Xue Sun scite author profile

Whole-cell cross-linking coupled to mass spectrometry is one of the few tools that can probe protein–protein interactions in intact cells. A very attractive reagent for this purpose is formaldehyde, a small molecule which is known to rapidly penetrate into all cellular compartments and to preserve the protein structure. In light of these benefits, it is surprising that identification of formaldehyde cross-links by mass spectrometry has so far been unsuccessful. Here we report mass spectrometry data that reveal formaldehyde cross-links to be the dimerization product of two formaldehyde-induced amino acid modifications. By integrating the revised mechanism into a customized search algorithm, we identify hundreds of cross-links from in situ formaldehyde fixation of human cells. Interestingly, many of the cross-links could not be mapped onto known atomic structures, and thus provide new structural insights. These findings enhance the use of formaldehyde cross-linking and mass spectrometry for structural studies.

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ASICs mediate the modulatory effect by paeoniflorin on alpha-synuclein autophagic degradation

Sun

Cao

et al. 2011

Brain Research

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Paeoniflorin, a potent natural compound, protects PC12 cells from MPP+ and acidic damage via autophagic pathway

Cao

Yang

Luo

et al. 2010

Journal of Ethnopharmacology

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Cardiac complications associated with the influenza viruses A subtype H7N9 or pandemic H1N1 in critically ill patients under intensive care

Wang

Yang

et al. 2017

The Brazilian Journal of Infectious Diseases

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Xue Sun

Mass spectrometry reveals the chemistry of formaldehyde cross-linking in structured proteins

ASICs mediate the modulatory effect by paeoniflorin on alpha-synuclein autophagic degradation

Paeoniflorin, a potent natural compound, protects PC12 cells from MPP+ and acidic damage via autophagic pathway

Cardiac complications associated with the influenza viruses A subtype H7N9 or pandemic H1N1 in critically ill patients under intensive care

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