Journal article
Hidden information on protein function in censuses of proteome foldedness
D Cox, CS Ang, NB Nillegoda, GE Reid, DM Hatters
Nature Communications | Published : 2022
Abstract
Methods that assay protein foldedness with proteomics have generated censuses of apparent protein folding stabilities in biological milieu. However, different censuses poorly correlate with each other. Here, we show that the reason for this is that methods targeting foldedness through monitoring amino acid sidechain reactivity also detect changes in conformation and ligand binding, which can be a substantial fraction of the data. We show that the reactivity of only one quarter of cysteine or methionine sidechains in proteins in a urea denaturation curve of mammalian cell lysate can be confidently explained by a two-state unfolding isotherm. Contrary to that expected from unfolding, up to one..
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Grants
Awarded by Australian Research Council
Funding Acknowledgements
We thank Professor Pierre Goloubinoff from University of Lausanne for provision of unfolding data of DNAJB1 (in Supplementary Fig. 6C). We thank Professors Paul Gooley and Heath Ecroyd for helpful discussions and careful reading of the manuscript. We also thank Dr. Yuning Hong (La Trobe University) for providing TPE-MI, and the Bio21 Melbourne Mass Spectrometry and Proteomics facility. This work was funded by grants National Health and Medical Research Council APP1161803 (D.M.H.) and Australian Research Council DP170103093 (D.M.H. and G.E.R.).