Abstract
Mass spectrometry methods are commonly used in the identification of peptides and biomarkers. Due to a relatively low abundance of proteins in biological samples, there is a need for the development of novel derivatization methods that would improve MS detection limits. Hence, novel fluorescent N–hydroxysuccinimide esters of dihydro-[1,2,4]triazolo[4,3-a]pyridin-2-ium carboxylates (Safirinium P dyes) have been synthesized. The obtained compounds, which incorporate quaternary ammonium salt moieties, easily react with aliphatic amine groups of peptides, both in solution and on the solid support; thus, they can be applied for derivatization as ionization enhancers. Safirinium tagging experiments with ubiquitin hydrolysate revealed that the sequence coverage level was high (ca. 80%), and intensities of signals were enhanced up to 8-fold, which proves the applicability of the proposed tags in the bottom–up approach. The obtained results confirmed that the novel compounds enable the detection of trace amounts of peptides, and fixed positive charge within the tags results in high ionization efficiency. Moreover, Safirinium NHS esters have been utilized as imaging agents for fluorescent labeling and the microscopic visualization of living cells such as E. coli Top10 bacterial strain.
Highlights
The aim of proteomics is qualitative and quantitative analysis of proteins in complex samples
The synthesized products obtained in zwitterionic forms were converted into hydrochlorides 3 and 4 with use of methanolic HCl solution, and subsequently reacted with NHS and N,N’-diisopropylcarbodiimide (DIC) as a coupling agent to yield a series of active NHS Safirinium esters 5 and 6
The acetylated at the N-terminus peptide, which is blocked at the C-terminus by conversion of the carboxyl group into an amide, reacts with NHS-activated agents, since it bears a free amine group in the lysine side chain
Summary
The aim of proteomics is qualitative and quantitative analysis of proteins in complex samples This field of study requires high-resolution separation methods and the selective identification of large organic molecules. MS-based methods have been widely applied for the determination and quantification of a large number of proteins and peptides [1,2,3,4], for instance to identify new potential risks or prognostic biomarkers in medical diagnostics of diseases [5,6,7]. More advanced techniques frequently utilized in proteomic studies involve isotopic dilution [5,18,19,20,21], hydrogen–deuterium exchange (HDX) [8,22] and multiple reaction monitoring (MRM) [7]
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