Bruker collaborates with Utrecht University on mass spectrometry methods

Crosslinking mass spectrometry (XL-MS) can leverage the PhoX Crosslinker and TIMS/PASEF methods with the large-scale use of accurate collision cross sections

9 Aug 2020
Diane Li
Assistant Editor

Bruker Corporation has announced a collaboration with Utrecht University to advance the study of the 3-D structures and interactions of proteins by mass spectrometry. The laboratory of Albert Heck at Utrecht University has been a leader in proteomics and the study of protein structure and interactions by mass spectrometry for over two decades. Richard Scheltema recently joined Utrecht University as group leader to focus on crosslinking mass spectrometry (XL-MS) for structural and interaction proteomics.

The collaborative work will focus on the development of TIMS (Trapped Ion Mobility Spectrometry) and PASEF (Parallel Accumulation Serial Fragmentation) methods, along with crosslinkers and XL-MS software for the timsTOF Pro 4D-Proteomics mass spectrometer, in order to take advantage of its unique large-scale, accurate CCS workflows. These have been described in the foundational paper “Benefits of Collisional Cross Section Assisted Precursor Selection (caps-PASEF) for Cross-linking Mass Spectrometry“, just published in a breakthrough paper in Molecular and Cellular Proteomics.

Bruker plans to commercialize the results of the collaboration as integrated solutions for the study of protein structures and interactions using XL-MS. Combining the novel, enrichable PhoX crosslinker, developed by Heck and Scheltema, with the extreme speed and sensitivity of PASEF methods on the timsTOF Pro platform, enables the discovery of more crosslinked products which yield more information about protein structures and interactions. Advanced analysis software is key, as XL-MS data is more complex and even more information-rich than typical shot-gun proteomics experiments. Scheltema is working on enabling the innovative XlinkX software to process TIMS/PASEF data and making it available to the community of timsTOF Pro users.

Albert Heck of Utrecht University commented: “We are delighted to work with Bruker on the further development of workflows for XL-MS that take advantage of the speed of PASEF and the unique large-scale, accurate CCS data to enhance the detection of crosslinks in XL-MS. We are excited by the initial results published in Molecular and Cellular Proteomics and look forward to advancing XL-MS even further. We are also interested in other applications of ion mobility separation and CCS on the timsTOF Pro to glycoproteomics and top-down proteomics.”

Dr. Gary Kruppa, the Vice President of Proteomics at Bruker, said: “Having personally been involved in some of the conceptual work in XL-MS in 2001 at Sandia National Laboratory, I believe the advances made by Heck’s group will make this technique more routinely available for structural biology studies using the timsTOF Pro. Our collaboration with Utrecht University will accelerate adoption of XL-MS within the broader structural and interaction proteomics community.”

Richard Scheltema of Utrecht University stated: “My group intends to push the boundaries of PASEF to enhance XL-MS workflows by making them CCS-aware. We have a significant ongoing effort in bioinformatics applied to analyzing XL-MS data using our XlinkX software. We are excited to work with the open data-format architecture of the timsTOF Pro in XlinkX to develop code that can use large-scale, accurate CCS values for the identification of crosslinks and to further improve false discovery rate (FDR) calculations.”

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