Proteomics

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Combining FAIMS based Glycoproteomic and DIA Proteomic of reveals widespread proteome alteration in response to changes in N. gonorrhoeae glycosylation.- FAIMS pglO alleles


ABSTRACT: Protein glycosylation is increasingly recognized as a common protein modification across bacterial species. Within members of the Neisseria genus O-linked protein glycosylation plays important roles in virulence and antigenic variation yet our understanding of the substrates of glycosylation are limited. Recently it was identified that even closely related Neisserial species can possess O-oligosaccharyltransferases, pglOs, that possess varying glycosylation specificities suggesting that distinct targeting activities may impact both the glycoprotome as well as the proteome of Neisserial species. Within this work we explore this concept using of Field Asymmetric Waveform Ion Mobility Spectrometry (FAIMS) fractionation and Data-Independent Acquisition (DIA) to allow the characterization of differences in the glycoproteomes and proteomes within N. gonorrhoeae strains expressing differing pglO alleles. We demonstrate the utility of FAIMS to expand the known glycoproteome of N. gonorrhoeae and enable comparative glycoproteomics of a recently reported panel of N. gonorrhoeae strains expressing different pglO allelic chimeras (15 pglO enzymes) with unique substrate targeting activities. Combining glycoproteomic insights with DIA proteomics we demonstrate that alterations within pglO alleles have widespread impacts on the proteome of N. gonorrhoeae yet lead to minimal effects on the abundance of glycoproteins. Additionally, while DIA analysis can allow occupancy to be inferred by the absence or presence of peptides known to be modified, we observe a poor correlation between DIA measurements of non-modified versions of glycopeptides and glycoproteomic analysis. Combined this work expands our understanding of the N. gonorrhoeae glycoproteome and supports that the expression of different pglO alleles appears to drive proteomic changes independent of the glycoproteins targeted for glycosylation.

INSTRUMENT(S): Orbitrap Fusion Lumos

ORGANISM(S): Neisseria Gonorrhoeae Ms11

SUBMITTER: Nichollas Scott  

LAB HEAD: Nichollas Scott

PROVIDER: PXD044666 | Pride | 2024-02-01

REPOSITORIES: Pride

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