Single molecule mass photometry reveals the dynamic oligomerization of human and plant peroxiredoxins

Liebthal M, Kushwah MS, Kukura P, Dietz K-J (2021)
iScience 24(11): 103258.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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Liebthal, MichaelUniBi; Kushwah, Manish Singh; Kukura, Philipp; Dietz, Karl-JosefUniBi
Abstract / Bemerkung
Protein oligomerization is central to biological function and regulation, yet its experiment. quantification and measurement of dynamic transitions in solution remain challenging. Here, we show that single molecule mass photometry quantifies affinity and polydispersity of heterogeneous protein complexes in solution. We demonstrate these capabilities by stud,ring the functionally relevant oligomeric equilibria of 2-cysteine peroxiredoxins (2CPs). Comparison of the polydispersity of plant and human 2CPs as a function of concentration and redox state revealed features conserved among all 2CPs. In addition, we also find species-specific differences in oligomeric transitions, the occurrence of intermediates and the formation of high molecular weight complexes, which are associated with chaperone activity or act as a storage pool for more efficient dimers outlining the functional differentiation of human 2CPs. Our results point to a diversified functionality of oligomerization for 2CPs and illustrate the power of mass photometry for characterizing heterogeneous oligomeric protein distributions in near native conditions.
Erscheinungsjahr
2021
Zeitschriftentitel
iScience
Band
24
Ausgabe
11
Art.-Nr.
103258
eISSN
2589-0042
Finanzierungs-Informationen
Open-Access-Publikationskosten wurden durch die Universität Bielefeld im Rahmen des DEAL-Vertrags gefördert.
Page URI
https://pub.uni-bielefeld.de/record/2960427

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Liebthal M, Kushwah MS, Kukura P, Dietz K-J. Single molecule mass photometry reveals the dynamic oligomerization of human and plant peroxiredoxins. iScience . 2021;24(11): 103258.
Liebthal, M., Kushwah, M. S., Kukura, P., & Dietz, K. - J. (2021). Single molecule mass photometry reveals the dynamic oligomerization of human and plant peroxiredoxins. iScience , 24(11), 103258. https://doi.org/10.1016/j.isci.2021.103258
Liebthal, Michael, Kushwah, Manish Singh, Kukura, Philipp, and Dietz, Karl-Josef. 2021. “Single molecule mass photometry reveals the dynamic oligomerization of human and plant peroxiredoxins”. iScience 24 (11): 103258.
Liebthal, M., Kushwah, M. S., Kukura, P., and Dietz, K. - J. (2021). Single molecule mass photometry reveals the dynamic oligomerization of human and plant peroxiredoxins. iScience 24:103258.
Liebthal, M., et al., 2021. Single molecule mass photometry reveals the dynamic oligomerization of human and plant peroxiredoxins. iScience , 24(11): 103258.
M. Liebthal, et al., “Single molecule mass photometry reveals the dynamic oligomerization of human and plant peroxiredoxins”, iScience , vol. 24, 2021, : 103258.
Liebthal, M., Kushwah, M.S., Kukura, P., Dietz, K.-J.: Single molecule mass photometry reveals the dynamic oligomerization of human and plant peroxiredoxins. iScience . 24, : 103258 (2021).
Liebthal, Michael, Kushwah, Manish Singh, Kukura, Philipp, and Dietz, Karl-Josef. “Single molecule mass photometry reveals the dynamic oligomerization of human and plant peroxiredoxins”. iScience 24.11 (2021): 103258.
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2023-09-29T12:05:23Z
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