DBDA Matrix Increases Ion Abundance of Fatty Acids and Sulfatides in MALDI-TOF and Mass Spectrometry Imaging Studies.

MALDI-TOF MS is a powerful tool to analyze biomolecules, owing to its soft ionization nature that generally results in simple spectra of singly charged ions. Implementation of the technology in the imaging mode provides a means to spatially map analytes in situ. Recently, a new matrix, DBDA (1,4-dibenzylidenebenzene-1,4-diamine) was reported to facilitate the ionization of free fatty acids in negative ion mode.

DBDA matrix increases ion abundance of fatty acids and sulfatides in MALDI-TOF and mass spectrometry imaging studies.

MALDI-TOF MS is a powerful tool to analyze biomolecules owing to its soft ionization nature and generally results in simple spectra of singly charged ions. Moreover, implementation of the technology in imaging mode provides a means to spatially map analytes in situ. Recently, a new matrix, DBDA (N1,N4-dibenzylidenebenzene-1,4-diamine) was reported to facilitate the ionization of free fatty acids in the negative ion mode.

Mass spectrometry-based lipid analysis and imaging.

Mass spectrometry imaging (MSI) is a powerful tool for in situ mapping of analytes across a sample. With growing interest in lipid biochemistry, the ability to perform such mapping without antibodies has opened many opportunities for MSI and lipid analysis. Herein, we discuss the basics of MSI with particular emphasis on MALDI mass spectrometry and lipid analysis.