Nanouplc hdx sample manager, by Waters Corporation - Product details

1

Deuterium Exchange Kinetics of PDK1

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The experiments were performed essentially as previously described for studies on the catalytic domain of PDK1 (84 (link)). In short, His-PDK1_1-556 and His-PDK1_50-359 were diluted in buffer containing deuterium oxide ([²H]₂O) at 30°C for the indicated times. The exchange was stopped by quenching with acid ((0.5% TFA, 5 M GnCl) to achieve a final pH of 2.5) and cooling to 0°C. Each sample was immediately injected into nanoUPLC HDX Sample Manager (Waters) for online pepsin digestion using Poroszyme pre-packed pepsin column (Thermo Fisher Scientific), using 0.1% formic acid in LC-MS water at 100 μl/min, then trapped and desalted using a VanGuard C-18 column (Waters), followed by reverse-phase separation using ACQUITY™ 2.1 X 5 mm BEH C-18 column (Waters) using a 0.1% formic acid in acetonitrile gradient. The labelled derivative peptides were analyzed by Synapt G2 Si mass spectrometer (Waters) operating in positive ion mode using an MSE acquisition method. The mass spectrometer was continuously calibrated using 200 fmol/μl Glu-fibrinopeptide B standard flowing at 1 μl/min. The graphics represent the number of deuterium atoms incorporated into each peptide during the incubation.

Sacerdoti M., Gross L.Z., Riley A.M., Zehnder K., Ghode A., Klinke S., Anand G.S., Paris K., Winkel A., Herbrand A., Godage H.Y., Cozier G.E., Süß E., Schulze J.O., Pastor-Flores D., Bollini M., Cappellari M.V., Svergun D., Gräwert M.A., Aramendia P.F., Leroux A.E., Potter B.V., Camacho C.J, & Biondi R.M. (2023). Modulation of the substrate specificity of the kinase PDK1 by distinct conformations of the full-length protein. Science signaling, 16(789), eadd3184.

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Deuterium Exchange Kinetics of PDK1

Cited 1 time

Check if the same lab product or an alternative is used in the 5 most similar protocols

The experiments were performed essentially as previously described for studies on the catalytic domain of PDK1 (84 (link)). In short, His-PDK1_1-556 and His-PDK1_50-359 were diluted in buffer containing deuterium oxide ([²H]₂O) at 30°C for the indicated times. The exchange was stopped by quenching with acid ((0.5% TFA, 5 M GnCl) to achieve a final pH of 2.5) and cooling to 0°C. Each sample was immediately injected into nanoUPLC HDX Sample Manager (Waters) for online pepsin digestion using Poroszyme pre-packed pepsin column (Thermo Fisher Scientific), using 0.1% formic acid in LC-MS water at 100 μl/min, then trapped and desalted using a VanGuard C-18 column (Waters), followed by reverse-phase separation using ACQUITY™ 2.1 X 5 mm BEH C-18 column (Waters) using a 0.1% formic acid in acetonitrile gradient. The labelled derivative peptides were analyzed by Synapt G2 Si mass spectrometer (Waters) operating in positive ion mode using an MSE acquisition method. The mass spectrometer was continuously calibrated using 200 fmol/μl Glu-fibrinopeptide B standard flowing at 1 μl/min. The graphics represent the number of deuterium atoms incorporated into each peptide during the incubation.

Sacerdoti M., Gross L.Z., Riley A.M., Zehnder K., Ghode A., Klinke S., Anand G.S., Paris K., Winkel A., Herbrand A., Godage H.Y., Cozier G.E., Süß E., Schulze J.O., Pastor-Flores D., Bollini M., Cappellari M.V., Svergun D., Gräwert M.A., Aramendia P.F., Leroux A.E., Potter B.V., Camacho C.J, & Biondi R.M. (2023). Modulation of the substrate specificity of the kinase PDK1 by distinct conformations of the full-length protein. Science signaling, 16(789), eadd3184.

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Deuterium Exchange Mass Spectrometry Workflow

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Quenched deuterium exchange reactions were immediately injected into nanoUPLC HDX Sample Manager (Waters Corporation, Milford, MA) for online pepsin digestion using Poroszyme prepacked pepsin column (Applied Biosystems, Foster City, CA), using 0.1% formic acid in LC-MS water at 100 μL/min. The eluted peptides were then trapped and desalted by a VanGuard C-18 column (Waters Corporation), followed by reverse-phase separation using ACQUITY 2.1 × 5 mm BEH C-18 column (Waters Corporation) using a 8–40% gradient of 0.1% formic acid in acetonitrile flowing at 40 μL/min using nano-ACQUITY binary solvent manager (Waters Corporation).
Eluted peptides were analyzed by Synapt G2 Si mass spectrometer (Waters Corporation) operating in positive ion mode using an MS^E acquisition method (48 (link),49 (link)). The mass spectrometer was continuously calibrated using 200 fmol/μL Glu-Fibrinopeptide B standard flowing at 1 μL/min. All other parameters for pepsin digestion and LC-MS were same as described (50 (link)).

Ghode A., Gross L.Z., Tee W.V., Guarnera E., Berezovsky I.N., Biondi R.M, & Anand G.S. (2020). Synergistic Allostery in Multiligand-Protein Interactions. Biophysical Journal, 119(9), 1833-1848.

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Nanouplc hdx sample manager

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Deuterium Exchange Kinetics of PDK1

Deuterium Exchange Kinetics of PDK1

Deuterium Exchange Mass Spectrometry Workflow

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