Scopus İndeksli Yayınlar Koleksiyonu / Scopus Indexed Publications Collection

Permanent URI for this collectionhttps://hdl.handle.net/11147/7148

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Author: search.filters.author.Yalçın, Talat

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Now showing 1 - 10 of 18
  • Article
    Residue-Specific Pathways in Peptide Fragmentation: the Role of Aromatic Side Chain in A3 Ion Formation From B3 Ion
    (Elsevier, 2025) Atik, A. Emin; Yalçın, Talat; Karaca, Sila; Yalcin, Talat
    Peptide fragmentation chemistry is essential for the sequence elucidation of proteins through tandem mass spectrometry (MS/MS). In this study, we examine the gas-phase fragmentation of b3 ions from model tripeptides under low-energy CID conditions, focusing on the pathway leading to the stable formation of a3 ions from b3 ions. The study utilized C-terminal amidated model tripeptides, including YGG-NH2, GYG-NH2, and GGX-NH2, where X represents D, E, H, Q, C, S, F, and Y. Our results reveal that only tripeptides with phenylalanine (F) and tyrosine (Y) as the third residue yield a3 ions upon b3 ion fragmentation under the applied experimental conditions, suggesting a unique stabilizing role of aromatic side chains in facilitating this pathway. Our theoretical studies indicate that the a3 ions from GGF-NH2 and GGY-NH2 preferentially adopt an energetically favored linear imineprotonated isomer, which is lower in energy by 3.29 kcal/mol and 4.17 kcal/mol, respectively, compared to their 7-membered ring isomers protonated at the ring imine. The latter structure has been previously assigned for the GGG sequence as a predominant structure, supported by IR spectroscopy and DFT calculations (JACS, 2010, 132, 14,766-14779). We proposed a plausible fragmentation mechanism for the a3 ions based on the linear imineprotonated structure. These findings provide insights into residue-specific fragmentation mechanisms and enhance our understanding of peptide ion dissociation, particularly in small peptides.
  • Article
    Citation - WoS: 2
    Citation - Scopus: 2
    Gas Phase Fragmentation Behavior of Proline in Macrocyclic B7 Ions
    (American Chemical Society, 2023) Taşoğlu, Çağdaş; Arslanoğlu, Alper; Yalçın, Talat
    Thefragmentation characteristics of b (7) ionsproduced from proline-containing heptapeptides have been studiedin detail. The study has utilized the following C-terminally amidatedmodel peptides: PA(6), APA(5), A(2)PA(4), A(3)PA(3), A(4)PA(2), A(5)PA, A(6)P, PYAGFLV, PAGFLVY, PGFLVYA, PFLVYAG,PLVYAGF, PVYAGFL, YPAGFLV, YAPGFLV, YAGPFLV, YAGFPLV, YAGFLPV, YAGFLVP,PYAFLVG, PVLFYAG, A(2)PXA(3), and A(2)XPA(3) (where X = C, D, F, G, L, V, and Y, respectively). The resultshave shown that b (7) ions undergo head-to-tailcyclization and form a macrocyclic structure. Under the collision-induceddissociation (CID) condition, it generates nondirect sequence ionsregardless of the position of the proline and the neighboring aminoacid residues. This study highlights the unusual and unique fragmentationbehavior of proline-containing heptapeptides. Following the head-to-tailcyclization, the ring opens up and places the proline residue in theN-terminal position while forming a regular oxazolone form of b (2) ions for all peptide series. Then, the fragmentationreaction pathway is followed by the elimination of proline with itsC-terminal neighbor residue as an oxazolone (e.g., PXoxa) for all proline-containing peptide series.
  • Article
    Citation - WoS: 7
    Citation - Scopus: 6
    Visceral Leishmaniasis Caused by Leishmania Tropica
    (Springer, 2023) Özbilgin, Ahmet; Tunalı, Varol; Çavuş, İbrahim; Vardarlı Tetik, Aslı; Dinç, Melike; Yalçın, Talat; Gündüz, Cumhur; Beyaz, Merve; Köse, Şükran
    PurposeIn Turkey, the main causative agent of visceral leishmaniasis (VL) is Leishmania. infantum and the main causative agent of cutaneous leishmaniasis (CL) is Leishmania tropica. In this study, we aimed to discuss the possible mechanisms, clinical aspects, and threat of visceralizing L. tropica.MethodsThis study includes seven cases of VL caused by L. tropica.Five patients were male (71%) and four were adults (57%).ResultsAll the VL patients complained of fever and splenomegaly. Fatigue, pancytopenia, and hepatomegaly were present in six patients each (86%), while weight loss and gastrointestinal system (GIS) symptoms were present in 5 patients (71%).ConclusionsIn this study, we have evaluated seven cases of visceralized L. tropica (VLT) in the context of the changing leishmaniasis epidemiology in Turkey. We have evaluated the possible mechanisms of visceralization; inter- and intraspecies genetic exchange with all the old world leishmaniasis agents present in the region, stress induced by inappropriate use of drugs, and possible ongoing adaptation mechanisms of Leishmania spp. The threat posed by VLT is significant as L. tropica is the most widespread and most common cause of leishmaniasis in Turkey. We do not know the vectorial capacity of the sand flies for the transmission of VLT strains or if these strains are in circulation in Turkey. Future studies should be carried out to investigate these issues as the transition of L. tropica from a mild disease-causing agent to a mortal one poses a significant public health concern for Turkey and Europe.
  • Article
    Citation - WoS: 5
    Citation - Scopus: 4
    Comparative Proteomic Analysis of Leishmania Parasites Isolated From Visceral and Cutaneous Leishmaniasis Patients
    (Cambridge University Press, 2021) Dinç, Melike; Yalçın, Talat; Çavuş, İbrahim; Özbilgin, Ahmet
    Leishmaniasis is an infectious disease in which different clinical manifestations are classified into three main forms as visceral, cutaneous, and mucocutaneous. These disease forms are associated with parasite species of protozoan genus, Leishmania. For instance, Leishmania infantum and Leishmania tropica are typically linked with visceral (VL) and cutaneous (CL) leishmaniasis respectively, however these two species can also cause other form to a lesser extent. What is more alarming is this characteristic, which threatens classic diagnoses and therapies, is started to be acquired by other species. To address this issue, gel-based and gel-free proteomic analyses were carried out on the species, Leishmania infantum to determine the proteins differentiating between the parasites caused visceral and cutaneous leishmaniasis. In addition, Leishmania tropica parasites representing the typical cases for cutaneous leishmaniasis were included. Electrophoresis gels of parasites caused to visceral leishmaniasis were distinguishable from the others in terms of repetitive down-regulation on some specific locations. In addition, a distinct spot of an antioxidant enzyme, superoxide dismutase was shown up only on the gels of cutaneous leishmaniasis samples regardless of the species. In the gel-free approach, 37 proteins which were verified with a second database search using a different search engine, were distinguished from the comparison between VL and CL samples. Among them, 31 proteins for the CL group and 6 proteins for the VL group were determined differentially abundant. Two proteins from the gel-based analysis namely pyruvate kinase and succinly-coA:3-ketoacid-coenzyme A transferase analysis were encountered in the protein list of the CL group.
  • Article
    Gas-Phase Fragmentation Reactions of A7 Ions Containing a Glutamine Residue
    (Wiley-Blackwell, 2021) Atik, Ahmet; Arslanoğlu, Alper; Yalçın, Talat; Atik, Ahmet; Arslanoğlu, Alper; Yalçın, Talat
    The gas-phase fragmentation reactions of the a7 ions derived from glutamine (Q) containing model heptapeptides have been studied in detail with low-energy collision-induced dissociation (CID) tandem mass spectrometry (MS/MS). Specifically, the positional effect of the Q residue has been investigated on the fragmentation reactions of a7 ions. The study involves two sets of permuted isomers of the Q containing model heptapeptides. The first set contains the QAAAAAA sequence, and the second set involves of QYAGFLV sequence, where the position of the Q residue is changed from N- to C-terminal gradually for both peptide series. An intense loss of ammonia from the a7 ions followed by internal amino acid eliminations strongly supports forming the imine-amides structure via cyclization/rearrangement reaction for all studied a7 ions. This is in agreement with the pioneering study reported by Bythell et al. (2010, 10.1021/ja101556g). A novel rearrangement reaction is detected upon fragmentation of imine-amide structure, which yields a protonated C-terminal amidated hexapeptide excluding the Q residue. A possible fragmentation mechanism was proposed to form the protonated C-terminal amidated hexapeptide, assisted via nucleophilic attack of the side chain amide nitrogen of the Q residue on its N-protonated imine carbon atom of the rearranged imine-amide structure. Highlights: The gas-phase fragmentation reactions of a7 ions obtained from protonated model peptides containing glutamine residue were studied by ESI-MS/MS. A rearranged imine-amide structure is the predominant even for a7 ions. Novel rearrangement reaction is observed which forms a protonated C-terminal amidated hexapeptide excluding Q residue upon fragmentation of the imine-amide structure.
  • Book Part
    Citation - Scopus: 1
    Mass Spectroscopy in Polymer Research
    (John Wiley and Sons Inc., 2012) Hacaloğlu, Jale; Yalçın, Talat
    Mass spectrometers are currently available in numerous confi gurations with various ionization techniques and mass analyzers. For a specifi c polymer sample, an optimal choice should be done depending on the information sought. In practice, no single mass spectrometric technique can provide all necessary information for structural, compositional, and thermal and oxidative degradation characteristics of polymeric samples. The analyzer used determines the limits of the sensitivity and resolution and the mass range, whereas the type of ionization source specifi es the information that can be gained.
  • Article
    Citation - WoS: 2
    Citation - Scopus: 2
    Observation of the Side Chain O-Methylation of Glutamic Acid or Aspartic Acid Containing Model Peptides by Electrospray Ionization-Mass Spectrometry
    (Elsevier Ltd., 2017) Atik, Ahmet Emin; Güray, Melda Zeynep; Yalçın, Talat
    O-methylation of the side chains of glutamic acid (E) and aspartic acid (D) residues is generally observed modification when an acidified methanol/water (MeOH/dH2O) mixture is used as a solvent system during sample preparation for proteomic research. This chemical modification may result misidentification with endogenous protein methylation; therefore, a special care should be taken during sample handling prior to mass spectrometric analysis. In the current study, we systematically examined the extent of E/D methylation and C-terminus carboxyl group of synthetic model peptides in terms of different incubation temperatures, storage times, and added acid types as well as its percentages. To monitor these effects, C-terminus amidated and free acid forms of synthetic model peptides comprised of E or D residue(s) have been analyzed by electrospray ionization-mass spectrometry (ESI-MS). Additionally, LC–MS/MS experiments were performed to confirm the formation of methylated peptide product. The results showed that the rate of methylation was increased as the temperature increases along with prolong incubation times. Moreover, the extent of methylation was remarkably high when formic acid (FA) used as a protonation agent instead of acetic acid (AA). In addition, it was found that the degree of methylation was significantly decreased by lowering acid percentages in ESI solution. More than one acidic residue containing model peptides have been also used to explore the extent of multiple methylation reaction. Lastly, the ethanol (EtOH) and isopropanol (iPrOH) have been substituted separately with MeOH in sample preparation step to investigate the extent of esterification reaction under the same experimental conditions. However, in the positive perspective of view, this method can be used as a simple, rapid and cheap method for methylation of acidic residues under normal laboratory conditions.
  • Article
    Citation - WoS: 4
    Citation - Scopus: 4
    Gas-Phase Structures and Proton Affinities of N-Terminal Proline Containing B2 + Ions From Protonated Model Peptides
    (Elsevier Ltd., 2015) Karaca, Sıla; Atik, Ahmet Emin; Elmacı, Nuran; Yalçın, Talat
    In this study, we investigated the effect of the second amino acid identity of hexapeptides on gas-phase structures and the proton affinities of N-terminal proline containing b2 + ions produced from the fragmentation of b6 + ions under low-energy collision-induced dissociation (CID) tandem mass spectrometry (MS/MS). It should be noted that, among all other fragments, the b2 + and nominally b4 + (AAAA) ions ([M+H]+ → b6 + → b2 + (PX+) + b4 + (AAAA+) were mainly considered in this study. This is a unique example of consecutive cleavage of b6 + ions which fragments to b2 + and nominal b4 + ions. All structural and proton affinity calculations for b2 + ions were carried out with the B3LYP/6-31+G(d,p) level of theory. The study utilized C-terminal amidated model peptides consisting of PAAAAA-NH2 and PXAAAA-NH2 where X is phenylalanine (F), glutamic acid (E), tryptophan (W), and histidine (H) residue. Two main structural isomers of b2 + ions, namely oxazolone and diketopiperazine, have been considered for the computations. The results demonstrated that the proton affinities of oxazolone isomers of PX are greater than its diketopiperazine isomers. Higher correlation coefficient is calculated if the structure of PX is considered as oxazolone rather than diketopiperazine isomer. Additionally, a linear fit is observed between intensity ratio (PX/AAAA) and calculated proton affinities of PX ions. Additionally, MS/MS results revealed that the relative intensities of b2 +-PA, PF, and PE- ions are lower compared to the relative intensity of AAAA fragment ion. In contrast, b2 +-PW and PH- ions have higher relative intensities compared to the AAAA ion. This behavior is explained by the proton affinities of fragment ions computationally.
  • Article
    Citation - WoS: 1
    Citation - Scopus: 1
    Specific Rearrangement Reactions of Acetylated Lysine Containing Peptide Bn (n=4-7) Ion Series
    (John Wiley and Sons Inc., 2014) Atik, Ahmet Emin; Hernandez, Oscar; Maitre, Philippe; Yalçın, Talat
    Characterization of ε-N-acetylated lysine containing peptides, one of the most prominent post-translational modifications of proteins, is an important goal for tandem mass spectrometry experiments. A systematic study for the fragmentation reactions of b ions derived from ε-N-acetyllysine containing model octapeptides (KAcYAGFLVG and YAKAcGFLVG) has been examined in detail. Collision-induced dissociation (CID) mass spectra of bn (n=4-7) fragments of ε-N-acetylated lysine containing peptides are compared with those of N-terminal acetylated and doubly acetylated (both ε-N and N-terminal) peptides, as well as acetyl-free peptides. Both direct and nondirect fragments are observed for acetyl-free and singly acetylated (ε-N or N-terminal) peptides. In the case of ε-N-acetylated lysine containing peptides, however, specific fragment ions (m/z 309, 456, 569 and 668) are observed in CID mass spectra of bn (n=4-7) ions. The CID mass spectra of these four ions are shown to be identical to those of selected protonated C-terminal amidated peptides. On this basis, a new type of rearrangement chemistry is proposed to account for the formation of these fragment ions,which are specific for ε-N-acetylated lysine containing peptides. Consistent with the observation of nondirect fragments, it is proposed that the b ions undergo head-to-tail macrocyclization followed by ring opening. The proposed reaction pathway assumes that bn (n=4-7) of ε-N-acetylated lysine containing peptides has a tendency to place the KAc residue at the C-terminal position after macrocyclization/reopening mechanism. Then, following the loss of CO, it is proposed that the marker ions are the result of the loss of an acetyllysine imine as a neutral fragment.
  • Article
    Citation - WoS: 9
    Citation - Scopus: 9
    The Role of Lysine ?-Amine Group on the Macrocyclization of B Ions
    (Elsevier Ltd., 2012) Atik, Ahmet Emin; Görgülü, Güvenç; Yalçın, Talat
    A study was carried out to examine if the amine (NH 2) group located on the side chains of lysine (K), glutamine (Q), or asparagine (N) residue has any effect on the macrocyclization of b ions even though the N-terminals of the peptides were acetylated. The work utilized the model peptides Ac-KYAGFLVG, Ac-QYAGFLV-NH 2, and Ac-NYAGFLV-NH 2. The CID mass spectra of b 7 ions originated from these three peptides exhibited that the macrocyclization still occurred for the lysine containing peptide in spite of the N-terminal of the peptide was acetylated, but was failed to be observed for glutamine and asparagine containing peptides. These current results reveal that the lysine side chain ε-amine group has been involved in the macrocyclization of the peptide b ions for the N-terminal acetylated peptides and consequently, non-direct sequence b ions were observed in the CID mass spectra. However, due to the amide group on the side chains of the glutamine and asparagine residues, the nucleophilicity of their groups greatly reduced; therefore the scrambling b ions were not detected in their b 7 ion CID mass spectra. In addition, the effect of the lysine position was also studied for series of six isomeric octapeptides such as, Ac-KYAGFLVG, Ac-YKAGFLVG, Ac-YAKGFLVG, Ac-YAGKFLVG, Ac-YAGFKLVG and Ac-YAGFLKVG in order to examine the relationship between the intensities of non-direct sequence b ions and the lysine position in the octapeptide series. The results clearly demonstrated that the most abundant non-direct sequence b ions were observed for the first position of lysine residue in the N-terminal acetylated octapeptide, however, when the lysine residue gets closer to the C-terminal position the relative intensities of the scrambled b ions were greatly decreased.