High-Resolution Enabled TMT 8-plexing
2012
Werner, Thilo | Becher, Isabelle | Sweetman, Gavain | Doce, Carola | Savitski, Mikhail M. | Bantscheff, Marcus
Isobaric mass tag-based quantitative proteomics strategies such as iTRAQ and TMT utilize reporter ions in the low-mass range of tandem MS spectra for relative quantification. The number of samples that can be compared in a single experiment (multiplexing) is limited by the number of different reporter ions that can be generated by differential stable isotope incorporation (¹⁵N, ¹³C) across the reporter and the mass balancing parts of the reagents. Here, we demonstrate that a higher multiplexing rate can be achieved by utilizing the 6 mDa mass difference between ¹⁵N- and ¹³C-containing reporter fragments, in combination with high-resolution mass spectrometry. Two variants of the TMT127 and TMT129 reagents are available; these are distinguished by the position and the nature of the incorporated stable isotope in the reporter portions of the labels (TMT127L, ¹²C₈H₁₆¹⁵N₁⁺; TMT127H, ¹²C₇¹³C₁H₁₆¹⁴N₁⁺; TMT129L, ¹²C₆¹³C₂H₁₆¹⁵N₁⁺; and TMT129H, ¹²C₅¹³C₃H₁₆¹⁴N₁⁺). We demonstrate that these variants can be baseline-resolved in Orbitrap Elite higher-energy collision-induced dissociation spectra recorded with a 96 ms transient enabling comparable dynamic range, precision, and accuracy of quantification as 1 Da spaced reporter ions. The increased multiplexing rate enabled determination of inhibitor potencies in chemoproteomic kinase assays covering a wider range of compound concentrations in a single experiment, compared to conventional 6-plex TMT-based assays.
اظهر المزيد [+] اقل [-]الكلمات المفتاحية الخاصة بالمكنز الزراعي (أجروفوك)
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