MassIVE MSV000091860

Description

Neuropeptides have tremendous potential for application in modern medicine, including utility as biomarkers and therapeutics. To overcome the inherent challenges associated with neuropeptide identification and characterization, data-independent acquisition (DIA) is a fitting mass spectrometry (MS) method choice to achieve sensitive, accurate analysis. It is advantageous for preliminary neuropeptidomic studies to occur in less complex organisms, with crustacean models serving as a popular choice due to their relatively simple nervous system. With spectral libraries serving as a means to interpret DIA-MS output spectra, and crustaceans a choice model for neuropeptide analysis, we performed the first spectral library mapping of crustacean neuropeptides. Leveraging pre-existing data-dependent acquisition (DDA) spectra, a spectral library was built using PEAKS Online. The library is comprised of 333 unique neuropeptides. The identification results obtained through the use of this spectral library were compared with those achieved through library-free analysis of crustacean brain, pericardial organs (PO), and thoracic ganglia (TG) tissues. A statistically significant increase (Students t-test, P value<0.05) in the number of identifications achieved from TG data was observed in the spectral library results. Furthermore, in each of the tissues, a distinctly different set of identifications were found in the library-search compared to the library-free search. This work highlights the necessity for use of spectral libraries in neuropeptide analysis, illustrating the advantage of spectral libraries for interpreting DIA spectra in a reproducible manner with greater neuropeptidomic depth. [doi:10.25345/C52Z1304B] [dataset license: CC0 1.0 Universal (CC0 1.0)]

Keywords: data-independent acquistion ; neuropeptide ; spectral library

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