from tissue cells are obtained by protein extraction, and the whole proteins are enzymatically cleaved into peptides by trypsin, and the TMT reagents are used to label all the obtained peptides. The TMT reagent consists of three main components: a reporter group, an equilibrium group and a peptide reaction group.

Project description:The deuterium, frequently used stable isotope in isotopic labeling for quantitative proteomics, could deteriorate the accuracy and precision of proteome quantification owing to the retention time shift of deuterated peptides from the hydrogenated counterpart. Herein, we introduce a novel three-plexed peptide ‘di-ethylation’ using only 13C-isotopologues of acetaldehyde and demonstrate that the accuracy and precision of our method in proteome quantification are significantly superior to the conventional deuterium-based di-methylation labeling in both a single shot and multidimensional LC-MS/MS analysis of HeLa proteome. Furthermore, in time-resolved profiling of Xenopus laevis early embryogenesis, our 3-plexed di-ethylation outperformed isobaric labeling approaches in terms of quantification accuracy or number of protein identification, generating >2 times more differentially expressed proteins. Our cost-effective and highly accurate 3-plexed di-ethylation method could contribute to various types of quantitative proteomics applications, in which three of multiplexity would be sufficient.

Project description:We developed a reagent of 10-plex isobaric tags (IBT) with high stability and low cost. The labeled peptides were sensitively detected on Orbitrap Q Exactive MS with MS2 resolution of 35000 at 30% NCE, while the peptides were efficiently labelled over 97% by IBT at ratio of 20:1 of reagent/peptide (w/w) in 200mM TEAB buffer within 2h. The IBT labeling was demonstrated in a wide dynamic range of 50 folds but without obvious matrix effect on quantification. Importantly, there was little quantification bias found among the individual IBT tags, indicating that the peptides labeled by different tags were quantitatively comparable. The IBT 10-plex reagents were applied for dynamically monitoring the quantitative responses of phosphoproteome ignited by EGF treatment in Hela cells. Total 5361 unique phosphopeptides were identified, which reached a similar conclusion as other reported. The IBT reagents were therefore experimentally proven as a new type of isobaric labeling peptides and useful for a large quantity peptides of quantitative proteomics.

Project description:Low cost transcriptomic mapping of TMT associated neurotoxicity using human minibrains

Project description:In this project we investigated the global proteome alteration of dissected mouse inner medulla (IM) sections between the WT and the Dicer(AQP2Cre+) mice. TMT labeling strategy was used to obtain protein quantification information from LC-MS based proteomic analysis.

Project description:Quantifying proteins based on peptide-coupled reporter-ions is a leading multiplexed quantitative strategy in proteomics that significantly alleviates the problem of ratio distortion caused by peptide co-fragmentation, as commonly observed in other reporter-ion based approaches, such as TMT and iTRAQ. Fueled by improvements in mass spectrometry and data processing, data-independent acquisition (DIA) is an attractive alternative to data dependent acquisition (DDA) due to its better reproducibility. While multiplexed labeling is widely used in DDA, it is rarely used in DIA, presumably because current approaches lead to more complex MS2 spectra or to a reduction in quantification accuracy and precision. Herein, we present a versatile acetyl-alanine-glycine (Ac-AG) tag which conceals quantitative information in isobarically labeled peptides and reveals it upon tandem MS in the form of peptide-coupled reporter-ions. Since the peptide-coupled reporter-ion is precursor-specific while fragment ions of the peptide backbone originating from different labeling channels are same, the Ac-AG tag is compatible with both the widely adopted DDA as well as with the DIA mode. By isolating the monoisotopic peak of the precursor ion in DDA, intensities of the peptide-coupled reporter-ions simply represent the relative ratios between constituent samples. While in DIA, the ratio can be inferred after deconvoluting peptide-coupled reporter-ions. The proteome quantification capability of the Ac-AG tag was demonstrated by triplex labeling of a yeast proteome spiked with bovine serum albumin (BSA) over a 10-fold dynamic range. Within a complex proteomics background, the BSA spiked at 1:5:10 ratios was detected at ratios of 1.00 : 4.87 : 10.13 in DDA and 1.16 : 5.20 : 9.64 in DIA.

Project description:We developed protocols for isobaric TMT labeling on digital microfluidics (DMF) devices enabling the quantitative proteome analysis of approximately 25 mammalian cells per channel by subsequent bottom-up proteome analysis by LC-MS. This comprised identification of a compatible detergent for digestion, on-chip labeling, and LC-MS. Application of the method in a TMT 6-plex sample analysis enabled the relative quantification 648 proteins (2 unique peptides for quantification) from a total of 125 cell equivalents.

Project description:Alzheimer’s disease (AD) is characterized by an early, asymptomatic phase (AsymAD) in which individuals exhibit amyloid-beta (Aβ) plaque accumulation in the absence of clinically detectable cognitive decline. Here we report an unbiased multiplex quantitative proteomic and phosphoproteomic analysis using tandem mass tag (TMT) isobaric labeling of human post-mortem cortex (n=27) across pathology-free controls, AsymAD and symptomatic AD individuals. With off-line high-pH fractionation and liquid chromatography coupled to tandem mass spectrometry (LC-MS/MS) on an Orbitrap Lumos mass spectrometer, we identified 11,378 protein groups across three TMT 11-plex batches. Immobilized metal affinity chromatography (IMAC) was used to enrich for phosphopeptides from the same TMT-labeled cases and 51,736 phosphopeptides were identified. Of these, 48,992 were quantified by TMT reporter ions representing 33,652 unique phosphosites. Two reference standards in each TMT 11-plex were included to assess intra- and inter-batch variance at the protein and peptide level. This comprehensive human brain proteome and phosphoproteome dataset will serve as a valuable resource for the identification of biochemical, cellular and signaling pathways altered during AD progression.

Project description:Four LV samples from WT and TGAC8 mouse hearts were analyzed. A subset of 8 muscle samples each corresponding to 4 controls and 4 TGAC8 LVs and one averaged reference sample were labeled with 10-plex tandem mass spectrometry tags (TMT) using standard TMT labeling protocol (Thermo Fisher). TGAC8 labeling: TMT-126; TMT-127N; TMT-127C; TMT-130N WT labeling: TMT-128N; TMT-128C; TMT-129N TMT-129C