Shotgun ion mobility mass spectrometry sequencing of heparan sulfate saccharides.
Rebecca Louise MillerScott E GuimondRalf SchwörerOlga V ZubkovaPeter C TylerYongmei XuJian LiuPradeep ChopraGeert-Jan BoonsMarko GrabaricsChristian ManzJohanna HofmannNiclas G KarlssonJeremy E TurnbullWeston B StruweKevin PagelPublished in: Nature communications (2020)
Despite evident regulatory roles of heparan sulfate (HS) saccharides in numerous biological processes, definitive information on the bioactive sequences of these polymers is lacking, with only a handful of natural structures sequenced to date. Here, we develop a "Shotgun" Ion Mobility Mass Spectrometry Sequencing (SIMMS2) method in which intact HS saccharides are dissociated in an ion mobility mass spectrometer and collision cross section values of fragments measured. Matching of data for intact and fragment ions against known values for 36 fully defined HS saccharide structures (from di- to decasaccharides) permits unambiguous sequence determination of validated standards and unknown natural saccharides, notably including variants with 3O-sulfate groups. SIMMS2 analysis of two fibroblast growth factor-inhibiting hexasaccharides identified from a HS oligosaccharide library screen demonstrates that the approach allows elucidation of structure-activity relationships. SIMMS2 thus overcomes the bottleneck for decoding the informational content of functional HS motifs which is crucial for their future biomedical exploitation.
Keyphrases
- mass spectrometry
- high resolution
- liquid chromatography
- single cell
- high performance liquid chromatography
- capillary electrophoresis
- gas chromatography
- electronic health record
- signaling pathway
- squamous cell carcinoma
- machine learning
- locally advanced
- radiation therapy
- copy number
- ms ms
- health information
- genome wide
- cystic fibrosis
- tissue engineering
- genetic diversity