a b s t r a c tA systematic study was carried out to examine the effects of the side chain, peptide size, residue position, and neighboring amino acid on the macrocyclization of b ions. The work utilized isomeric model peptides YAGFLV-NH 2 , AGFLVY-NH 2 , GFLVYA-NH 2 , FLVYAG-NH 2 , LVYAGF-NH 2 , VYAGFL-NH 2 , which all have the same amino acid sequence in cyclic form. The b 6 ions derived from all these isomeric peptides form the same macrocyclic structure due to the generation of the same amino acid sequence order upon cyclization. Hence, the MS/MS spectra and breakdown graphs of b 6 ions derived from these peptides are similar to each other. However, the relative intensities of the non-direct sequence ions in both the MS/MS spectra and breakdown graphs of the b 6 ions derived from FAYVGL-NH 2 , GVYALF-NH 2 and VFYLAG-NH 2 show a different distribution from each other and the first series, even though they are all isomeric peptides. This could be due to the different amino acid sequence order in the cyclic forms of these peptides. It is clearly shown that the neighboring amino acid influences the selective opening of the macrocyclic form.Additionally, XYAGFLV-NH 2 and YAGXFLV-NH 2 (where X = C, D, E, H, K, M, N, P, Q, S, T, and W are amino acid residues) were also studied in order to examine the influence of the peptide size, amino acid side chain, and position on the ring formation and cleavage of macrocyclic b 5 , b 6 and b 7 ions. The results have clearly shown that b 6 and b 7 ions have a higher tendency of macrocyclization compared to b 5 ions with the exception of QYAGFLV-NH 2 . Additionally, it was observed that selective ring opening is also dependent on the size of the b ions and the position of the amino acid residue. From our study of the macrocyclic b 6 ions of our model peptides, the Q, W, K, and M residues were found to be more favorable eliminations when compared to C, D, E, H, N, P, S, and T. Based on the results, no preferential cleavage order can be specified depending on the nature of amino acid side chain.
Abstract. In this study, C-terminal protonated dipeptide eliminations were reported for both b 5 and b 4 ions of side chain hydroxyl group (-OH)
The fragmentation characteristics of b 7 ions produced from proline-containing heptapeptides have been studied in detail. The study has utilized the following C-terminally amidated model peptides: PA6, APA5, A2PA4, A3PA3, A4PA2, A5PA, A6P, PYAGFLV, PAGFLVY, PGFLVYA, PFLVYAG, PLVYAGF, PVYAGFL, YPAGFLV, YAPGFLV, YAGPFLV, YAGFPLV, YAGFLPV, YAGFLVP, PYAFLVG, PVLFYAG, A2PXA3, and A2XPA3 (where X = C, D, F, G, L, V, and Y, respectively). The results have shown that b 7 ions undergo head-to-tail cyclization and form a macrocyclic structure. Under the collision-induced dissociation (CID) condition, it generates nondirect sequence ions regardless of the position of the proline and the neighboring amino acid residues. This study highlights the unusual and unique fragmentation behavior of proline-containing heptapeptides. Following the head-to-tail cyclization, the ring opens up and places the proline residue in the N-terminal position while forming a regular oxazolone form of b 2 ions for all peptide series. Then, the fragmentation reaction pathway is followed by the elimination of proline with its C-terminal neighbor residue as an oxazolone (e.g., PXoxa) for all proline-containing peptide series.
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