Cross-linking mass spectrometry for mapping protein complex topologies <i>in situ</i>

Lee, Kitaik; O’Reilly, Francis J.

doi:10.1042/ebc20220168

Cited by 19 publications

(18 citation statements)

References 112 publications

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“…Finally, studies that employ affinity purification or organelle isolation would likely be preferrable to undifferentiated lysates. 95 Although the ability to search a proteome-wide database with photo-cross-linkers is an important milestone demonstrated here, undifferentiated lysates typically overrepresent high-abundance proteins (such as the ribosome) and are likely not the best path forward to delve deeper into the proteome's dynamic range. 95 To summarize, we present new molecular tools, coupled with an experimental and computational workflow, that enable reliable proteome-wide identification of photo-cross-linked peptides.…”

Section: ■ Discussion and Future Directionsmentioning

confidence: 97%

“…95 Although the ability to search a proteome-wide database with photo-cross-linkers is an important milestone demonstrated here, undifferentiated lysates typically overrepresent high-abundance proteins (such as the ribosome) and are likely not the best path forward to delve deeper into the proteome's dynamic range. 95 To summarize, we present new molecular tools, coupled with an experimental and computational workflow, that enable reliable proteome-wide identification of photo-cross-linked peptides. This study has piloted these tools to produce a small, partial PPI network of E. coli but nevertheless one that is resolved down to the residue-level.…”

Section: ■ Discussion and Future Directionsmentioning

confidence: 97%

“…Future experiments will need to be more exacting in this choice of parameters. Finally, studies that employ affinity purification or organelle isolation would likely be preferrable to undifferentiated lysates . Although the ability to search a proteome-wide database with photo-cross-linkers is an important milestone demonstrated here, undifferentiated lysates typically overrepresent high-abundance proteins (such as the ribosome) and are likely not the best path forward to delve deeper into the proteome’s dynamic range …”

Section: Discussion and Future Directionsmentioning

confidence: 99%

“…First, given the complexity of photo-cross-linked proteomes, it is likely that even greater fractionation than we employed here would be necessary to mitigate co-isolation problems. 95 A likely candidate is 2D fractionation combining SEC (as done here) with strong-cation exchange, which has proven successful for other high-complexity cross-linking experiments. 96 Second, our experiments would have likely benefitted from tighter instrument calibration and higher resolution on MS 2 scans.…”

Section: ■ Discussion and Future Directionsmentioning

confidence: 99%

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Progress toward Proteome-Wide Photo-Cross-Linking to Enable Residue-Level Visualization of Protein Structures and Networks In Vivo

et al. 2023

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Cross-linking mass spectrometry (XL-MS) is emerging as a method at the crossroads of structural and cellular biology, uniquely capable of identifying protein−protein interactions with residue-level resolution and on the proteome-wide scale. With the development of cross-linkers that can form linkages inside cells and easily cleave during fragmentation on the mass spectrometer (MScleavable cross-links), it has become increasingly facile to identify contacts between any two proteins in complex samples, including in live cells or tissues. Photo-cross-linkers possess the advantages of high temporal resolution and high reactivity, thereby engaging all residue-types (rather than just lysine); nevertheless, photo-crosslinkers have not enjoyed widespread use and are yet to be employed for proteome-wide studies because their products are challenging to identify. Here, we demonstrate the synthesis and application of two heterobifunctional photo-cross-linkers that feature diazirines and N-hydroxy-succinimidyl carbamate groups, the latter of which unveil doubly fissile MS-cleavable linkages upon acyl transfer to protein targets. Moreover, these cross-linkers demonstrate high water-solubility and cell-permeability. Using these compounds, we demonstrate the feasibility of proteome-wide photo-cross-linking in cellulo. These studies elucidate a small portion of Escherichia coli's interaction network, albeit with residue-level resolution. With further optimization, these methods will enable the detection of protein quinary interaction networks in their native environment at residue-level resolution, and we expect that they will prove useful toward the effort to explore the molecular sociology of the cell.

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Section: ■ Discussion and Future Directionsmentioning

confidence: 97%

Section: ■ Discussion and Future Directionsmentioning

confidence: 97%

Section: Discussion and Future Directionsmentioning

confidence: 99%

Section: ■ Discussion and Future Directionsmentioning

confidence: 99%

See 2 more Smart Citations

Progress toward Proteome-Wide Photo-Cross-Linking to Enable Residue-Level Visualization of Protein Structures and Networks In Vivo

et al. 2023

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“…The spacer arm of the reagent constitutes a distance restraint between these cross-linked residues that can be deployed to model structures, validate models, or compare with other data [ 19 , 20 ]. XL-MS technology has found broad application, including for the study of proteins/assemblies in vitro and in cell, but faces several analytical challenges as outlined here by Lee and O’Reilly [ 21 ]. Similarly, new advances are occurring to study protein–nucleic acid assemblies using XL-MS methodologies as described by Steinmetz et al [ 22 ].…”

mentioning

confidence: 99%

A special issue ofEssays in Biochemistryon structural mass spectrometry

Britt

Beveridge

Calabrese

2023

Essays in Biochemistry

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Mass spectrometry (MS) is now established as an analytical tool to interrogate the structure and dynamics of proteins and their assemblies. An array of MS-based technologies has been developed, with each providing unique information pertaining to protein structure, and forming the heart of integrative structural biology studies. This special issue includes a collection of review articles that discuss both established and emerging structural MS methodologies, along with examples of how these technologies are being deployed to interrogate protein structure and function. Combined, this collection highlights the immense potential of the structural MS toolkit in the study of molecular mechanisms underpinning cellular homeostasis and disease.

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Mapping protein–protein interactions by mass spectrometry

Liu,

Abad,

Chatterjee

et al. 2024

Mass Spectrometry Reviews

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Protein–protein interactions (PPIs) are essential for numerous biological activities, including signal transduction, transcription control, and metabolism. They play a pivotal role in the organization and function of the proteome, and their perturbation is associated with various diseases, such as cancer, neurodegeneration, and infectious diseases. Recent advances in mass spectrometry (MS)‐based protein interactomics have significantly expanded our understanding of the PPIs in cells, with techniques that continue to improve in terms of sensitivity, and specificity providing new opportunities for the study of PPIs in diverse biological systems. These techniques differ depending on the type of interaction being studied, with each approach having its set of advantages, disadvantages, and applicability. This review highlights recent advances in enrichment methodologies for interactomes before MS analysis and compares their unique features and specifications. It emphasizes prospects for further improvement and their potential applications in advancing our knowledge of PPIs in various biological contexts.

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Cross-linking mass spectrometry for mapping protein complex topologies in situ

Cited by 19 publications

References 112 publications

Progress toward Proteome-Wide Photo-Cross-Linking to Enable Residue-Level Visualization of Protein Structures and Networks In Vivo

Progress toward Proteome-Wide Photo-Cross-Linking to Enable Residue-Level Visualization of Protein Structures and Networks In Vivo

A special issue ofEssays in Biochemistryon structural mass spectrometry

Mapping protein–protein interactions by mass spectrometry

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