Co-reporter:Nóra Grecsó, Enikő Forró, Ferenc Fülöp, Antal Péter, István Ilisz, Wolfgang Lindner
Journal of Chromatography A 2016 Volume 1467() pp:178-187
Publication Date(Web):7 October 2016
DOI:10.1016/j.chroma.2016.05.041
•Enantiomers of cyclic β3-amino acids were separated on zwitterionic chiral stationary phases.•N-methylation has a marked effect on the elution order.•Elution order can be tuned by changing the configuration of the chiral subunits of the selector.In a systematic way enantioseparations of non-methylated and the corresponding N-monomethylated ampholytic cyclic ß3-amino acids were carried out on four zwitterionic chiral stationary phases (CSPs; ZWIX(+)™, ZWIX(−)™, ZWIX(+A), ZWIX(-A)). CSPs were based on the combinations of quinine and quinidine as the cationic and of (R,R)- and (S,S)-aminocyclohexane sulfonic acid as the anionic sites. In polar-ionic mobile phase systems, the effects of the composition of the bulk solvents, the additives, the concentration of the co- and counter-ions, the temperature, and the structures of the ampholytic analytes were investigated. The changes in standard enthalpy, Δ(ΔH°), entropy, Δ(ΔS°), and free energy, Δ(ΔG°), were calculated from the linear van't Hoff plots derived from the ln α vs 1/T curves in the studied temperature range (5–40 °C). Unusual temperature behavior was observed on the ZWIX(−)™ column: decreased retention times were accompanied by increased separation factors with increasing temperature, and separation was entropically-driven. For the other three CSPs, enthalpically-driven enantioseparations were observed. Via the consequent determination of the elution order of the resolved enantiomers, the effects of the absolute configuration of the chiral anionic and cationic subunits of the zwitterionic CSPs could be elucidated. N-methylation of the amino acids led unexpectedly to a reversal of the elution sequence, which can be interpreted by a subtle shift of the hierarchical order of the sterically most important driving interaction sites from the cationic to the anionic units, and vice versa.
Co-reporter:István Ilisz, Antal Péter, Wolfgang Lindner
TrAC Trends in Analytical Chemistry 2016 Volume 81() pp:11-22
Publication Date(Web):July–August 2016
DOI:10.1016/j.trac.2016.01.016
•The state of the art of the enantioselective amino acid analysis by HPLC is presented.•Chiral stationary phases for the resolution of free and tagged amino acids are shown.•We aimed to provide an overview on technical and practical solutions also.•Insights on molecular recognition processes have been integrated.This review discusses recent publications on the separation and analysis of natural and unnatural amino acid enantiomers by liquid chromatography. Focus is placed on methodological aspects relating chiral stationary phases and chiral columns which can cope with the challenge. Conceptually, amino acids can be enantioseparated in free form, which refers to the resolution of polar ampholytes, or as N-protected amino acids, which can be regarded as acidic commodities. Such synthons are used, for instance, in peptide synthesis protocols. Amino groups are frequently tagged with highly fluorescent or MS/MS active labels in order to generate sensitive and simultaneously stereoselective assays of diverse amino acids in complex matrices.It is our intention to present the state of the art of enantioselective amino acid analysis by HPLC concepts and to pinpoint practical aspects.
Co-reporter:Roland Johann Reischl, Wolfgang Lindner
Journal of Pharmaceutical and Biomedical Analysis 2015 Volume 116() pp:123-130
Publication Date(Web):10 December 2015
DOI:10.1016/j.jpba.2015.02.014
•Direct enantioseparation of di-, tri- and tetrapeptides by novel ZWIX CSPs.•Baseline HPLC separation of d-AA containing peptides and detection by MS2.•Ser racemization mechanisms studied by HRMS2 measurements and isotope exchange.•Ser in peptides racemizes via Cα proton exchange or via β-elimination of OH.The occurrence of d-amino acids (d-AAs) in higher-developed organisms in their free form, and within peptides and proteins, has been investigated with an increasing number of studies. Often the inversion of the stereochemical configuration of an individual amino acid drastically changes its biological activity. Alongside Asn and Asp, Ser is most prone to racemization within peptides. Specific enzymes catalyzing d-Ser generation and breakdown have been described. Hence, the applicability of enantioselective ZWIX(+)® and ZWIX(−)® chiral stationary phases (CSPs) to peptide separations was assessed and a set of 14 pairs of diastereomeric and enantiomeric Ser and Thr containing di-, tri- and tetra-peptides was chromatographically separated without prior hydrolysis to the individual amino acids. To a certain extent, RP chromatography also enabled the separation of peptide diastereomers. The ZWIX CSPs delivered chromatographic selectivities between 1.04 and 7.23, allowing a change of elution order by switching between the ZWIX(+) and the ZWIX(−) CSP. Coupling these highly selective chromatographic columns with an LTQ-Orbitrap XL™ mass spectrometer and performing high resolution MS2 measurements enabled us to investigate mechanistic aspects of chemically induced racemization of Ser embedded in short peptides. As reaction medium an alkaline aqueous solution (pH 12.3) was selected. Proton/deuterium exchange experiments provided evidence of a fast Cα proton exchange with simultaneous racemization. Additionally, 18O/16O exchange allowed the identification of an alternative, and somewhat retarded racemization via a reversible β-elimination and reintroduction of water at the hydroxymethyl side chain of Ser. This involved the intermediate generation of the prochiral didehydro alanine unit.
Co-reporter:Hubert Hettegger, Michal Kohout, Vebi Mimini, Wolfgang Lindner
Journal of Chromatography A 2014 Volume 1337() pp:85-94
Publication Date(Web):11 April 2014
DOI:10.1016/j.chroma.2014.02.026
•Controllable selector loading via Huisgen alkyne–azide cycloaddition.•Effect of free azide groups on analyte retention is negligible.•Selector loading of about 310 μmol/g silica represents an optimum.•Chromatographic behavior is comparable to other Cinchona derived CSPs.The synthesis and chromatographic evaluation of a series of new Cinchona derived chiral weak anion exchangers is presented. Huisgen Cu(I) mediated alkyne–azide cycloaddition, so-called click chemistry, was used as an immobilization strategy. In this way it was possible to immobilize about 90% of offered selector via 1,2,3-triazole linker, which displays a more efficient way of binding the selector to modified silica compared to common radical mediated thiol-ene addition. Problems associated with potential radical scavenging properties of chiral selectors thereby could be circumvented. The evaluation of the synthesized chiral stationary phases regarding chromatographic behavior was carried out using polar organic mode mobile phase composition and a set of representative chiral organic acids. Different loading densities revealed an optimum selector density of about 310 μmol/g chiral stationary phase with respect to resolution and selectivity. A decrease of performance was observed for higher loading, indicating mutual spatial influence of selector units leading to sterical hindrance. In addition, we observed that the effect of free azide groups on retention is negligible and the overall chromatographic behavior is comparable to other Cinchona derived chiral stationary phases.
Co-reporter:Stefanie Wernisch, Oliver Trapp, Wolfgang Lindner
Analytica Chimica Acta 2013 Volume 795() pp:88-98
Publication Date(Web):17 September 2013
DOI:10.1016/j.aca.2013.08.004
•X-Pro peptides produce interconverting elution profiles on zwitterionic stationary phases.•The cis–trans isomerization rate in solution is lower than in the chromatographic system.•Cinchona-based zwitterionic selectors apparently lower the isomerization barrier.•Rotamer separation is feasible <0 °C, enantiomer separation above room temperature.The interconversion of cis and trans isomers of dipeptides containing C-terminal proline was studied by dynamic chromatography on zwitterionic chiral stationary phases at temperatures ranging from −15 °C to +45 °C The cis–trans isomers could be separated below 0 °C and above 0–10 °C plateau formation and peak coalescence phenomena occurred, which is characteristic for a dynamic process at the time-scale of partitioning. At and above room temperature, full coalescence was observed, which allowed separations of enantiomers without interference from interconversion effects. Analysis of the dynamic elution profiles of the interconverting peptides allowed the determination of isomerization rate constants and thermodynamic activation parameters (isomerization enthalpy, entropy and activation energy). In accordance with established results, isomerization rates and thermodynamic parameters were found to depend on the nature of the N-terminal amino acid. Isomerization barriers were only slightly lower than values determined with other methods but significant differences in the relative contributions of the activation enthalpy and entropy as well as isomerization rates pointed toward selector-moderated isomerization dynamics.
Co-reporter:Georg Schuster, Wolfgang Lindner
Journal of Chromatography A 2013 Volume 1301() pp:98-110
Publication Date(Web):2 August 2013
DOI:10.1016/j.chroma.2013.05.065
•23 HILIC stationary phases were compared by linear solvation energy relationships.•PH and buffer change may elevate the H-bond basicity of the HILIC systems.•Acids seem to be more affected by the hydro-organic environment than bases.•Intramolecular H-bonding in acids reduces the number of interaction sites.In analogy to our previous publication, the hydrophilic interaction liquid chromatography mechanism was examined in terms of hydrogen bonding, coulombic interactions and phase ratio using linear solvation energy relationships. At first, 23 commercially available and in-house synthesized chromatographic supports are discussed in order to obtain system constants at pH 5.0 with ammonium acetate as buffer salt. Subsequently we compared these outcomes with our former results obtained at pH 3.0 with ammonium formate as buffer additive. Goodness of fit in terms of the adjusted multiple correlation coefficient was found to be reduced under the new conditions. No universal model which simultaneously comprised acidic, basic and neutral analytes could be performed. A significant enhancement of the HILIC systems hydrogen bond basicity was found when changing the pH and buffer counter ions. Even though packing materials showed similar selectivity profiles during the collection of the experimental retention data, different forces were found to account for the overall retention (e.g. Shiseido PC HILIC and Nucleodur HILIC). This indicates that HILIC type selectivity is rather based on a sum of additive or multiplicative phenomena.
Co-reporter:Georg Schuster, Wolfgang Lindner
Journal of Chromatography A 2013 Volume 1273() pp:73-94
Publication Date(Web):18 January 2013
DOI:10.1016/j.chroma.2012.11.075
22 commercially available and home-made stationary phases with different surface modifications were compared under hydrophilic interaction liquid chromatographic (HILIC) conditions. The column set comprised neutral, basic, acidic, zwitterionic and mixed surface modifications. Retention data of 68 differently structured test solutes were acquired to generate retention models based on a linear solvation energy relationship (LSER) approach. A recently modified solvation parameter model with two additional molecular descriptors was evaluated in terms of its universal applicability when electrostatic forces are enabled in addition to predominant partition phenomena. The suggested method could not be confirmed to be a standardized way to characterize HILIC systems when different operating conditions are applied. However, the significant contribution of the recently introduced charge descriptors (D− and D+) on explaining the interactions within HILIC systems was confirmed. The solvation parameter model was found to be a useful tool in the course of column development, to affirm or dismiss the preceding educated guess on how certain immobilized ligands will behave. Acidic modified surfaces (stationary phases) exhibit a very small hydrogen bond acceptor property and are less versatile when it comes to an even distribution of solutes along the retention window. Furthermore, the results indicate that basic and neutral columns are more preferable for HILIC applications and might explain why only a limited variety of strong acidic modified HILIC columns, although found in literature, are available commercially.Highlights► 22 HILIC stationary phases were compared by linear solvation energy relationships. ► We demonstrated that LSER can be used during column development. ► Basic and neutral columns are more preferable in HILIC than acidic columns. ► Amide-type and zwitterionic phases are preferably used to diol type materials.
Co-reporter:Denise Wolrab, Pavla Macíková, Mario Boras, Michal Kohout, Wolfgang Lindner
Journal of Chromatography A 2013 Volume 1317() pp:59-66
Publication Date(Web):22 November 2013
DOI:10.1016/j.chroma.2013.08.037
•The influence of modifier content in scCO2 on the in situ formed acid was evaluated.•Effect of additives on chromatographic performance in SFC/HPLC is described.•Step-wise modification of subcritical fluid with a modifier was studied.•Comparison of in situ formed buffer salt and related buffers in SFC mode is discussed.The performance of a strong cation exchange-type (SCX) chiral stationary phase (CSP) was evaluated with subcritical fluid chromatography (subFC) and high performance liquid chromatography (HPLC). The chromatographic conditions in subFC were optimized by changing the amount of polar organic modifier, concentration of a basic additive in the modifier, system pressure and temperature. In this way the concentration of in situ formed transient ionic species could be varied. The gradual change of the concentration of the transient buffer, i.e. gradient elution conditions in subFC, was found beneficial for separation of a mixture of racemic compounds. The strength and amount of the in situ formed buffer was estimated on the basis of comparative experiments in subSFC and HPLC.
Co-reporter:Denise Wolrab;Peter Frühauf;Michal Kohout
Journal of Separation Science 2013 Volume 36( Issue 17) pp:2826-2837
Publication Date(Web):
DOI:10.1002/jssc.201300559
Enantioseparation of chiral amines with HPLC has developed into a widely used analytical and preparative tool. Chiral basic molecules, which act as cationic species upon protonation, are suited for an enantioselective cation exchange process. Novel strong cation exchangers (SCX) based on different 3,5-disubstituted benzoic acids functionalized with trans-(R,R)- and trans-(S,S)-2-aminocyclohexanesulfonic acid as the chiral selector (SO) and ion exchange unit were synthesized. Employing 1,3-dipolar cycloaddition (azide–yne click chemistry), the SOs were immobilized onto azidopropyl-modified silica gel. This immobilization strategy enables controlled loading of the SO, and especially, high SO density on the silica surface compared to the thiol–ene click immobilization. The performance of the novel SCX chiral stationary phases was evaluated under polar organic mode conditions with different ratios of methanol and acetonitrile, thereby changing the polarity of the bulk mobile phase. The type of co- and counterion additives employed in the mobile phase was varied as well. The influence of the formed 1,2,3-triazol spacer as well as different substitution patterns in the benzene unit on the chiral recognition properties of the SOs is discussed.
Co-reporter:Roland J. Reischl, Wolfgang Lindner
Journal of Chromatography A 2012 Volume 1269() pp:262-269
Publication Date(Web):21 December 2012
DOI:10.1016/j.chroma.2012.07.046
The determination of trace amounts of d-amino acids (d-AAs) even in tissue samples of higher developed animals, mammals and humans has opened a wide field of biological questions to be investigated. d-Ala, d-Asp and d-Ser have already been identified to exhibit key functions in cellular regulation processes 0005, 0010, 0015 and 0020. The abundance of trace amounts of these and also of other d-AAs in various biological fluids and in tissue samples is still being investigated. We herein present a facile derivatization method for amino acids using 6-methoxyquinoline-4-carboxylic acid-succinimide ester (MQ-OSu) to yield the corresponding stable N-acyl-amino acids (MQ-AAs). Labeling with the MQ tag supports the enantioseparation of all 19 chiral proteinogenic amino acids on anion exchanger type chiral stationary phases, introduces fluorescence activity and particularly promotes sensitive electrospray tandem mass spectrometric detection. Limit of detection values (LOD) for MQ-l-Ala in water were 1.25 μmol L−1 with fluorescence detection and 0.015 μmol L−1 with MS in selected reaction monitoring (SRM) mode. The applicability of this method for the analysis of MQ-d-AAs in biological fluids has been demonstrated.Highlights► All 19 chiral proteinogenic amino acids were separated in one chromatographic run. ► Amino acids were tagged with 6-methoxyquinoline to yield N-acyl derivatives. ► Derivatization enabled chromatographic chemoselectivity and enantioselectivity. ► The label is highly fluorescent and enhances MS detection sensitivity. ► LC selectivity, FLD sensitivity and MS-specificity were applied complementary.
Co-reporter:Reinhard Pell, Siniša Sić, Wolfgang Lindner
Journal of Chromatography A 2012 Volume 1269() pp:287-296
Publication Date(Web):21 December 2012
DOI:10.1016/j.chroma.2012.08.006
Novel zwitterionic cinchona alkaloid-based chiral selectors (SOs) were synthesized and immobilized on silica gel. The corresponding brush-type chiral stationary phases (CSPs) were characterized as zwitterionic ion-exchange-type materials and exhibited remarkable enantioselectivity for their zwitterionic target analytes, viz. underivatized amino acids and aminosulfonic acids. We rationally designed structural modifications on the strong cation exchange (SCX) subunit of the zwitterionic SO and investigated the influence on chiral recognition power for amphoteric solutes. SOs with chiral isopropyl- or cyclohexyl-moieties in vicinity to the SCX site showed broadest application range by baseline resolving 39 out of 53 test compounds, including α-, β-, and γ-amino acids with different substitution patterns. Furthermore, we introduced two pseudoenantiomeric zwitterionic CSPs which combined the unique features of providing comparable enantioselectivities but reversed enantiomer elution orders. By application of slightly acidic polar organic mobile phases as preferred elution mode, we found that certain amounts of aprotic acetonitrile in protic methanol substantially increased enantioselectivity and resolution of amino acids in a structure-dependent manner.Highlights► Zwitterion exchange-type CSPs were prepared and evaluated in HPLC. ► CSPs were operated in polar organic mode for enantioseparation of free amino acids. ► Two CSPs provided possibility for systematically switching elution orders. ► Methanol and acetonitrile mixtures provided best overall enantioseparation performance.
Co-reporter:Stefanie Wernisch, Wolfgang Lindner
Journal of Chromatography A 2012 Volume 1269() pp:297-307
Publication Date(Web):21 December 2012
DOI:10.1016/j.chroma.2012.06.094
Cinchona alkaloid-based zwitterionic chiral stationary phases with diverse sulfonic acid cation exchanger groups were applied for enantiomer separations of small homochiral oligopeptides (all-l/all-d Ala-n, Val-n, Phe-n) using slightly acidic polar-organic mobile phase conditions which facilitated the ionization of ion exchanger sites of the chiral selectors as well as promoting zwitterion formation of the chiral selectands. Our studies focused on retention factors and selectivity as the main chromatographic parameters illustrating selector–selectand interactions. The results confirmed that bulky, aromatic side chains such as the benzyl group of Phe are analyte-inherent structural features promoting enantiorecognition. Regarding the zwitterionic selectors, a flexible spacer between the anion exchanger-carbamoyl and the cation exchanger sites was found to enhance stereoselectivity toward bulky and aromatic peptides while a rigid cation exchanger moiety contributed favorably to enantiomer distinction of peptides with small, aliphatic side chains. The investigations included all 28 stereoisomers of Phe-2 through Phe-4 to demonstrate the applicability of zwitterionic chiral stationary phases for the separation of sequential stereoisomers. Selectivity was shown to be governed by the Cinchona alkaloid motif but heavily dependent on effective hydrogen bonding between the carbamoyl motif and the amide groups of the peptide backbone. Contrary to previous studies on enantioselectivity which found pseudo-enantiomeric behavior of quinine and quinidine-based CSPs, in peptide stereoisomer separations CSPs based on quinidine undeniably performed better.Highlights► We apply zwitterionic stationary phases for chiral separations of small peptides. ► Enantiomers of the all-l/all-d type and d/l sequence isomers are separated. ► Retention depends on efficient simultaneous double ion pairing. ► H bonding with the peptide backbone strongly contributes to chiral recognition. ► Combination of structural features of peptide and selector determines outcome.
Co-reporter:Reinhard Pell, Wolfgang Lindner
Journal of Chromatography A 2012 Volume 1245() pp:175-182
Publication Date(Web):6 July 2012
DOI:10.1016/j.chroma.2012.05.023
Anion-exchange-type chiral stationary phases (CSPs) derived from quinine or quinidine were applied in subcritical fluid chromatography (SFC) for the direct separation of chiral acidic compounds. Employing subcritical (sc) mobile phase modes (CO2 + methanol as co-solvent and acids and bases as additives) first the influence of type and amount of acidic and basic additives on separation performance was investigated. Secondly, water was tested as a neutral additive and the influence of temperature variation on enantioselectivity was studied. Thirdly, we could chromatographically confirm that the often verbalized “inherent acidity” of sc CO2 + methanol is manifested by the in situ formation of methylcarbonic acids in the sc mobile phase and thus functioning as acidic additive. Accordingly the dissociated methylcarbonic acid, acting as a counterion, enables an anion exchange mechanism between the cationic CSP and the corresponding acidic analyte. In the absence of a dissociable acid in the mobile phase such an ion exchange mode would not work following a stoichiometric displacement model. This finding is further corroborated by the use of ammonia in methanol as co-solvent thus generating in situ the ammonium salt of methylcarbonic acid. In summary, we report on ion-exchange mediated chromatographic separations in SFC modes by merely using (i) sc CO2 and MeOH, (ii) sc CO2 and ammonia in MeOH, and (iii) sc CO2 and MeOH plus acids and bases as additives. Comparisons to HPLC mode have been undertaken to evaluate merits and limitations. This mode exhibits high potential for preparative chromatography of chiral acids combining pronounced enantioselectivity with high column loadability and avoiding possibly troublesome mobile phase additives, as the in situ formed methylcarbonic acid disintegrates to CO2 and methanol upon pressure release.Highlights► Anion exchange-type CSPs were investigated in SFC showing comparable separation performance to HPLC. ► We confirmed chromatographically the in situ formation of methylcarbonic acid in pressurized CO2–MeOH mobile phases. ► The in situ formed methylcarbonic acid (and its dissociated species methylcarbonate) allows additive free separation of chiral acids. ► High potential for preparative chromatography because of high column loadability and avoiding additives in the mobile phase.
Co-reporter:Stefanie Wernisch;Reinhard Pell
Journal of Separation Science 2012 Volume 35( Issue 13) pp:1560-1572
Publication Date(Web):
DOI:10.1002/jssc.201200103
The intramolecular distances of anion and cation exchanger sites of zwitterionic chiral stationary phases represent potential tuning sites for enantiomer selectivity. In this contribution, we investigate the influence of alkanesulfonic acid chain length and flexibility on enantiomer separations of chiral acids, bases, and amphoteric molecules for six Cinchona alkaloid-based chiral stationary phases in comparison with structurally related anion and cation exchangers. Employing polar-organic elution conditions, we observed an intramolecular counterion effect for acidic analytes which led to reduced retention times but did not impair enantiomer selectivities. Retention of amphoteric analytes is based on simultaneous double ion pairing of their charged functional groups with the acidic and basic sites of the zwitterionic selectors. A chiral center in the vicinity of the strong cation exchanger site is vital for chiral separations of bases. Sterically demanding side chains are beneficial for separations of free amino acids. Enantioseparations of free (un-derivatized) peptides were particularly successful in stationary phases with straight-chain alkanesulfonic acid sites, pointing to a beneficial influence of more flexible moieties. In addition, we observed pseudo-enantiomeric behavior of quinine and quinidine-derived chiral stationary phases facilitating reversal of elution orders for all analytes.
Co-reporter:Reinhard Pell;Georg Schuster;Michael Lämmerhofer
Journal of Separation Science 2012 Volume 35( Issue 19) pp:2521-2528
Publication Date(Web):
DOI:10.1002/jssc.201200448
Tert-butylcarbamoyl-quinine and -quinidine weak anion-exchange chiral stationary phases (Chiralpak® QN-AX and QD-AX) have been applied for the separation of sodium β-ketosulfonates, such as sodium chalconesulfonates and derivatives thereof. The influence of type and amount of co- and counterions on retention and enantioresolution was investigated using polar organic mobile phases. Both columns exhibited remarkable enantiodiscrimination properties for the investigated test solutes, in which the quinidine-based column showed better enantioselectivity and slightly stronger retention for all analytes compared to the quinine-derived chiral stationary phase. With an optimized mobile phase (MeOH, 50 mM HOAc, 25 mM NH3), 12 of 13 chiral sulfonates could be baseline separated within 8 min using the quinidine-derivatized column. Furthermore, subcritical fluid chromatography (SubFC) mode with a CO2-based mobile phase using a buffered methanolic modifier was compared to HPLC. Generally, SubFC exhibited slightly inferior enantioselectivities and lower elution power but also provided unique baseline resolution for one compound.
Co-reporter:Roland J. Reischl;Wolfgang Bicker;Thomas Keller
Analytical and Bioanalytical Chemistry 2012 Volume 404( Issue 6-7) pp:1779-1787
Publication Date(Web):2012 October
DOI:10.1007/s00216-012-6255-5
Acetaldehyde is a strongly electrophilic compound that is endogenously produced as a first intermediate in oxidative ethanol metabolism. Its high reactivity towards biogenic nucleophiles has toxicity as a consequence. Acetaldehyde readily undergoes a non-enzymatic condensation reaction and consecutive ring formation with cysteine to form 2-methylthiazolidine-4-carboxylic acid (MTCA). For analytical purposes, N-acetylation of MTCA was required for stabilization and to enable its quantification by reversed-phase chromatography combined with electrospray ionization–tandem mass spectrometry. Qualitative screening of post mortem blood samples with negative blood alcohol concentration (BAC) mostly showed low basal levels of MTCA. In BAC-positive post mortem samples, but not in corresponding urine specimens, strongly increased levels were present. To estimate the association between ethanol consumption and the occurrence of MTCA in human blood, the time curves of BAC and MTCA concentration were determined after a single oral dose of 0.5 g ethanol per kilogram of body weight. The blood elimination kinetics of MTCA was slower than that of ethanol. The peak concentration of MTCA (12.6 mg L-1) was observed 4 h after ethanol intake (BAC 0.07‰) and MTCA was still detectable after 13 h. Although intermediary acetaldehyde scavenging by formation of MTCA is interesting from a toxicological point of view, lack of hydrolytic stability under physiological conditions may hamper the use of MTCA as a quantitative marker of acetaldehyde exposure, such as resulting from alcohol consumption.
Co-reporter:Stefan Hofer, Alexander Ronacher, Jeannie Horak, Heiner Graalfs, Wolfgang Lindner
Journal of Chromatography A 2011 Volume 1218(Issue 49) pp:8925-8936
Publication Date(Web):9 December 2011
DOI:10.1016/j.chroma.2011.06.012
The aim of this study was to investigate functional increments of ion exchange type ligands, which may improve the performance of mixed-modal ligands for antibody capture out of feed solutions with pH above 6.0 and containing sodium chloride concentrations of 150 mM and higher. For this purpose several functional groups such as sulfonyl, sulfanyl, amide, methoxy, short alkyl and aromatic moieties were tested in combination with a strong sulfonic acid and/or a weak carboxylic acid group. Therefore a series of ligands were synthesized and subsequently coupled onto epoxide activated Fractogel® EMD. In the first instance, all materials were tested by static binding capacity measurements (SBC) under test conditions, comprising a wide variety of different sodium chloride concentrations and differing pH values ranging from 4.5 to 7.5. From these preliminary experiment it was found that especially the aromatic groups improved the binding of human immunoglobulin G (h-IgG) under isotonic conditions, while other increments, e.g. thiophilic or amide groups, were not able to increase the capacity significantly. Taking the SBC results into account, the most promising materials were investigated under dynamic binding conditions (DBC) with a reduced selection of test conditions (pH 5.5, 6.5 and 7.4 at 75 and 150 mM NaCl). N-benzoyl-homocysteine (material J) and 3,5-dimethoxybenzoyl-homocysteine (material K) showed 100% DBCs of 37 mg/mL and 32 mg/mL in the presence of 75 mM NaCl and pH 6.5. Material L carrying mercaptobenzoic acid as a ligand and tested with the same solution provided a 100% DBC of 68 mg/mL. The influence of Pluronic F68 in a mock feed solution as well as in cell culture supernatant was investigated with the best performing bio-affinity type adsorbent, material L. For the real sample feed subsequent SDS-PAGE was conducted for the collected fractions.
Co-reporter:Roland J. Reischl, Lucie Hartmanova, Marina Carrozzo, Monika Huszar, Peter Frühauf, Wolfgang Lindner
Journal of Chromatography A 2011 Volume 1218(Issue 46) pp:8379-8387
Publication Date(Web):18 November 2011
DOI:10.1016/j.chroma.2011.09.046
d-Amino acid analysis in biological samples still poses a challenge to analytical chemists. In higher developed species trace amounts of d-amino acids have to be detected in vast excesses of the corresponding l-enantiomers. This method utilizes an easy-to-carry-out derivatization step on the amino group with an iron ferrocenyl propionate hydroxy succinimide ester followed by one-dimensional enantioselective anion exchange chromatography with cinchona alkaloid based chiral stationary phases (CSPs). MS detection is carried out in the highly sensitive SRM (selected reaction monitoring) mode, which allows a chemoselective differentiation of amino acid derivatives as well as their enantioselective separation in one step. Application of this method allows LOD (limits of detection) in the low μmol L−1 range and baseline enantioseparation for all proteinogenic amino acids except for Pro, Arg and His. The d-enantiomers of isomeric Leu and Ile were separated chromatographically and pose an example for the complementary selectivities of LC and MS. A successful application of this procedure to unprocessed human urine indicated the eligibility to analyse biological samples.Highlights► SFP derivatization supports the enantiorecognition and increases chromatographic selectivity. ► SFP labelling enables selective and sensitive MS detection. ► SFT derivatization yields stable products. ► 19 chiral proteinogenic amino acids are enantioselectively and chemoselectively separated.
Co-reporter:Michael Melmer, Thomas Stangler, Andreas Premstaller, Wolfgang Lindner
Journal of Chromatography A 2011 Volume 1218(Issue 1) pp:118-123
Publication Date(Web):7 January 2011
DOI:10.1016/j.chroma.2010.10.122
Hydrophilic-interaction liquid chromatography (HILIC), reversed-phase chromatography (RPC) and porous graphitic carbon (PGC) chromatography are typically applied for liquid chromatographic separations of protein N-glycans. Hence the performances of these chromatography modes for the separation of fluorescently labeled standard glycan samples (monoclonal antibody, fetuin, ribonuclease-B) covering high-mannose and a broad range of complex type glycans were investigated. In RPC the retention of sialylated glycans was enhanced by adding an ion-pairing agent to the mobile phase, resulting in improved peak shapes for sialylated glycans compared to methods recently reported in literature. For ion pairing RPC (IP-RPC) and HILIC ultra-high performance stationary phases were utilized to maximize the peak capacity and thus the resolution. But due to the shallow gradient in RPC the peak capacity was lower than on PGC. Retention times in HILIC and IP-RPC could be correlated to the monosaccharide compositions of the glycans by multiple linear regression, whereas no adequate model was obtained for PGC chromatography, indicating the significance of the three-dimensional structure of the analytes for retention in this method. Generally low correlations were observed between the chromatography methods, indicating their orthogonality. The high selectivities, as well as the commercial availability of ultra-high performance stationary phases render HILIC the chromatography method of choice for the analysis of glycans. Even though for complete characterization of complex glycan samples a combination of chromatography methods may be necessary.
Co-reporter:Romain Dabre;Nazanin Azad;Achim Schwämmle;Michael Lämmerhofer
Journal of Separation Science 2011 Volume 34( Issue 7) pp:761-772
Publication Date(Web):
DOI:10.1002/jssc.201000793
Abstract
Several methods for the separation of vitamins on HPLC columns were already validated in the last 20 years. However, most of the techniques focus on separating either fat- or water-soluble vitamins and only few methods are intended to separate lipophilic and hydrophilic vitamins simultaneously. A mixed-mode reversed-phase weak anion exchange (RP-WAX) stationary phase was developed in our laboratory in order to address such mixture of analytes with different chemical characteristics, which are difficult to separate on standard columns. The high versatility in usage of the RP-WAX chromatographic material allowed a baseline separation of ten vitamins within a single run, seven water-soluble and three fat-soluble, using three different chromatographic modes: some positively charged vitamins are eluted in ion exclusion and ion repulsion modes whereas the negatively charged molecules are eluted in the ion exchange mechanism. The non-charged molecules are eluted in a classical reversed-phase mode, regarding their polarities. The method was validated for the vitamin analysis in tablets, evaluating selectivity, robustness, linearity, accuracy, and precision. The validated method was finally employed for the analysis of the vitamin content of some commercially available supplement tablets.
Co-reporter:Michael Melmer, Thomas Stangler, Andreas Premstaller, Wolfgang Lindner
Journal of Chromatography A 2010 Volume 1217(Issue 39) pp:6092-6096
Publication Date(Web):24 September 2010
DOI:10.1016/j.chroma.2010.07.059
Porous graphitic carbon (PGC) is known as well suited adsorbent for liquid chromatography of carbohydrates. In this work we report on systematic investigations of solvent effects on the retention mechanism of fluorescence labeled malto-oligosaccharides on PGC. The adsorption mechanism was found to depend on the type of organic modifier used in the mobile phase. Positive adsorption enthalpies and entropies, which have already been reported in the literature, were solely produced using acetonitrile. Both alternative solvents (tetrahydrofuran, 2-propanol) yielded in contrast negative enthalpies. As plausible retention mechanism for oligosaccharides on PGC applying acetonitrile as mobile phase component we propose the formation of a dense and highly ordered solvation layer of the PGC surface with the linear acetonitrile molecules. Adsorption of analyte molecules requires a displacement of numerous acetonitrile molecules, which explains the positive enthalpy and entropy values measured. The interplay of enthalpic and entropic contributions to the overall adsorption phenomena results in strongly temperature dependent chromatographic selectivity values.
Co-reporter:Michael Melmer, Thomas Stangler, Andreas Premstaller, Wolfgang Lindner
Journal of Chromatography A 2010 Volume 1217(Issue 39) pp:6097-6101
Publication Date(Web):24 September 2010
DOI:10.1016/j.chroma.2010.06.069
Retention of hydrophilic compounds on porous graphitic carbon (PGC) is afforded by polar interactions with induced dipoles within this polarizable stationary phase. These interactions depend on the redox state of PGC, which can be influenced by application of an electrical field or by chemical means. We explored the impact of oxidizing and reducing agents on the retention of fluorescence labeled neutral oligosaccharides. Malto-oligosaccharides were employed as simple model system. Subsequently, the effects on the retention of glycans typical for immunoglobulin G (IgG) antibodies were investigated. Chemical oxidation of the PGC surface increased the retention of all analytes tested. Selectivities were significantly altered by the redox treatment, emphasizing the need for controlling the redox state of PGC to achieve reproducible conditions. Furthermore a column pre-conditioning protocol is presented, which allowed for reproducible chromatography of neutral IgG glycans.
Co-reporter:Christoph Czerwenka, Lukáš Műller, Wolfgang Lindner
Food Chemistry 2010 Volume 122(Issue 3) pp:901-908
Publication Date(Web):1 October 2010
DOI:10.1016/j.foodchem.2010.03.034
A liquid chromatography–mass spectrometry method for detecting a fraudulent addition of cow’s milk to water buffalo milk and mozzarella is described. The presented approach utilises the whey protein β-lactoglobulin as marker for an adulteration. It offers a rapid determination combined with unequivocal identification of the marker protein in every run. An in-depth discussion of the subsequent data analysis highlights the potential problems of obtaining quantitative information on the level of adulteration. In an examination of 18 commercial buffalo mozzarella samples three products were found to be adulterated with high levels of cow’s milk.
Co-reporter:Dr. Pavel A. Levkin;Dr. Norbert M. Maier;Dr. Volker Schurig;Dr. Wolfgang Lindner
Angewandte Chemie 2010 Volume 122( Issue 42) pp:7908-7910
Publication Date(Web):
DOI:10.1002/ange.201002215
Co-reporter:Dr. Pavel A. Levkin;Dr. Norbert M. Maier;Dr. Volker Schurig;Dr. Wolfgang Lindner
Angewandte Chemie International Edition 2010 Volume 49( Issue 42) pp:7742-7744
Publication Date(Web):
DOI:10.1002/anie.201002215
Co-reporter:Alessia Ciogli;Wolfgang Bicker
Chirality 2010 Volume 22( Issue 5) pp:463-471
Publication Date(Web):
DOI:10.1002/chir.20764
Abstract
Direct enantiomer separation of hypericin, pseudohypericin, and protohypericin was accomplished by high-performance liquid chromatography (HPLC) using immobilized polysaccharide-type chiral stationary phases (CSPs). Enantioselectivities up to 1.30 were obtained in the polar-organic elution mode whereby for hypericin and pseudohypericin Chiralpak IC [chiral selector being cellulose tris(3,5-dichlorophenylcarbamate)] and for protohypericin Chiralpak IA (chiral selector being the 3,5-dimethylphenylcarbamate of amylose) gave favorable results. Enantiomers were distinguished by on-line electronic circular dichroism detection. Optimized enantioselective chromatographic conditions were the basis for determining stereodynamic parameters of the enantiomer interconversion process of hypericin and pseudohypericin. Rate constants delivered by computational simulation of dynamic HPLC elution profiles (stochastic model, consideration of peak tailing) were used to calculate averaged enantiomerization barriers (ΔG) of 97.6–99.6 kJ/mol for both compounds (investigated temperature range 25–45°C). Complementary variable temperature off-column (i.e., in solution) racemization experiments delivered ΔG = 97.1–98.0 kJ/mol (27–45°C) for hypericin and ΔG = 98.9–101.4 kJ/mol (25–55°C) for pseudohypericin. An activation enthalpy of ΔH# = 86.0 kJ/mol and an activation entropy of ΔS# = −37.7 J/(K mol) were calculated from hypericin racemization kinetics in solution, whereas for pseudohypericin these figures amounted to 74.1 kJ/mol and −82.6 J/(K mol), respectively. Although the natural phenanthroperylene quinone pigments hypericin and pseudohypericin as well as their biological precursor protohypericin are chiral and can be separated by enantioselective HPLC low enantiomerization barriers seem to prevent the occurrence of an excess of one enantiomer under typical physiological conditions—at least as long as stereoselective intermolecular interactions with other chiral entities are absent. Chirality 2010. © 2009 Wiley-Liss, Inc.
Co-reporter:Romain Dabre, Achim Schwämmle, Michael Lämmerhofer, Wolfgang Lindner
Journal of Chromatography A 2009 Volume 1216(Issue 16) pp:3473-3479
Publication Date(Web):17 April 2009
DOI:10.1016/j.chroma.2009.01.016
Thiol-modified silica is often used as an intermediate product for further synthesis of modified stationary phases for chromatography or purification processes. Different conditions were used to synthesize such thiol-modified particles, but systematic optimizations remained scarce. In this study the reaction conditions for the synthesis of mercaptopropyl-modified silica were optimized. The general synthetic method consists in slurrying the silica gel in toluene before adding 3-mercaptopropyldimethoxymethylsilane together with a tertiary amine as catalyst (here dimethylaminopyridine). Reaction time and temperature were optimized using a full factorial design of experiment (DoE) from 3 to 25 h with temperature varying between 45 and 105 °C. The surface coverage of the silica with mercaptopropyl-groups was analyzed by two different ways (elemental analysis and chemical surface reaction with 2,2′-dipyridyl disulfide followed by HPLC-UV analysis of stoichiometrically liberated pyridyl-2-thione). We obtained a three-dimensional (3D) plot of the surface coverage as a function of reaction time and temperature. The arch-shaped hyperplane allowed us to determine an optimum with regard to time and temperature, which yields to the highest surface coverage possible. We also verified that the increase of the surface coverage does not lead to a decrease of the stability of the surface modification by subjecting the gels to treatment with high temperature and acidic conditions. The stability was monitored by different chromatographic methods. Moreover, 29Si cross-polarization-magic angle spinning (CP-MAS) NMR spectra of materials prepared by different conditions allowed to confirm that the Si species on the surface were essentially the same, while there was only a minute difference in signal intensities for the individual Si species for materials obtained by distinct temperatures.
Co-reporter:Christian V. Hoffmann, Roland Reischl, Norbert M. Maier, Michael Lämmerhofer, Wolfgang Lindner
Journal of Chromatography A 2009 Volume 1216(Issue 7) pp:1147-1156
Publication Date(Web):13 February 2009
DOI:10.1016/j.chroma.2008.12.045
The concept of recently introduced Cinchona alkaloid-type zwitterionic chiral stationary phases (CSPs) is based on fusing key cation- and anion-exchange (CX, AX) moieties in one single low-molecular mass chiral selector (SO) with the resulting CSPs allowing enantiomer separations of a wide range of chiral ionizable analytes comprising acids, bases, and zwitterionic compounds. Herein, we report principal, systematic investigations of the ion-exchange-type retention mechanisms available with the novel zwitterionic CSPs in nonaqueous polar organic mode. Typical CX and AX processes, corresponding to the parent single ion exchangers, are confirmed also for zwitterionic CSPs. Also the mechanism leading to recognition and retention of zwitterions was found to be ion exchange mediated in a zwitterion-exchange (ZX) mode. In both AX and CX modes the additional ionizable group within the SO besides the site responsible for the respective ion-exchange process could be characterized as an intramolecular counterion (IMCI) that effectively participates in the ion-exchange equilibria and thus, contributes to solute elution. In the ZX mode both oppositely charged groups of the zwitterionic SO were found not only to be the sites for simultaneous ion pairing with the analyte but also functioned as IMCIs at the same time. The main practical consequences of the IMCI feature were significant reduction of the amounts and even elimination of acidic and basic additives required in the eluent systems to afford analyte elution while still providing faster analysis than the parent single ion-exchanger-type CSPs. The set of ten structurally different zwitterionic CSPs employed in this study facilitated the establishment of correlations between chromatographic behavior of the CSPs with particular SO elements, thereby supporting the understanding of the working principles of these novel packing materials on a molecular level.
Co-reporter:Christian V. Hoffmann, Roland Reischl, Norbert M. Maier, Michael Lämmerhofer, Wolfgang Lindner
Journal of Chromatography A 2009 Volume 1216(Issue 7) pp:1157-1166
Publication Date(Web):13 February 2009
DOI:10.1016/j.chroma.2008.12.044
Novel chiral stationary phases (CSPs) based on zwitterionic Cinchona alkaloid-type low-molecular mass chiral selectors (SOs), as they have been reported recently, were investigated in HPLC towards effects on their chromatographic behavior by mobile phase composition. Mobile phase characteristics like acid-to-base ratio and type of acidic and basic additives as well as effect of type of bulk solvents in nonaqueous polar organic and aqueous reversed-phase (RP) eluent systems were varied in order to illustrate the variability and applicability of zwitterionic CSPs with regard to mobile phase aspects. Chiral SOs of the five zwitterionic CSPs investigated herein contained weak and strong cation-exchange (WCX, SCX) sites at C9- and C6′-positions of the Cinchona alkaloid scaffold which itself accommodated the weak anion-exchange (WAX) site. The study focused on zwitterion-exchange (ZX) operational mode and chiral amino acids as target analytes. Besides, also the anion-exchange (AX) mode for chiral N-blocked amino acid analytes was considered, because of the intramolecular counterion (IMCI) property available in AX mode. Overall, most general and successful conditions in ZX mode were found to be weakly acidic methanolic mobile phases. In aqueous eluents RP contributions to retention came into play but only at low organic modifier content because of the highly polar character of zwitterionic analytes. At higher acetonitrile content, HILIC-related retention phenomena were observed. When using weakly basic eluent system in AX mode remarkably fast enantiomer separations involving exclusion phenomena were possible with one enantiomer eluting before and the other after void volume.
Co-reporter:Krisztina Gyimesi-Forrás;Norbert M. Maier;József Kökösi;András Gergely
Chirality 2009 Volume 21( Issue 1) pp:199-207
Publication Date(Web):
DOI:10.1002/chir.20640
Abstract
The normal phase mode liquid chromatographic enantiomer separation capability of a quinine tert-butyl-carbamate-type chiral stationary phase (CSP) has been investigated for a set of polar [1,5-b]-quinazoline-1,5-dione derivatives. This class of chiral heterocycles is currently under development as potential α-amino-3-hydroxy-5-methyl-4-isoxazole propionic acid (AMPA) and/or N-methyl-D-aspartic acid (NMDA) receptor antagonists. The effect of the nature and concentration of polar modifier, i.e., ethanol and isopropanol, in n-hexane-based mobile phases, as well as the substituent pattern of the phenyl ring attached to the quinazolone framework on retention factor, enantioselectivity, and resolution was investigated. The Soczewiński competitive adsorption model was used to describe the relationship between the retention and the binary mobile phase compositions. According to this model, linear plots of the logarithms of retention factor versus molar fractions of the polar modifiers were obtained over a wide concentration range (XB between 0.15 and 0.35). Addition of equimolar ethanol yields higher resolution than isopropanol, RS values ranging between 1.54 and 2.75, whereas the latter allows to achieve moderately increased enatioselectivity. The resolution was further improved by using a ternary mixture of n-hexane:methanol:isopropanol/85:5:10 (v/v). The most pronounced selectivity factor α and resolution RS values were obtained for the para-hydroxy substituted compound, indicating that chiral recognition is sensitive to steric and stereoelectronic factors. In the course of optimization, the temperature-dependence on the chiral separation was also investigated. It turned out that the enantiomer separation is predominantly enthalpically driven in normal phase mode. Chirality, 2009. © 2008 Wiley-Liss, Inc.
Co-reporter:Christian V. Hoffmann, Reinhard Pell, Michael Lämmerhofer and Wolfgang Lindner
Analytical Chemistry 2008 Volume 80(Issue 22) pp:8780
Publication Date(Web):October 15, 2008
DOI:10.1021/ac801384f
In an attempt to overcome the limited applicability scope of earlier proposed Cinchona alkaloid-based chiral weak anion exchangers (WAX) and recently reported aminosulfonic acid-based chiral strong cation exchangers (SCX), which are conceptionally restricted to oppositely charged solutes, their individual chiral selector (SO) subunits have been fused in a combinatorial synthesis approach into single, now zwitterionic, chiral SO motifs. The corresponding zwitterionic ion-exchange-type chiral stationary phases (CSPs) in fact combined the applicability spectra of the parent chiral ion exchangers allowing for enantioseparations of chiral acids and amine-type solutes in liquid chromatography using polar organic mode with largely rivaling separation factors as compared to the parent WAX and SCX CSPs. Furthermore, the application spectrum could be remarkably expanded to various zwitterionic analytes such as α- and β-amino acids and peptides. A set of structurally related yet different CSPs consisting of either a quinine or quinidine alkaloid moiety as anion-exchange subunit and various chiral or achiral amino acids as cation-exchange subunits enabled us to derive structure−enantioselectivity relationships, which clearly provided strong unequivocal evidence for synergistic effects of the two oppositely charged ion-exchange subunits being involved in molecular recognition of zwitterionic analytes by zwitterionic SOs driven by double ionic coordination.
Co-reporter:JunYan Wu;Wolfgang Bicker
Journal of Separation Science 2008 Volume 31( Issue 9) pp:1492-1503
Publication Date(Web):
DOI:10.1002/jssc.200800017
Abstract
Four novel nonionic polar stationary phases were synthesised by anchoring first 2-mercaptoethanol and 1-thioglycerol, respectively, onto vinylised silica (ME and TG packings) followed by an on-phase oxidation with excess hydrogen peroxide in aqueous medium which yielded sulphoxide analogues of the embedded sulphide groups, i. e. oxidised 2-mercaptoethanol (MEO) and oxidised 1-thioglycerol (TGO) packings. Chromatographic characteristics of these stationary phases were evaluated comparatively to three commercial so-called ‘diol’ columns. U-shaped response curves of retention factors of adenosine and guanosine with hydro-organic eluents containing 5–95% v/v ACN as well as noticeable CH2-increment selectivity demonstrated multimodal separation capabilities of the developed amphiphilic materials, i. e. columns can be operated both in hydrophilic interaction chromatography (HILIC) and in RP mode. Although the selector ligands were physico-chemically related, considerably differing retention and selectivity patterns were observed in the HILIC mode. Thereby the introduction of additional hydroxyl groups in the chromatographic ligand resulted in selectivity increments that were different from those obtained by sulphur oxidation. For example, a set of five vitamins delivered five different elution orders with the overall seven columns. A close examination of HILIC separations of nucleobases and nucleosides on the developed packings revealed that (i) the amount of ACN in the eluent adopts a pivotal role in adjusting retention, (ii) the linearity of the relationship log (retention factor) versus log (volume fraction of water in the eluent) increases with phase polarity in the range of 5–40% v/v water, (iii) the slopes are higher with solutes having more polar interactive sites, (iv) the van't Hoff plots are linear (range 15–45°C) with negative retention enthalpy values ΔH (–4.5 to –14.5 kJ/mol) and (v) the –ΔH values tend to be higher with more polar phases and more polar analytes. Based on these data the HILIC retention mechanism is described to be composed of both partitioning and adsorption processes. Distinct types of polar interactive sites in the chromatographic ligands may generate mixed-mode HILIC separation conditions that may additionally be superimposed by surface silanol contributions.
Co-reporter:Roccaldo Sardella;Michael Lämmerhofer;Benedetto Natalini
Chirality 2008 Volume 20( Issue 3-4) pp:571-576
Publication Date(Web):
DOI:10.1002/chir.20529
Abstract
A tert-butylcarbamoylquinine-based chiral stationary phase (Chiralpak QN-AX) has been employed for the enantiomer separation of underivatized chiral acidic amino acids, viz. 4-carboxyphenylalanine (4-CPHE), 1-aminoindan-1,5-dicarboxylic acid (AIDA), 2-(5-carboxy-3-methyl-2-thienyl)glycine (3-MATIDA), 2-(4-carboxy-5-methyl-2-thienyl)glycine (5-MATIDA), and 2-(2′-carboxy-3′-phenylcyclopropyl)glycine (PCCG). Some of the acidic amino acids have potential activity on the central nervous system and are thus of great interest. A stereoselective HPLC method that allows the baseline resolution of all the five test solutes has been developed. For that purpose the mobile phase composition (pH, organic modifier, and type) and flow rate were optimized. The final method makes use of mild elution conditions, namely methanol – 0.8 M ammonium acetate buffer (97.5:2.5; v/v) pH 5.5 which are also compatible with mass spectrometric detection. Chirality, 2008. © 2008 Wiley-Liss, Inc.
Co-reporter:Jens Brüggemann Dipl.-Chem.;Stephan Bitter Dr.;Sonja Müller Dipl.-Chem.;Walter M. Müller;Ute Müller;Norbert M. Maier Dr. Dr.;Fritz Vögtle Dr.
Angewandte Chemie 2007 Volume 119(Issue 1‐2) pp:
Publication Date(Web):10 OCT 2006
DOI:10.1002/ange.200601938
Hübsch verknotet: Oligoamid-Fadenmoleküle können sich spontan in offene Knoten umwandeln, deren terminale funktionelle Gruppen anschließend unter Bildung geschlossener, cyclischer Knoten miteinander verknüpft werden können (siehe Schema; links: Faden, Mitte: offener Knoten, rechts: molekularer Knoten; X=N, C).
Co-reporter:Jens Brüggemann Dipl.-Chem.;Stephan Bitter Dr.;Sonja Müller Dr.;Walter M. Müller;Ute Müller;Norbert M. Maier Dr. Dr.;Fritz Vögtle Dr.
Angewandte Chemie International Edition 2007 Volume 46(Issue 1‐2) pp:
Publication Date(Web):10 OCT 2006
DOI:10.1002/anie.200601938
Tying up loose ends: Oligoamide thread molecules can spontaneously transform into open knots, whose terminal functional groups can subsequently be chemically linked to form closed, cyclic knots (see scheme; left: threads; middle: open knots; right: molecular knots; X=N, C).
Co-reporter:T. Welsch;C. Schmidtkunz;B. Müller;F. Meier
Analytical and Bioanalytical Chemistry 2007 Volume 388( Issue 8) pp:1717-1724
Publication Date(Web):2007 August
DOI:10.1007/s00216-007-1399-4
A feasibility study on the fast enantioselective two-dimensional HPLC separation of racemic amino acid derivatives is presented. The method involves the on-line coupling of a narrow-bore C18 RP column in the first dimension to a short enantioselective column based on nonporous 1.5 μm particles modified with quinidine carbamate as chiral selector in the second dimension. Conceptually, the system was designed to enable both time-controlled repeated transfer of fractions of the eluate and detector-controlled transfer of selected fractions from column 1 to column 2. To avoid volume overloading of the second chiral column, a narrow-bore reversed phase column was installed in the first dimension. Due to the fast (less than 1.5 minutes) enantiomer separation that occurs in the second dimension, the overall analysis time for the two-dimensional separation of a mixture of nine racemic 3,5-dinitrobenzoyl amino acids was optimized at 16 minutes.
Co-reporter:Kevin A. Schug, Norbert M. Maier and Wolfgang Lindner
Chemical Communications 2006 (Issue 4) pp:414-416
Publication Date(Web):06 Dec 2005
DOI:10.1039/B512719J
The relative abundances of ternary diastereomeric complexes (composed each from a cinchonane-type chiral selector, a model chiral acid, and an alkali cation) are shown to change remarkably and fortuitously with variation in concentration and type of alkali metal using electrospray ionization-mass spectrometry and competitive binding analysis.
Co-reporter:Irene Maier, Vadim M. Okun, Fritz Pittner, Wolfgang Lindner
Journal of Chromatography B 2006 Volume 841(1–2) pp:160-167
Publication Date(Web):1 September 2006
DOI:10.1016/j.jchromb.2006.06.040
Digestion studies constitute a functional tool for allergen characterisation. This strategy for investigating allergenic proteins relates to the observation of increased proteolytic resistance of some proteins recognised to exhibit allergenic potential. β-Lactoglobulin (βLG) is one of the major whey proteins, a potent milk allergen and shows a high stability against peptic hydrolysis in its native form. In order to study the impact of milk fermentation process on its digestibility, two complementary analytical methods were applied: capillary zone electrophoresis (CZE) to quantitatively study proteolytic degradation of βLG isolated from different fermented bovine milk products, and enzyme linked immunosorbent assay (ELISA) to assess differences in immunoreactivity. βLG, isolated from either raw or pasteurised cow's milk (CM), as expected, showed only minimal digestibility (less than 10% in 2 h). However, when raw milk or pasteurised milk was fermented, the rate of peptic digestion of the protein significantly increased (up to 45% in 2 h). In accordance with changes in digestibility, the immunochemical response for all fermented samples was lower than that of non-fermented references. Raw and pasteurised milk “naturally” fermented in our laboratory only resulted in a slight reduction (βLG detected is still in the range of milligrams per gram sample), whereas the industrially manufactured sour milk as well as the “Acidophilus milk” reflected a remarkably lower level of immunoreactivity (55–56 μg/g sample).
Co-reporter:Alexander Leitner, Wolfgang Lindner
Analytica Chimica Acta 2005 Volume 528(Issue 2) pp:165-173
Publication Date(Web):10 January 2005
DOI:10.1016/j.aca.2004.09.067
The presence of arginine as the naturally occurring amino acid with the highest gas-phase basicity strongly influences the fragmentation behavior of peptides undergoing collision-induced dissociation. Using a derivatization procedure recently developed in our group, based on a reversible reaction of the guanidino group with 2,3-butanedione and an arylboronic acid, we examined how this label affects the fragmentation patterns of labeled versus unlabeled peptides in MS/MS experiments. As part of this fundamental study, two groups of model peptides (angiotensins and bradykinins) as well as tryptic peptides were labeled according to our protocol and subjected to collision-induced dissociation (CID) in both a triple quadrupole and a quadrupole ion trap instrument. It was found that for angiotensins containing an AspArg sequence, C-terminal cleavage at Asp that occurs for native peptides was completely inhibited in Arg-labeled peptides. For bradykinins and peptides obtained from tryptic digests of standard proteins, some sample peptides were little affected by the tagging of arginine residues. Others, in contrast, exhibited an almost total loss of nonspecific backbone cleavage and their fragment ion spectra were dominated by loss of the arginine tag. These and other experimental results are discussed in view of the nature of the arginine tag and the concept of proton mobility.
Co-reporter:Krisztina Gyimesi-Forrás, Alexander Leitner, Kazuaki Akasaka, Wolfgang Lindner
Journal of Chromatography A 2005 Volume 1083(1–2) pp:80-88
Publication Date(Web):12 August 2005
DOI:10.1016/j.chroma.2005.06.012
Cinchona alkaloid based chiral stationary phases (CSPs) were evaluated and compared for the enantiomer separation of a set of α-amino acid derivatives as selectands (SA), using ortho-phthalaldehyde (OPA), naphthalene-2,3-dicarboxaldehyde (NDA) and anthracene-2,3-dicarboxaldehyde (ADA) as reagents in the presence of acetonitrile. Protocols have been developed for the derivatization of most common amino acids in the absence of the usual thiol components (2-mercaptoethanol, mercaptosulphonic acid, sodium sulfite) under acidic and neutral conditions providing the corresponding isoindolin-1-one (phthalimidine) derivatives. They are stable for hours at various reaction conditions compared to thiol or sulfide modified isoindoles resulted by the OPA-thiol reaction type. Among the derivatizing agents, ADA afforded the highest retention factors (k) and for the majority of the analytes also resolution (RS) and enantioselectivity (α) values (i.e. for tryptophan k1 = 23, RS = 4.93 and α = 1.43). Structure variation of the CSPs and selector (SO), respectively indicates that steric arrangement around the binding cleft plays a major role in the enantiodiscriminating events. To provide more detailed information about the derivatization reaction itself, the proposed mechanism for the formation of the OPA derivative (isoindolin-1-one) was further evaluated by deuterium labeling and LC–MS analysis.
Co-reporter:Kevin A. Schug
Journal of Separation Science 2005 Volume 28(Issue 15) pp:1932-1955
Publication Date(Web):27 SEP 2005
DOI:10.1002/jssc.200500232
As of late, mass spectrometric methods for analysis of enantiomer discriminating systems have received considerable attention. In the last ten years, specific methods focused on measuring enantioselectivities via diastereomeric host–guest associations, collisional dissociation of diastereomeric complexes, and ion-molecule reactions using chiral selectors have been developed. The ability to evaluate the performance of new chiral selector molecules by MS is particularly intriguing in this context; providing complementary technology to enantioselective gas- and liquid-phase separation strategies already in place. Still, a number of question marks remain to be answered before these methods become commonplace. This review surveys the aspects of the mass spectrometric methods listed above and describes how they can be used to evaluate enantiomer discriminating systems. A short overview comparing the different ionization sources and mass analyzers which are used is also offered. Overall, we seek to address the advantages and limitations of each method, citing specific examples of their use from the literature, for the purpose of understanding what could be done to expand the scope of their implementation. In doing so, we also highlight some of those facets that relate directly to using MS for evaluating molecular recognition, and in particular, chiral molecular recognition systems.
Co-reporter:Kevin A. Schug, Wolfgang Lindner
Journal of the American Society for Mass Spectrometry 2005 Volume 16(Issue 6) pp:825-834
Publication Date(Web):June 2005
DOI:10.1016/j.jasms.2005.02.008
Chiral resolution of arginine (Arg) and Arg derivatives is demonstrated using electrospray ionization-tandem mass spectrometry (ESI-MS). Calcium ion (CaII)-mediated trimeric clusters are generated, which incorporate the analyte of interest and an enantiomerically pure reference molecule of similar metal ion affinity. Two methods, one based on the measurement of a competitive-dissociation-based branching ratio (Rchir) by the kinetic method (KM) and one based on the measurement of a chiral recognition ratio (CR) by a similar method, are compared. Incorporating N-blocked Arg derivatives (Z-Arg and Boc-Arg) as chiral references provides chiral resolution greater than that previously reported for Arg enantiomers. In a reciprocal manner, pure Arg enantiomers can be used as references for discriminating enantiomers of these N-blocked Arg derivatives. Condensed-phase and gas-phase CaII ion affinity relative to Arg is also addressed qualitatively for other acidic, basic, and neutral amino acids. In some cases, when only one offspring ion is observed (insufficient for KM analysis), the CR method can be applied as an alternative to obtain a measurable stereoselectivity value for the system. The results of these experiments demonstrate the applicability of, and the difference between, the KM and the CR method for improved quantitative analysis of enantiomeric excess for Arg.
Co-reporter:Krisztina Gyimesi-Forrás, József Kökösi, György Szász, András Gergely, Wolfgang Lindner
Journal of Chromatography A 2004 Volume 1047(Issue 1) pp:59-67
Publication Date(Web):20 August 2004
DOI:10.1016/j.chroma.2004.06.090
Quinine carbamate-type weak chiral anion-exchange selectors (SOs) and the respective chiral stationary phases (CSPs) have been used for the direct liquid chromatographic enantiomer separation of a wide range of chiral acids. In the present work, we demonstrate that these CSPs can also be extended to chiral discrimination of a set of neutral polar potential NMDA (N-methyl-d-aspartic acid) and/or AMPA (α-amino-3-hydroxy-5-methyl-4-isoxazole propionic acid) antagonist imidazo-quinazoline-dione derivatives (selectands, SAs) using acetonitrile and methanol containing hydro-organic and buffered mobile phases. The influence of mobile phase composition, column temperature and structure variation of the SAs and SOs on retention and enantioselectivity was systematically investigated to gain insight into the overall chiral recognition mechanism. As was expected for the reversed-phase mode, acetonitrile has a stronger eluotropic effect compared to methanol. Except for two analytes, the acetonitrile containing mobile phases provided baseline resolution (RS) of the enantiomers with RS values ranging between 1.68 and 2.76. Using methanol as the organic modifier enhanced the enantioselectivity. The enthalpic and entropic terms for the SO–SA association were calculated from the linear van’t Hoff plots. Data reveal that the enantiomer separations are predominantly enthalpically driven.
Co-reporter:Michael Lämmerhofer, Olle Gyllenhaal, Wolfgang Lindner
Journal of Pharmaceutical and Biomedical Analysis 2004 Volume 35(Issue 2) pp:259-266
Publication Date(Web):16 April 2004
DOI:10.1016/S0731-7085(03)00644-7
An enantioselective anion exchanger based on tert-butylcarbamoylquinine as chiral selector and thiol-modified silica as chromatographic support was applied for the enantiomer separation of the shortacting calcium antagonist clevidipine after its hydrolysis to methyl 4-(2′,3′-dichlorophenyl)-2,6-dimethyl-1,4-dihydropyridine-3,5-dicarboxylate. This hydrolyzed derivative of clevidipine is the primary metabolite and precursor of the parent drug. Method development included the steps of optimization of the composition of the mobile phase (pH, type and content of organic modifier, polar organic mode), screening of various structural analogs of above mentioned CSP, and evaluation of the effect of the flow rate. These detailed studies gave insight into the operational mode of the CSP, which is basically an enantioselective anion exchange mechanism. The polar organic mode turned out to be advantageous with regard to enantioselectivity and resolution. The optimized method makes use of an eluent composed of 0.125% acetic acid in acetonitrile with flow rate of 1 ml/min at a constant temperature of 25 °C, and allows the separation of the both enantiomers with enantioselectivity α of 1.25 and a resolution RS of 3.0 within 10 min. On the above mentioned quinine carbamate phase the (R)-enantiomer is stronger retained, while a change to the corresponding quinidine carbamate CSP allows the reversal of the elution order.
Co-reporter:A. Woschek;F. Hammerschmidt
Advanced Synthesis & Catalysis 2003 Volume 345(Issue 12) pp:
Publication Date(Web):23 DEC 2003
DOI:10.1002/adsc.200303135
The enantioselective acylation of racemic diisopropyl α- and β-hydroxyphosphonates by hydrolases in t-butyl methyl ether with isopropenyl acetate as acyl donor is limited by the narrow substrate specificity of the enzymes. High enantiomeric excesses (up to 99%) were obtained for the acetates of (S)-diisopropyl 1-hydroxy-(2-thienyl)methyl-, 1-hydroxyethyl- and 1-hydroxyhexylphosphonate and (R)-diisopropyl 2-hydroxypropylphosphonate. The hydrolysis of a variety of β-chloroacetoxyphosphonates by the lipase from Candida cylindracea and protease subtilisin in a biphasic system gives (S)-β-hydroxyphosphonates (ee 51–92%) enantioselectively. (S)-2-Phenyl-2-hydroxyethyl- and (S)-3-methyl-2-hydroxybutylphosphonates (ee 96% and 99%, respectively) were transformed into (R)-2-aminophosphonic acids of the same ee.
Co-reporter:Wolfgang Lindner;Michael Lämmerhofer;Christoph Czerwenka
Journal of Separation Science 2003 Volume 26(Issue 17) pp:1499-1508
Publication Date(Web):14 OCT 2003
DOI:10.1002/jssc.200301577
Eleven different N-terminal protecting groups (acetyl, benzoyl, FMOC, etc.) were employed for the HPLC separation of oligoalanine peptide enantiomers containing up to six amino acids. Isocratic HPLC separations were performed using a hydro-organic buffered mobile phase and 4 mm ID columns containing three different chiral anion exchange stationary phases based on cinchona alkaloid-derived chiral selectors. For most peptides successful separations could be obtained with all protecting groups, although those comprising aromatic moieties were found to yield higher enantioselectivities than those with aliphatic residues, since they are capable of undergoing favourable π-π interactions with the selector. Systematic investigations concerning the presence or absence of structural features of related protecting groups showed that the use of protecting groups that are optimally adjusted to the binding pocket of the chiral selector effects a significant gain in enantioselectivity. At the same time these studies provided new insights into the chiral recognition mechanism.
Co-reporter:Philipp M. Klaus;Pilar Franco;Cristina Minguillón
Chirality 2001 Volume 13(Issue 4) pp:177-186
Publication Date(Web):26 MAR 2001
DOI:10.1002/chir.1017
Three “dimeric” C9-carbamates of quinine (QN) and quinidine (QD), that is, QN-QN, QD-QD, and QN-QD (chemically prepared mixture of the two cinchona-derived subunits), separated by an ethylene spacer were synthesized and used as chiral selectors for HPLC and capillary electrophoresis (CE) for the resolution of chiral acids. The chiral recognition abilities of these dimers and of several physically prepared mixtures thereof were compared in order to estimate the contribution of every cinchona scaffold to the overall enantioselectivity. The diverse phenomena observed in nonaqueous capillary electrophoresis (NACE), either using the selector added to the background electrolyte (BGE) in the total filling or partial filling mode, led us to rationalize, taking into account the relative mobilities of the chiral selectors in the capillary. The chromatographic and electrophoretic properties were compared with those of the corresponding “monomeric” QN and QD carbamates. Chirality 13:177–186, 2001. © 2001 Wiley-Liss, Inc.
Co-reporter:Michael Lämmerhofer;Giovanna Mancini;Ernst Tobler
Chirality 2001 Volume 13(Issue 10) pp:641-647
Publication Date(Web):30 OCT 2001
DOI:10.1002/chir.10015
The reversible enantiomerization of axially chiral 2′-dodecyloxy-6-nitrobiphenyl-2-carboxylic acid was studied in the presence of a brush type chiral stationary phase based on O-(tert-butylcarbamoyl) quinine as chiral selector unit by stopped-flow high-performance liquid chromatography (sfHPLC) and capillary electrochromatography (sfCEC). After initial separation of the enantiomers in the first section of the column, the flow was stopped and the resolved species allowed to enantiomerize on-column. From this conversion, which could be determined from the enantiomeric ratios at different enantiomerization times, kinetic rate constants were calculated. By sfHPLC at a constant temperature of 15°C, kinetic rate constants in the presence of the CSP were found to be 4.1 × 10−5 s−1 and 2.2 × 10−5 s−1 for the (−) and (+)-enantiomers, respectively, corresponding to half-lives of 279 and 530 min. Thus, apparent activation energies of enantiomerization were calculated to be 93.0 and 94.6 kJ mol−1 for the (−) and (+)-enantiomers. On the macroscopic level, the apparent difference of rotational energy barriers and kinetic rate constants for both enantiomers is reflected as deracemization. For example, starting from a racemic mixture, an enantiomeric excess (ee) of 14% was seen in the stopped-flow HPLC experiment described after an enantiomerization time of 220 min at 15°C, and a maximal ee of 17% can be approximated after infinite enantiomerization time. There is good agreement between HPLC and CEC results as well as their experimental errors, confirming that the new sfCEC technique may be a valuable and convenient tool to study interconversion processes. Chirality 13:641–647, 2001. © 2001 Wiley-Liss, Inc.
Co-reporter:Elfriede Zarbl, Michael Lämmerhofer, Friedrich Hammerschmidt, Frank Wuggenig, Martin Hanbauer, Norbert M. Maier, Lisa Sajovic, Wolfgang Lindner
Analytica Chimica Acta 2000 Volume 404(Issue 2) pp:169-177
Publication Date(Web):17 January 2000
DOI:10.1016/S0003-2670(99)00700-X
Four types of quinine-derived chiral anion exchangers were used for the direct liquid chromatographic separation of enantiomers of chiral but N-protected α- and β-aminophosphonic acids. The respective and easily prepared 3,5-dinitrobenzyloxycarbonyl and dinitrophenyl derivatives were well separated, yielding α-values between 1.1 and 2.8 and resolution values in the range 2.0–9.0. Besides the chromatographic investigations, data on enantiomeric excesses (ees) and the absolute configurations of some enantiomerically enriched α- and β-aminophosphonic acids prepared by stereoselective synthesis were also determined. The results obtained by this method (ee and absolute configuration) correspond well with the results previously obtained by a 31P-NMR spectroscopic method.
Co-reporter:Josef Lesnik, Michael Lämmerhofer, Wolfgang Lindner
Analytica Chimica Acta 1999 Volume 401(1–2) pp:3-10
Publication Date(Web):29 November 1999
DOI:10.1016/S0003-2670(99)00505-X
Fourier transform infrared (FT-IR) spectra of 1 : 1 complexes of O-allylcarbamoyl-10,11-dihydroquinidine with (S) and (R) enantiomers of N-3,5-dinitrobenzoyl (DNB) and N-2,4-dinitrophenyl (DNP) protected leucine (Leu) and N-methyl leucine (N-Me-Leu), respectively, as well as of the pure binding partners are reported. For the study of the various intermolecular interaction effects, IR spectra were monitored in acetonitrile and acetonitrile/water solutions using attenuated total reflectance with a cylindrical internal reflection cell. The results of the FT-IR measurements are correlated with findings of liquid chromatographic studies in which O-allylcarbamoyl-10,11-dihydroquinidine is used as a chiral selector immobilized onto silica for the direct chromatographic enantioseparation of N-derivatized amino acids.
Co-reporter:Alexandra Mandl, Lorenzo Nicoletti, Michael Lämmerhofer, Wolfgang Lindner
Journal of Chromatography A 1999 Volume 858(Issue 1) pp:1-11
Publication Date(Web):8 October 1999
DOI:10.1016/S0021-9673(99)00803-1
First, a chiral stationary phase was prepared by immobilization of the naturally occurring alkaloid quinine onto a 3-mercaptopropyl-modified silica gel via a radical addition reaction and it was evaluated for direct HPLC enantioseparation of acidic chiral compounds under buffered hydro-organic mobile phase conditions. Second, its enantioselectivity and retention characteristics for a representative set of N-derivatized α-amino acids and other chiral acids were compared with those of a similar weak chiral anion exchanger based on tert.-butyl carbamoylated quinine derivative as chiral selector. The results clearly indicate that the introduction of the carbamoyl functionality at the secondary hydroxyl group at C9 of quinine provides new and additional sites for intermolecular interactions with chiral analytes and this can profoundly change and improve chiral recognition ability, especially for amide, carbamate and sulfonamide derivatives of amino acids including DNB, Bz, Ac, For, Z, Fmoc, Boc and DNS-protected amino acids. The impact of this new and rigid hydrogen donor–acceptor group – directing stereoselective selector–selectand complexation by intermolecular hydrogen bonding – in comparison to the plain quinine selector is further evaluated by alkylation of the nitrogen atom of either the selector carbamate and/or of the amino function of leucine (N-methyl leucine) derivatized either by DNB or DNP groups.
