Evaluation of ice‐tea quality by DART‐TOF/MS

DART (Direct Analysis in Real Time) coupled with Time‐of‐Flight Mass Spectrometry (TOF/MS) has been used for analyses of ice‐teas. The article focuses on quality and authenticity of ice‐teas as one of the most important tea‐based products on the market. Twenty‐one samples of ice‐teas (black and green) were analysed. Selected compounds of ice‐teas were determined: theobromine, caffeine, total phenolic compounds, total soluble solids, total amino acid concentration, preservatives and saccharides were determined. Fingerprints of DART‐TOF/MS spectra were used for comprehensive assessment of the ice‐tea samples. The DART‐TOF/MS method was used for monitoring the following compounds: citric acid, caffeine, saccharides, artificial sweeteners (saccharin, acesulphame K), and preservatives (sorbic and benzoic acid), phosphoric acid and phenolic compounds. The measured data were subjected to a principal components analysis. The HPLC and DART‐TOF/MS methods were compared in terms of determination of selected compounds (caffeine, benzoic acid, sorbic acid and saccharides) in the ice‐teas. The DART‐TOF/MS technique seems to be a suitable method for fast screening, testing quality and authenticity of tea‐based products. Copyright © 2015 John Wiley & Sons, Ltd.     

Characterization of different poly(2‐oxazoline) block copolymers by MALDI‐TOF MS/MS and ESI‐Q‐TOF MS/MS

A complete library of poly(2‐oxazoline) block copolymers was synthesized via cationic ring opening polymerization for the characterization by two different soft ionization techniques, namely matrix‐assisted laser desorption/ionization time‐of‐flight mass spectrometry (MALDI‐TOF MS) and electrospray ionization quadrupole time‐of‐flight mass spectrometry (ESI‐Q‐TOF MS). In addition, a detailed characterization was performed by tandem MS to gain more structural information about the block copolymer composition and its fragmentation behavior. The fragmentation of the poly(2‐oxazoline) block copolymers revealed the desired polymer structure and possible side reactions, which could be explained by different mechanisms, like 1,4‐ethylene or hydrogen elimination and the McLafferty +1 rearrangement. Polymers with aryl side groups showed less fragmentation due to their higher stability compared to polymers with alkyl side groups. These insights represent a further step toward the construction of a library with fragments and their fragmentation pathways for synthetic polymers, following the successful examples in proteomics. © 2010 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem, 2010     

CE‐ESI‐TOF/MS for human growth hormone analysis

CE is a powerful analytical tool used to separate intact biomolecules such as proteins. The coupling of CE with TOF/MS produces a very promising method that can be used to detect and identify proteins in different matrices. This paper describes an efficient, rapid, and simple CE‐ESI‐TOF/MS procedure for the analysis of endogenous human growth hormone and recombinant human growth hormone without sample preparation. Operational factors were optimized using an experimental design, and the method was successfully applied to distinguish human growth hormone and recombinant human growth hormone in unknown samples.     

Screening free radical scavengers in Xiexin Tang by HPLC‐ABTS‐DAD‐Q‐TOF/MS

Xiexin Tang (XXT) is a traditional Chinese medicine (TCM) that has been used in herbal clinics for more than 1800 years. Many studies have shown that XXT has therapeutic effects on patients with arteriosclerosis owing to its antioxidant activity. However, there is little information about the relationship between the chemical composition of XXT and its antioxidant activity. In this study, the HPLC‐ABTS‐DAD‐Q‐TOF/MS method, which can simultaneously identify individual components and rapidly screen for antioxidant compounds, was used to screen and identify antioxidant components in XXT. The 15 compounds identified were gluco‐syringic acid, adenine, gallic acid, biflorin, cularine, 6‐C ‐arabinose‐8‐C ‐glucose‐chrysin, 6‐C ‐glucose‐8‐C ‐arabinose–chrysin, baicalin, rhein‐8‐O‐β ‐d ‐glucopyranoside, coptisine, epiberberine, jatrorrhizine, norwogonin, 5,7,2′‐trihydroxy‐6‐ methoxyflavone and baicalein. In addition, the data showed that the antioxidant activity of peaks 4, 6, and 11 was lower in XXT than in its constituent herbs, while the activity of peaks 1, 2, 3, 5, 7, 8, 10, 12, 13, 14 and 15 was higher in XXT. Compound 5 had the strongest antioxidant activity in XXT, while compound 1 showed the strongest antioxidant activity among its constituent herb. The differences between antioxidant activities of major components of XXT and those of its constituent herbs might be due to the interaction of crude drugs that changes the solubility of active components during the decoction process. The results show that the HPLC‐ABTS‐DAD‐Q‐TOF/MS method can successfully combine on‐line mass spectrometry with activity detection system. It is a useful tool for the rapid detection and identification of antioxidants, and for quantitative analysis of individual antioxidants in complex mixtures such as plant extracts. Furthermore, this method does not require extensive extract purification and fraction collection.     

On the high‐resolution mass analysis of the product ions in tandem time‐of‐flight (TOF/TOF) mass spectrometers using a time‐dependent re‐acceleration technique

The time‐dependent reacceleration of product ions produced as a result of dissociation of a single precursor ion in a tandem time‐of‐flight mass spectrometer is considered for the first time. Analytical expressions for the shapes of electric pulses bringing all the kinetic energies of the product ions to the same value are derived for two cases: forward acceleration mode and deceleration, followed by re‐acceleration in the reversed direction (reversed mode). Secondary time‐of‐flight focusing resulting from the re‐acceleration in the reversed mode is shown to be mass‐dependent and, when averaged over a wide mass range, the focusing is tight enough to provide mass resolution exceeding 10 000. After time‐dependent re‐acceleration, additional compression of the ion packet width leading to better mass resolution can be obtained by decelerating the ions in a constant field. Copyright © 2009 John Wiley & Sons, Ltd.     

Identification of bio‐active metabolites of gentiopicroside by UPLC/Q‐TOF MS and NMR

Gentiopicroside (GPS), the main bioactive component in Gentiana scabra Bge., has attracted our attention owing to its high bioactivity, especially the treatment of hepatobiliary disorders. The aglycone form of GPS, a typical secoiridoid glycoside, is considered to be more readily absorbed than its parent drug. This study aimed to identify and characterize the metabolites after GPS incubated with β‐glucosidase in buffer solution at 37°C. Samples of biotransformed solution were collected and analyzed by ultraperformance liquid chromatography (UPLC)/quadrupole–time‐of‐flight mass spectrometry (Q‐TOF MS). A total of four metabolites were detected: two were isolated and elucidated by preparative‐HPLC and NMR techniques, and one of those four is reported for the first time. The mass spectral fragmentation pattern and accurate masses of metabolites were established on the basis of UPLC/Q‐TOF MS analysis. Structure elucidation of metabolites was achieved by comparing their fragmentation pattern with that of the parent drug. A fairly possible metabolic pathway of GPS by β‐glucosidase was proposed. The hepatoprotective activities of metabolites M1 and M2 were investigated and the results showed that their hepatoprotective activities were higher than that of parent drug. Our results provided a meaningful basis for discovering lead compounds from biotransformation related to G. scabra Bge. in traditional Chinese medicine. Copyright © 2013 John Wiley & Sons, Ltd.     

Block length determination of the block copolymer mPEG‐b‐PS using MALDI‐TOF MS/MS

The molar mass determination of block copolymers, in particular amphiphilic block copolymers, has been challenging with chromatographic techniques. Therefore, methoxy poly(ethylene glycol)‐b‐poly(styrene) (mPEG‐b‐PS) was synthesized by atom transfer radical polymerization (ATRP) and characterized in detail not only by conventional chromatographic techniques, such as size exclusion chromatography (SEC), but also by matrix‐assisted laser/desorption ionization tandem mass spectrometry (MALDI‐TOF MS/MS). As expected, different molar mass values were obtained in the SEC measurements depending on the calibration standards (either PEG or PS). In contrast, MALDI‐TOF MS/MS analysis allowed the molar mass determination of each block, by the scission of the weakest point between the PEG and PS block. Thus, fragments of the individual blocks could be obtained. The PEG block showed a depolymerization reaction, while for the PS block fragments were obtained in the monomeric, dimeric, and trimeric regions as a result of multiple chain scissions. The block length of PEG and PS could be calculated from the fragments recorded in the MALDI‐TOF MS/MS spectrum. Furthermore, the assignment of the substructures of the individual blocks acquired by MALDI‐TOF MS/MS was accomplished with the help of the fragments that were obtained from the corresponding homopolymers. © 2010 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem, 2010     

Identification of isoquercitrin metabolites produced by human intestinal bacteria using UPLC‐Q‐TOF/MS

In this paper, ultraperformance liquid chromatography/quadrupole time‐of‐flight mass spectrometry (UPLC‐Q‐TOF/MS) and the MetaboLynx? software combined with mass defect filtering were applied to identity the metabolites of isoquercitrin using an intestinal mixture of bacteria and 96 isolated strains from human feces. The human incubated samples collected for 72 h in the anaerobic incubator and extracted with ethyl acetate were analyzed by UPLC‐Q‐TOF/MS within 10 min. The parent compound and five metabolites were identified by eight isolated strains, including Bacillus sp. 17, Veillonella sp. 23 and 32 and Bacteroides sp. 40, 41, 56, 75 and 88 in vitro. The results indicate that quercetin, acetylated isoquercitrin, dehydroxylated isoquercitrin, hydroxylated quercetin and hydroxymethylated quercetin are the major metabolites of isoquercitrin. Furthermore, a possible metabolic pathway for the biotransformation of isoquercitrin was established in intestinal flora. This study will be helpful for understanding the metabolic route of isoquercitrin and the role of different intestinal bacteria in the metabolism of natural compounds. Copyright © 2012 John Wiley & Sons, Ltd.     

Identification of astilbin metabolites produced by human intestinal bacteria using UPLC‐Q‐TOF/MS

Astilbin, mainly isolated from a commonly used herbal medicine, Smilax glabra Roxb (SGR), exhibits a variety of pharmacological activities and biological effects. It is metabolized by intestinal bacteria after oral administration which leads to the variation of ethnopharmacological profile of this traditional medicine. However, little is known on the interactions of this active compound with intestinal bacteria, which would be very helpful in unravelling how SGR works. In this study, different pure bacteria from human feces were isolated and were used to investigate their conversion capability of astilbin. Ultra‐performance liquid chromatography/quadrupole‐time‐of‐flight mass spectrometry (UPLC‐Q‐TOF/MS) technique combined with Metabolynx^TM software was used to analyze astilbin and its metabolites. The parent compound and two metabolites (quercetin and eriodictyol) were detected in the isolated bacterial samples compared with blank samples. Quercetin was present in Enterococcus sp. 8B, 8–2 and 9–2 samples. Eriodictyol was only identified in Enterococcus sp. 8B sample. The metabolic routes and metabolites of astilbin produced by the different intestinal bacteria are reported for the first time. This will be useful for the investigation of the pharmacokinetic study of astilbin in vivo and the role of different intestinal bacteria in the metabolism of natural compounds. Copyright © 2014 John Wiley & Sons, Ltd.     

A fast,reproducible and low‐cost method for sequence deconvolution of ‘on‐bead’ peptides via ‘on‐target’ maldi‐TOF/TOF mass spectrometry

A novel approach to high‐throughput sequence deconvolution of on‐bead small peptides (MW < 2000 Da) using on‐target MALDI‐TOF/TOF instrumentation is presented. Short peptides of pentamer and octamer length, covalently attached to TentaGel polystyrene beads through a photolabile linker, were placed onto the MALDI target, apportioned with suitable matrix (2,5‐dihydroxybenzoic acid) and then hit with the instrument laser (Nd : YAG, 355 nm). This induced easy and highly reproducible photochemical cleavage, desorption (MS mode) and fragmentation (MS/MS mode). Peptide fragments were identified with a mass accuracy of 0.1 Da of the expected values. This technique significantly accelerates the sequence determination of positive peptide hits obtained from random combinatorial libraries when screening against biological targets, paving the way for a rapid and efficient method to identify molecular imaging ligands specific to pathological targets in cancer and other diseases. Copyright © 2009 John Wiley & Sons, Ltd.     

An effective and rapid determination by MALDI/TOF/TOF of methionine sulphoxide content of ApoA‐I in type 2 diabetic patients

Increased oxidation of low density lipoprotein (LDL) is characteristic of atherosclerosis. In this frame, high density lipoproteins (HDL) play an important role, being able to remove lipid peroxides (LPOs) and cholesterol from oxidized LDL, so exhibiting a protective role against atherosclerosis. A wide range of reactive compounds lead to the oxidation of methionine (Met) residues with the formation of methionine sulphoxide (MetO) in apolipoprotein A‐I (ApoA‐I). Consequently, the determination of MetO level can give both an evaluation of oxidative stress and the reduced capability of ApoA‐I in LPOs and cholesterol transport. For these reasons, the development of analytical methods able to determine the MetO level is surely of interest, and we report here the results obtained by MALDI mass spectrometry. Copyright © 2013 John Wiley & Sons, Ltd.     

Identification and determination of the major constituents in Kai‐Xin‐San by UPLC‐Q/TOF MS and UFLC‐MS/MS method

In order to have overall chemical material information of Kai‐Xin‐San (KXS), the reliable ultra‐high‐performance liquid chromatography quadrupole time‐of‐flight mass spectrometer (UHPLC–Q‐TOF‐MS) and ultra‐fast liquid chromatography mass spectrometer (UFLC‐MS/MS) methods were developed for the identification and determination of the major constituents in KXS. Moreover, the UHPLC–Q‐TOF‐MS method was also applied to screen for multiple absorbed components in rat plasma after oral administration of KXS. The UHPLC–Q‐TOF‐MS method was achieved on Agilent 6520 Q‐TOF mass and operated in the negative ion mode. Good separation was performed on a ZORBAX Eclipse Plus C18 column with a gradient elution at a flow rate of 0.2 ml/min. A total of 92 compounds in KXS were identified or tentatively characterized based on their exact molecular weights, fragmentation patterns, and literature data. A total of 26 compounds including 23 prototype components and three metabolites were identified in rat plasma after oral administration of KXS. Then, 16 major bioactive constituents were chosen as the benchmark substances to evaluate the quality of KXS. Their quantitative analyses were performed by a triple quadrupole tandem mass spectrometer (MS/MS) operating in multiple‐reaction monitoring mode(MRM). The analysis was completed with a gradient elution at a flow rate of 0.4 ml/min within 35 min. The simple and fast method was validated and showed good linearity, precision, and recovery. Furthermore, the method was successful applied for the determination of 16 compounds in KXS. All results would provide essential data for identification and quality control of active chemical constituents in KXS. Copyright © 2016 John Wiley & Sons, Ltd.     

MALDI‐TOF MS characterization of dihydroxy telechelic polyisobutylene

MALDI‐TOF MS characterizations of dihydroxy telechelic polyisobutylene is reported. Dichloro telechelic polyisobutylene (Cl—PIB—Cl) was synthesized by means of living cationic polymerization using p‐dicumyl chloride/BCl₃/DMSO initiating systems. The resulting polymer was functionalized by polymer analogous reactions to yield dihydroxy telechelic polyisobutylene (HO—PIB—OH). It was then investigated by MALDI‐TOF MS in the cation mode using 1,8‐dihidroxy‐9(10H)‐anthracenone (dithranol)/CF₃COOAg matrix. The MALDI TOF MS spectra showed an increase in mass by 56 amu units attributed to the isobutylene monomer increment. The endgroups of HO—PIB—OH were determined. A good agreement was also found between the calculated isotope distributions and the isotope distributions determined by means of MALDI.     

MALDI‐TOF Mass‐Spectrometry‐Based Versatile Method for the Characterization of Protein Kinases

We describe a MALDI‐TOF mass‐spectrometry‐based method that is rapid and versatile for the characterization of protein kinases and their inhibitors. We have designed new kinase substrates by the modification of common synthetic peptides, such as kemptide (LRRALS G), CaMKII substrate (KRQQS FDLF), erktide (ATGPLS PGPFGRR), abltide (EAIY AAPFAKKK), srctide (AEEEIY GEFEAKKKK), neurogranin (AAAKIQAS FRGHMARKK), and casein kinase I (CKI) substrate (RRKDLHDDEEDEAMS ITA). There are two fundamental points on which the proposed method is based to improve the mass‐spectrometric response: 1) mass tag technology by N‐derivatization through stable isotope labeling and 2) C‐terminal conjugation with tryptophanylarginine (WR). It was suggested that C‐terminal conjugation with the WR moiety enhances the ionization potency of these new substrates 1.5–13.7 times as much as those of the original peptides. We demonstrated, by using modified abltide (Ac‐EAIY AAPFAKKKWR‐NH₂), that WR conjugation at the C‐terminus in combination with stable‐isotope labeling at the N‐terminus allowed the quantitative assay of recombinant c‐Abl kinase in the presence of adenosine 5′‐triphosphate (ATP; K_M,ATP=18.6 μM and V_max=642 pmol min^?1 μg^?1). The present protocol made a simple and reliable inhibition assay of recombinant c‐Abl kinase by imatinib possible (IC_{50(recombinant)}=291 nM ; STI571, Gleevec; Novartis Pharma). Moreover, it was also demonstrated that this ATP noncompetitive inhibitor differentiates between two conformers of c‐Abl kinases: the phosphorylated active and dephosphorylated inactive forms (IC_{50(active form)}=1049 nM and IC_{50(inactive form)}=54 nM ). The merit of this approach is evident because the present protocol can be applied to the direct monitoring of the activities of living cell kinases by using cancer‐cell lines, such as mouse B16 melanoma cells and human lung cancer K562 cells. A multiple‐kinase assay that uses K562 cell lysate in the presence of seven new synthetic substrates made high‐throughput inhibitor profiling possible. It should be emphasized that this radioactive isotope‐free quantitative kinase assay will greatly accelerate the discovery of a new generation of potential kinase inhibitors that exhibit highly selective or unique inhibitory profiles.