Analysis of the characteristic PSP profiles ofPyrodinium bahamense and several strains ofAlexandrium by HPLC based on ion-pair chromatographic separation, post-column oxidation, and fluorescence detection

Summary A sensitive HPLC method for determination of paralytic shellfish poisoning (PSP) based on ion-pair chromatographic separation of PSP toxins, post-column oxidation with periodic acid, and fluorescence detection has been used to determine toxin profiles ofPyrodinium bahamense and several strains ofAlexandrium. The HPLC chromatograms revealed clear differences betweenPyrodinium bahamense andAlexandrium strains. Presented at the 21^st ISC held in Stuttgart, Germany, 15^th–20^th September, 1996.     

Lipophilicity determination of some 3,5-dinitro-benzoic-acid esters on unimepregnated cellulose layer

Unimpregnated cellulose layers proved to be suitable for the determination of the lipophilic character of 14 3,5-dinitro benzoic acid esters under reversed-phase, thin-layer chromatographic conditions. Lipophilic characters measured on unimpregnated cellulose layers correlated well with similar values determined on impregnated silica and on impregnated alumina. Minor differences in retention of the three types of layers were observed.     

Structural study of spirolide marine toxins by mass spectrometry

A novel group of toxins, the spirolides, has been investigated by several mass spectrometric (MS) methods to enable structure elucidation and metabolite identification. These macrocyclic compounds, produced by the dinoflagellate Alexandrium ostenfeldii, are a new class of marine phycotoxin with characteristic spiro-linked tricyclic ether and imine moieties. A crude phytoplankton extract has been shown to contain known spirolides and several unknown compounds, present at low yet significant levels. This study has focused on mass spectrometric characterization of the main component of this extract, 13-desmethyl spirolide C. Collision-induced dissociation (CID) spectra were collected on triple-quadrupole and quadrupole linear ion-trap instruments. High-resolution Fourier-transform ion cyclotron resonance MS data revealed the accurate masses of the protonated molecule and the product ions formed by infrared multiphoton dissociation. A fragmentation scheme for this toxin has been proposed to explain the formation of the collision-induced fragments. Charge-remote fragmentations dominate the CID spectra, because there is only one predominantly basic site in this molecule, and prove to be structurally informative. Extensive MS characterization of 13-desmethyl spirolide C will undoubtedly be useful in the characterization of known and unknown spirolides and other related compounds.     

Biosynthetic studies of the DSP toxin skeleton

Marine toxins have drawn wide interest because their economical impact and disastrous effect upon the shellfish industry and public health in many parts of the world. One of the most interesting group of substances of marine toxins, from structural and pharmacological points of view are polyether compounds, which generally present a great diversity in size and potent biological activities. The subject of this work was about to biosynthesis of okadaic acid skeleton as leader as DSP toxins. Its biosynthesis attracts considerable attention since the carbon skeleton has been shown to be synthesised via an unusual route. In this paper we report on stable isotope incorporation experiments on DSP toxin in artificial cultures of dinoflagellate. The comparison of the degrees of incorporation in these samples measured by different methods led to contradictory results. This implies that further experimental data is needed in order to propose a logical biogenetic scheme.     

Thin-layer chromatographic and high-performance thin-layer chromatographic ready-for-use layers with lipophilic modifications

Stable silica gel sorbents with aliphatic or aromatic groups are formed by chemical modifications of the silanol groups with special reactive silanes. Various lipophilic surface modifications on silica gels with varying pore structures are tested with regard to their chemical and physico-chemical characteristics, their wettability and their chromatographic retention data. The main problem in TLC is the preparation of abrasion-resistant layers on glass or on foils which meet the usual high standard of quality and are also suited for quantitative determinations. Thin-layer chromatography on reversed-phase layers can only be performed if the complete wettability of the lipophilic stationary phase in dry form is guaranteed by the mobile phase. Adsorption-chromatographic separations with lipophilic eluents and reversed-phase partition-chromatographic separations with hydrophilic eluents are performed, for example, with dyes, with polycyclic aromatic hydrocarbons and with lipids. The great differences in selectivity caused by the various modifications of the sorbent and the varying eluent composition are remarkable. Ready-for-use layers with lipophilic surface modifications complement the existing range of pre-coated layers and thus widen the application of TLC and HPTLC considerably.     

New potentiometric sensors for creatinine

Three main types of creatinine potentiometric membrane sensors are described. They are based on the use of dibenzo-30-crown-10 (DB30C10) with potassium tetrakis(p-chlorophenyl)borate type (I), dibenzo-30-crown-10 alone type (II), and potassium tetrakis(p-chlorophenyl)borate alone type (III), incorporating in poly(vinyl chloride) matrix membrane plasticized with either o-nitrophenyl octyl ether or dioctylphthalate. The sensors are used for quantification of creatinine after soaking the membranes in 0.1 M creatinine solution for 2 days. The sensors show almost the same potentiometric response characteristics. Sensor type (I) exhibits Nernstian responses over a concentration range of 5.0 × 10⁻⁵ mol l⁻¹-1.0 × 10⁻² mol l⁻¹ creatinine with cationic slopes of 59.5 ± 0.1 and 60 ± 0.2 mV decade⁻¹ and detection limits of 1.1 × 10⁻⁵ mol l⁻¹ and 8 × 10⁻⁶ mol l⁻¹ creatinine, over the pH range of 3.5-6.5 and 3.5-7.0, for o-NPOE and DOP solvent mediators, respectively. Sensor type (II) displays Nernstian responses over a concentration range of 6.0 × 10⁻⁵ mol l⁻¹-1.0 × 10⁻² mol l⁻¹ creatinine with cationic slopes of 60.0 ± 0.1 and 65.0 ± 0.2 mV decade⁻¹ and detection limits of 1.5 × 10⁻⁵ mol l⁻¹ and 1.4 × 10⁻⁵ mol l⁻¹ creatinine over the pH range of 2.6-6.2 and 2.5-6.0, for o-NPOE and DOP solvent mediators, respectively. Sensor type (III) shows Nernstian responses over a concentration range of 7.0 × 10⁻⁵ mol l⁻¹-1.0 × 10⁻² mol l⁻¹ creatinine with cationic slopes of 60 ± 0.1 and 62.0 ± 0.2 mV decade⁻¹ and detection limits of 2.7 × 10⁻⁵ mol l⁻¹ and 2.0 × 10⁻⁵ mol l⁻¹ creatinine over the pH range of 2.5-6.0, for o-NPOE and DOP solvent mediators, respectively. The response times of the sensors for 10⁻³ mol l⁻¹ creatinine solution are instantaneous (4-10 s). The sensors show long-term stability with life span of ∼6 months. The sensors are used for determination of serum creatinine of rats (Rattus Norvigicus) with mean R.S.D. of 2.62%, and the results agreed well with the Jaffe kinetic method.     

Characterisation of botulinum toxins type A and B,by matrix-assisted laser desorption ionisation and electrospray mass spectrometry

A method earlier developed for the mass spectrometric (MS) identification of tetanus toxin (TTx) was applied to botulinum toxins type A and B (BTxA and BTxB). Botulinum toxins are extremely neurotoxic bacterial toxins, likely to be used as biological warfare agent. Biologically active BTxA and BTxB are comprised of a protein complex of the respective neurotoxins with specific haemagglutinins (HAs) and non-toxic non-haemagglutinins (NTNHs). These protein complexes are also observed in mass spectrometric identification. The particular BTxA complex, from Clostridium botulinum strain 62A, almost completely matched database data derived from genetic sequences known for this strain. Although no such database information was available for BTxB, from C. botulinum strain okra, all protein sequences from the complex except that of HA-70 were found to match proteins known from other type B strains. It was found that matrix-assisted laser desorption ionisation MS provides provisional identification from trypsin digest peptide maps and that liquid chromatography electrospray (tandem) mass spectrometry affords unequivocal identification from amino acid sequence information of digest peptides obtained in trypsin or pepsin digestion.     

European intercomparison study for the determination of fumonisins in maize

Fumonisins are mycotoxins occurring largely in maize and maize products, which cause animal diseases, such as equine leukoencephalomalacia and porcine pulmonary edema, and may also induce liver cancer on experimental rats. The European Commission Standards, Measurements and Testing (SMT, formerly BCR) Programme, has sponsored a project to improve analytical methodologies for the determination of the two major fumonisins (fumonisin B1 and fumonisin B2) in maize materials. The project involved the following steps: i) the preparation of a blank and a maize material contaminated with fumonisins Bl and B2; ii) a preliminary study of the -irradiation conditions for sterilization; iii) homogeneity and stability studies of the maize materials; iv) an intercomparison study for fumonisins analysis in the above materials with the involvement of 24 European laboratories, most of which have national or international responsibilities for foodstuff and/or feedstuff quality control. Results of the intercomparison study are presented together with the homogeneity and stability data relevant to the maize materials.     

Improvement of detection sensitivity of T-2 and HT-2 toxins using different fluorescent labeling reagents by high-performance liquid chromatography

T-2 and HT-2 toxins are Fusarium mycotoxins that can occur in cereals and cereal-based products. Three fluorescent labeling reagents, i.e. 1-naphthoyl chloride (1-NC), 2-naphthoyl chloride (2-NC) and pyrene-1-carbonyl cyanide (PCC), were used for the determination of T-2 and HT-2 toxins by high-performance liquid chromatography (HPLC) with fluorescence detection (FD). Pre-column derivatization of T-2 and HT-2 toxins was carried out under mild conditions (50 °C, 10 min) in toluene with 4-dimethylaminopyridine (DMAP) as catalyst. All fluorescent derivatives were identified and characterized by HPLC-tandem mass spectrometry (HPLC-MS/MS). Optimal stoichiometric ratios (toxin:derivatizing reagent:catalyst), linear range and repeatability of the reaction, stability and sensitivity of the derivatives were determined. A wide linear range (10–1000 ng of either derivatized T-2 or HT-2 toxin), good stability (up to 2 weeks at −20 °C or 5 days at room temperature) of the fluorescent derivatives and good repeatability of the reaction (RSD ≤ 8%) were observed. Detection limits (based on a signal-to-noise ratio of 3:1) were 10.0, 6.3 and 2.0 ng for derivatized T-2 toxin and 6.3, 2.3 and 2.8 ng for derivatized HT-2 toxin with 1-NC, 2-NC and PCC, respectively. In terms of sensitivity and repeatability, PCC and 2-NC reagents showed better performance than 1-anthroylnitrile (1-AN), a previously reported labeling reagent for T-2- and HT-2 toxins. Preliminary studies also showed the applicability of PCC and 2-NC as fluorescent labeling reagents for the simultaneous determination of T-2 and HT-2 toxins in cereal grains by HPLC/FD following immunoaffinity column clean-up.