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TMTpro is a multiplex isobaric labeling reagent developed by Thermo Fisher Scientific for quantitative proteomics analysis. It enables simultaneous identification and relative quantification of proteins across multiple samples in a single mass spectrometry experiment.

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Lab products found in correlation

Pierce quantitative colorimetric assay, by Thermo Fisher Scientific (1 mentions) Sep pak c18 cartridge, by Waters Corporation (1 mentions) Speedvac, by Eppendorf (1 mentions) Pierce 660 nm protein assay, by Thermo Fisher Scientific (1 mentions) Seppak cartridge, by Waters Corporation (1 mentions) Tissuelyser 2, by Qiagen (1 mentions) Trypsin, by Thermo Fisher Scientific (1 mentions) 1260 infinity 2, by Agilent Technologies (1 mentions) Pierce colorimetric peptide assay, by Thermo Fisher Scientific (1 mentions) Trypsin lys c mix, by Promega (1 mentions) Halt phosphatase inhibitor cocktail, by Thermo Fisher Scientific (1 mentions)

Close spelling variants of this product

Tandem Mass Tag (TMTpro) isobaric reagents TMTpro) 18-plex reagent kits TMTpro 16plex™ Isobaric Label Reagent Set, TMTpro 16plex reagents TMTpro 16plex label TMTpro) sixteen plex reagents TMTpro reagents TMTpro 16plex TMTpro 16-plex kit TMTpro™ Isobaric Label Reagent Set

8 protocols using tmtpro

1

Quantitative Proteomic Profiling of Dialysis

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Prior to tandem mass tag (TMT) labeling, peptide quantification was performed by the Pierce quantitative colorimetric assay (Thermo Scientific). According to the manufacturer’s instructions, 100 μg of peptide per sample was resuspended in 0.1 M triethylammonium bicarbonate (TEAB). Peptides (five channels per condition, healthy, and pre- and post-dialysis) were labeled with TMTpro (Thermo Scientific) for 1 h at room temperature. To quench the reaction, 5% hydroxylamine was added to each sample, and the resulting mixture was incubated at room temperature for 15 min. After labeling, equal amounts of each sample were combined in a new microtube and desalted using a C18 Sep-Pak cartridge (Waters).
Lin W., Mousavi F., Blum B.C., Heckendorf C.F., Moore J., Lampl N., McComb M., Kotelnikov S., Yin W., Rabhi N., Layne M.D., Kozakov D., Chitalia V.C, & Emili A. (2023). Integrated metabolomics and proteomics reveal biomarkers associated with hemodialysis in end-stage kidney disease. Frontiers in Pharmacology, 14, 1243505.
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2

Tandem Mass Tag Labeling Protocol

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TMT (Tandem Mass Tag) Label Reagents (TMTPro, ThermoFisher Scientific, 16plex Label Reagent Set Catalog number: A44521) were equilibrated to RT and resuspended in anhydrous acetonitrile or ethanol (for the 0.8 and 5mg vials, 41 μl and 256 μl were added, respectively). The reagent was dissolved for 5 minutes with occasional vortexing. TMT Label Reagent (41 μl, equivalent to 0.8 mg) was added to each 100-150 μg sample. The reaction was incubated for one hour at RT. The reaction was quenched after adding 8 μl of 5% hydroxylamine to the sample and incubating for 15 minutes. Samples were combined, dried in a speedvac (Eppendorf) and stored at −80°C.
Paulsen B., Velasco S., Kedaigle A.J., Pigoni M., Quadrato G., Deo A.J., Adiconis X., Uzquiano A., Sartore R., Yang S.M., Simmons S.K., Symvoulidis P., Kim K., Tsafou K., Podury A., Abbate C., Tucewicz A., Smith S., Albanese A., Barrett L., Sanjana N.E., Shi X., Chung K., Lage K., Boyden E.S., Regev A., Levin J.Z, & Arlotta P. (2022). Autism genes converge on asynchronous development of shared neuron classes. Nature, 602(7896), 268-273.
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3

Quantitative Deep Proteomic Analysis of IFNAR-/- Mouse Liver

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Parts of the liver from all infected IFNAR−/− mice were crushed in 150 μL lysis buffer (10 mM Tris, 150 mM NaCl, 10% SDS, and protease inhibitor) using pestles. Then, samples were incubated at 4°C for 30 min and centrifuged at 13,000 rpm at 4°C for 20 min. Supernatant was collected, NuPAGE™ LDS sample buffer with 2-mercaptoethanol added and the samples boiled at 99°C for 10 min. Protein concentration for each sample was determined using Pierce™ 660 nm protein assay (Thermo Fisher Scientific). Tandem mass tag (TMTpro™, Thermo Fisher Scientific) based quantitative deep proteomic analysis, using nano-flow liquid chromatography hyphened to tandem mass spectrometry (LC-MS/MS), was performed in Proteomics Biomedicum, Karolinska Institute as described previously (46 (link)).
Appelberg S., John L., Pardi N., Végvári Á., Bereczky S., Ahlén G., Monteil V., Abdurahman S., Mikaeloff F., Beattie M., Tam Y., Sällberg M., Neogi U., Weissman D, & Mirazimi A. (2022). Nucleoside-Modified mRNA Vaccines Protect IFNAR–/– Mice against Crimean-Congo Hemorrhagic Fever Virus Infection. Journal of Virology, 96(3), e01568-21.
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4

Quantitative Phosphoproteomics Analysis

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Samples were homogenized using TissueLyser II (QIAGEN) in a lysis buffer containing 50 mM HEPES pH 8.5, 8 M urea, 2% SDS, 150 mM NaCl plus 1X Roche complete protease and PhosStop phosphatase inhibitors. Following a BCA assay to estimate protein concentration, all lysates were reduced with 5 mM TCEP for 30 min at room temperature, then alkylated with 15 mM iodoacetamide for 30 min at room temperature in the dark. Proteins were precipitated by chloroform-methanol precipitation, digested, and 100 μg peptides from each sample were labeled by TMT-pro (Thermo Fisher Scientific) following the SL-TMT protocol (Navarrete-Perea et al., 2018). Samples were then combined according to a ratio-check, then desalted using a sep-pak cartridge (Waters). Ten percent of the resulting peptides were used for protein abundance analysis and fractionated using a High-pH fractionation kit (Thermo Fisher Scientiic) into 8 fractions and purified by stagetipping. The rest were subjected to phosphopeptide enrichment using the High-Select Fe-NTA kit (Paulo et al., 2018). The resulting phosphopeptides were desalted using a stage-tip and analyzed by mass spectrometry. Kinase enrichment analysis was performed using Enrichr (https://amp.pharm.mssm.edu/Enrichr/; Chen et al., 2013 (link); Kuleshov et al., 2016 (link)).
Reddy A., Bozi L.H., Yaghi O.K., Mills E.L., Xiao H., Nicholson H.E., Paschini M., Paulo J.A., Garrity R., Laznik-Bogoslavski D., Ferreira J.C., Carl C.S., Sjøberg K.A., Wojtaszewski J., Jeppesen J.F., Kiens B., Gygi S.P., Richter E.A., Mathis D, & Chouchani E.T. (2020). pH-Gated Succinate Secretion Regulates Muscle Remodeling in Response to Exercise. Cell, 183(1), 62-75.e17.
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5

Isobaric Labeling for Proteomics

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TMT isobaric reagents (TMTpro) were from ThermoFisher Scientific (Waltham, MA). Trypsin was purchased from Pierce Biotechnology (Rockford, IL) and LysC from FujiFilm (Richmond, VA).
Navarrete-Perea J., Liu X., Rad R., Gygi J.P., Gygi S.P, & Paulo J.A. (2022). Assessing interference in isobaric tag-based sample multiplexing using an 18-plex interference standard. Proteomics, 22(7), e2100317.
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6

Pressure-Assisted Trypsin Digestion and TMT Labeling

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Cells were transferred to MicroTubes for a final volume of 20 μL of 100 mM TEAB (pH 8.0)/10% acetonitrile. Cell and tissue samples underwent pressure-assisted trypsin digestion employing a barocycler (2320EXT, Pressure BioSciences, Inc.) and a heat-stable form of trypsin (SMART Trypsin, Thermo Fisher Scientific, Inc., Waltham, MA, USA). Peptide digest concentrations were determined using the bicinchoninic acid assay (BCA; Thermo Fisher Scientific, Inc.). Peptides (10 μg for cells and 4 μg for tissue samples) were labeled with isobaric tandem mass tag (TMT) reagents according to the manufacturer’s instructions (TMTpro, Thermo Fisher Scientific, Inc.). Sample multiplexes were reversed-phase fractionated (basic pH) on a 1260 Infinity II offline liquid chromatography system (Agilent Technologies, Inc., Santa Clara, CA, USA) into 96 fractions using a linear gradient of acetonitrile (0.69% min-1) followed by concatenation into 36 pooled fractions. Each pooled fraction was resuspended in 25 mM NH4HCO3 and analyzed by LC-MS/MS.
Teng P.N., Schaaf J.P., Abulez T., Hood B.L., Wilson K.N., Litzi T.J., Mitchell D., Conrads K.A., Hunt A.L., Olowu V., Oliver J., Park F.S., Edwards M., Chiang A., Wilkerson M.D., Raj-Kumar P.K., Tarney C.M., Darcy K.M., Phippen N.T., Maxwell G.L., Conrads T.P, & Bateman N.W. (2024). ProteoMixture: A cell type deconvolution tool for bulk tissue proteomic data. iScience, 27(3), 109198.
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7

Proteomic Analysis of NP Swab Samples

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NP swab samples were thawed and immediately treated with HALT phosphatase inhibitor cocktail (Thermo Scientific). As the NP swabs used for this experiment were residual clinical samples, the volume remaining for each was variable and ranged between 1 and 2 ml of PBS each. Each sample was aliquoted into multiple microcentrifuge tubes (200 μl aliquots), and protein was precipitated with the addition of methanol to a final concentration of 90%. Samples were then centrifuged at 15,000g for 10 min, and protein pellets from each sample were resuspended in a total of 200 μl of 8 M urea in 100 mM Tris, pH 8.0. Samples were then probe-sonicated to ensure each pellet was completely dissolved, and the protein content was estimated by BCA assay (Pierce). Disulfide bonds were reduced and alkylated with 10 mM TCEP and 10 mM IAA at room temperature for 30 min while protected from light. Trypsin/Lys-C Mix (Promega) was added at a 1:50 enzyme-to-protein ratio, and samples were digested overnight (16 h) at 37 °C. The enzymatic digest was terminated by adding TFA to a final concentration of 0.2%, and peptides were desalted using a 10 mg Strata-X PSVDB cartridge (Phenomenex), dried, and reconstituted in 100 μl of 50 mM TEAB. Peptide concentration was determined using a Pierce Colorimetric peptide assay, and 95 μg from each sample was labeled with TMTpro (Thermo Scientific) for 1 h.
Vanderboom P.M., Mun D.G., Madugundu A.K., Mangalaparthi K.K., Saraswat M., Garapati K., Chakraborty R., Ebihara H., Sun J, & Pandey A. (2021). Proteomic Signature of Host Response to SARS-CoV-2 Infection in the Nasopharynx. Molecular & Cellular Proteomics : MCP, 20, 100134.
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8

TMT Labeling and Sample Preparation

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After complete digestion had been confirmed by nanoLC-MS/MS, samples were labelled with 16-plex Tandem Mass Tag reagents (TMTpro, Thermo Scientific) according to the manufacturer's protocol.
Labeling reactions were quenched by addition of a primary amine buffer and the test concentrations and room temperature control samples were combined into TMT16-plex sets such that each TMT16-multiplex set contained 12 test compounds, two positive control samples (MTX+Vincristine) and two negative controls (1% DMSO). The labelled samples were subsequently acidified and desalted using polymeric reversed phase chromatography (Oasis, Waters). LC-MS grade liquids and low-protein binding tubes were used throughout the purification. Samples were dried using a centrifugal evaporator.
Friman T., Chernobrovkin A., Molina D.M., & Arnold L. (2020). CETSA® MS profiling for a comparative assessment of FDA approved antivirals repurposed for COVID-19 therapy identifies Trip13 as a Remdesivir off-target.
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