A High-Performance Workflow for Identifying Site-Specific Crosslinks Originating from a Genetically Incorporated, Photoreactive Amino Acid

11 June 2024, Version 2
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

In conventional crosslinking mass spectrometry, proteins are crosslinked using a highly selective, bifunctional chemical reagent, which limits crosslinks to residues that are accessible and reactive to the reagent. Genetically incorporating a photoreactive amino acid offers two key advantages: any site can be targeted, including those that are inaccessible to conventional crosslinking reagents, and photoreactive amino acids can potentially react with a broad range of interaction partners. However, broad reactivity imposes additional challenges for crosslink identification. In this study, we incorporate benzoylphenylalanine (BPA), a photoreactive amino acid, at selected sites in an intrinsically disordered region of the human protein HSPB5. We report and characterize a workflow for identifying and visualizing residue-level interactions originating from BPA. We routinely identify 30 to 300 crosslinked peptide spectral matches with this workflow, which is up to ten times more than existing tools for residue-level BPA crosslink identification. Most identified crosslinks are assigned to a precision of one or two residues, which is supported by a high degree of overlap between replicate analyses. Based on these results, we anticipate that this workflow will support the more general use of genetically incorporated, photoreactive amino acids for characterizing the structures of proteins that have resisted high-resolution characterization.

Keywords

Crosslinking
Mass Spectrometry
Genetic Code Expansion
Disorder
Protein structure
Small heat shock protein

Supplementary materials

Title
Description
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Supporting Information
Description
Additional description of methods, discussions of the effects of software versions and chromatographic gradient length, comparisons of results for different sites of BPA incorporation and replicates, comparisons with other methods for crosslink identification, and comparison between results using databases determined using monomeric reactants versus dimeric products.
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Supplementary weblinks

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