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Studying biomolecular folding and binding using temperature-jump mass spectrometry

Author

Listed:
  • Adrien Marchand

    (ETH Zurich)

  • Martin F. Czar

    (ETH Zurich)

  • Elija N. Eggel

    (ETH Zurich)

  • Jérôme Kaeslin

    (ETH Zurich)

  • Renato Zenobi

    (ETH Zurich)

Abstract

Characterizing folding and complex formation of biomolecules provides a view into their thermodynamics, kinetics and folding pathways. Deciphering kinetic intermediates is particularly important because they can often be targeted by drugs. The key advantage of native mass spectrometry over conventional methods that monitor a single observable is its ability to identify and quantify coexisting species. Here, we show the design of a temperature-jump electrospray source for mass spectrometry that allows one to perform fast kinetics experiments (0.16–32 s) at different temperatures (10–90 °C). The setup allows recording of both folding and unfolding kinetics by using temperature jumps from high to low, and low to high, temperatures. Six biological systems, ranging from peptides to proteins to DNA complexes, exemplify the use of this device. Using temperature-dependent experiments, the folding and unfolding of a DNA triplex are studied, providing detailed information on its thermodynamics and kinetics.

Suggested Citation

  • Adrien Marchand & Martin F. Czar & Elija N. Eggel & Jérôme Kaeslin & Renato Zenobi, 2020. "Studying biomolecular folding and binding using temperature-jump mass spectrometry," Nature Communications, Nature, vol. 11(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-019-14179-x
    DOI: 10.1038/s41467-019-14179-x
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    Cited by:

    1. Jeroen F. Dyck & Jonathan R. Burns & Kyle I. P. Huray & Albert Konijnenberg & Stefan Howorka & Frank Sobott, 2022. "Sizing up DNA nanostructure assembly with native mass spectrometry and ion mobility," Nature Communications, Nature, vol. 13(1), pages 1-8, December.
    2. Ri Wu & Jonas B. Metternich & Anna S. Kamenik & Prince Tiwari & Julian A. Harrison & Dennis Kessen & Hasan Akay & Lukas R. Benzenberg & T.-W. Dominic Chan & Sereina Riniker & Renato Zenobi, 2023. "Determining the gas-phase structures of α-helical peptides from shape, microsolvation, and intramolecular distance data," Nature Communications, Nature, vol. 14(1), pages 1-11, December.

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