Fast liquid chromatographic determination of urinary trans,trans-muconic acid

trans,trans-Muconic acid (1,3-butadiene-1,4-dicarboxylic acid, MA), a minor urinary metabolite of benzene exposure, was determined, after clean-up by solid-phase anion-exchange chromatography, by reversed-phase HPLC on a C₁₈ column (5 × 0.46 cm I.D., 3 μm particle size), using formic acid-tetrahydrofuran-water (14:17:969) as mobile phase and UV detection at 263 nm. The recovery of MA from spiked urine was > 95% in the 50–500 μg/l range; the quantification limit was 6 μg/l; day-to-day precision, at 300 μg/l, C.V. = 9.2%; the run time was less than 10 min. Urinary MA excretion was measured in two spot urine samples of 131 benzene environmentally exposed subjects: midday values obtained in non-smokers (mean±S.D.=77±54 μg/l, N = 82) were statistically different from those of smoerks (169±85 μg/l, N = 30) (P<0.0001); each group showed a statistically significant increase between MA excretion in midday over morning samples. Moreover, in subjects grouped according to tobacco-smoke exposure level, median values of MA were positively associated with and increased with daily smoking habits.     

Simultaneous determination of dimethylamphetamine and its metabolites in rat hair by gas chromatography–mass spectrometry

In order to study the disposition of dimethylamphetamine (DMAP) and its metabolites, DMAP N-oxide, methamphetamine (MA) and amphetamine (AP), from plasma to hair in rats, a simultaneous determination method for these compounds in biological samples using gas chromatography–mass spectrometry with selected ion monitoring (GC–MS-SIM) was developed. As DMAP N-oxide partially degrades to DMAP and MA during GC–MS analysis, it was necessary to avoid conditions which co-extract the N-oxide in the sample preparation so as to assure no contribution of artifactual products from DMAP N-oxide in the detection of the other compounds. For confirmation of the satisfactory separation of DMAP N-oxide from the others, the internal standards used for quantification were labeled with different numbers of deuterium atoms. Determination of unchanged DMAP was performed without any derivatization, that of DMAP N-oxide was carried out after conversion into trifluoroacetyl-MA by reaction with trifluoroacetic anhydride, and MA and AP were quantified after trifluoroacetyl-derivatization.After intraperitoneal administration of DMAP HCl to pigmented hairy rats (5 mg kg⁻¹ day⁻¹, 10 days, n=3), concentrations of DMAP and its metabolites in urine, plasma and hair were measured by GC–MS-SIM. The area under the concentration versus time curves (AUCs) of DMAP, DMAP N-oxide, MA and AP in the plasma were 397.2±97.5, 279.7±68.3, 18.4±1.2 and 15.9±2.2 μg min ml⁻¹, while their concentrations in the hair newly grown for 4 weeks after administration were 4.82±0.67. 0.45±0.09, 3.25±0.36 and 0.89±0.05 ng mg⁻¹, respectively. This fact suggested that the incorporation tendency of DMAP N-oxide from plasma into hair was distinctly low in comparison with the other compounds.     

Analysis and evaluation of trans,trans-muconic acid as a biomarker for benzene exposure

Benzene is an important industrial chemical and, due to its occurrence in mineral oil and its formation in many combustion processes, a widespread environmental pollutant. Since benzene is hematoxic and has been classified as a human carcinogen, monitoring and control of benzene exposure is of importance. Although trans,trans-muconic acid (ttMA) was identified as a urinary metabolite of benzene at the beginning of this century, only recently has its application as a biomarker for occupational and environmental benzene exposure been investigated. The range of metabolic conversion of benzene to ttMA is about 2–25% and dependent on the benzene exposure level, simultaneous exposure to toluene, and probably also to genetic factors. For the quantitation of ttMA in urine, HPLC methods using UV and diode array detection as well as GC methods combined with MS or FID detection have been described. Sample pretreatment for both HPLC and GC analysis comprises centrifugation and enrichment by solid-phase extraction on anion-exchange sorbents. Described derivatization procedures prior to GC analysis include reaction with N,O-bis(trimethysilyl)acetamide, N,O-bis(trimethylsilyl)trifluoroacetamide, pentafluorobenzyl bromide and borontrifluoride–methanol. Reported limits of detection for HPLC methods range from 0.1 to 0.003 mg l⁻¹, whereas those reported for GC methods are 0.03–0.01 mg l⁻¹. Due to its higher specificity, GC methods appear to be more suitable for determination of low urinary ttMA levels caused by environmental exposure to benzene. In studies with occupational exposure to benzene (>0.1 ppm), good correlations between urinary ttMA excretion and benzene levels in breathing air are observed. From the reported regressions for these variables, mean excretion rates of ttMA of 1.9 mg g⁻¹ creatinine or 2.5 mg l⁻¹ at an exposure dose of 1 ppm over 8 h can be calculated. The smoking-related increase in urinary ttMA excretion reported in twelve studies ranged from 0.022 to 0.2 mg g⁻¹ creatinine. Only a few studies have investigated the effect of exposure to environmental levels of benzene (<0.01 ppm) on urinary ttMA excretion. A trend for slightly increased ttMA levels in subjects living in areas with high automobile traffic density was observed, whereas exposure to environmental tobacco smoke did not significantly increase the urinary ttMA excretion. It is concluded that urinary ttMA is a suitable biomarker for benzene exposure at occupational levels as low as 0.1 ppm. Biomonitoring of exposure to environmental benzene levels (<0.01 ppm) using urinary ttMA appears to be possible only if the ingestion of dietary sorbic acid, another precursor to urinary ttMA, is taken into account.     

A Structure–Function Study of a Catalytic Antiidiotypic Antibody to the Human Erythrocyte Acetyl Cholinesterase

The catalytic monoclonal antibody 9A8 (MA 9A8), antiidiotypic to the antibody AE-2 (MA AE2) produced to the active site of acetyl cholinesterase from human erythrocytes, was subjected to a structure–function study. The specific binding of MA 9A8 to MA AE2 (K 2.26 × 10⁹ M^–1) was found by the method of surface plasmon resonance, and the functional activity of MA 9A8 was demonstrated. Unlike acetyl cholinesterase, this antibody specifically reacted with the irreversible phosphonate inhibitors of esterases. A peptide map of MA 9A8 was analyzed by MALDI mass spectrometry. The Ser99 residue of its heavy chain was shown to be within the active site of the catalytic antibody. A computer modeling of the MA 9A8 active site suggested the existence of a catalytic dyad formed by Ser99 and His35. A comparison of the tertiary structures of the MA 9A8 and the 17E8 monoclonal antibody, which also exhibited the esterase activity and was produced to the stable analogue of the reaction transition state, indicated a practically complete coincidence of the structures of their presumed active sites.     

Activation of Peroxidase-Catalyzed Oxidation of Aromatic Amines with 2-Aminothiazole and Melamine

The peroxidase-catalyzed oxidation of 3,3",5,5"-tetramethylbenzidine (TMB), ortho-phenylenediamine (PDA), and 5-aminosalicylic acid (5-ASA) is significantly accelerated in the presence of 2-aminothiazole (AT) and melamine (MA), and an increase in their concentrations is associated with a parallel increase in the k _cat and K _m values for TMB and PDA. The activation of the peroxidase-catalyzed oxidation of TMB and PDA is quantitatively characterized by a coefficient (degree) (M^–1) which significantly depends on pH in the range 6.2-6.4, 6.4-7.4, and 6.0-7.4 for the TMB–AT, TMB–MA, and PDA–MA pairs, respectively. An increase in the coefficient with increase in pH confirms nucleophilicity of activation of the peroxidase-catalyzed oxidation of the aromatic amines in the presence of AT and MA. Under optimal conditions the coefficients for the TMB–AT, PDA–AT, TMB–MA, and PDA–MA pairs vary in the limits of (1.90-3.53)·10³ M^–1.     

Determinants of anti-benzo[a]pyrene diol epoxide–DNA adduct formation in lymphomonocytes of the general population

We evaluated determinants of anti-benzo[a]pyrenediolepoxide-(B[a]PDE)–DNA adduct formation (adduct induced by the ultimate carcinogenic metabolite of B[a]P) in lymphomonocytes of subjects environmentally exposed to low doses of polycyclic aromatic hydrocarbons (PAHs) (B[a]P). Our study population consisted of 585 Caucasian subjects, all municipal workers living in North-East Italy and recruited during their periodic check-ups after informed consent. PAH (B[a]P) exposure was assessed by questionnaire. Anti-B[a]PDE–DNA levels were measured by HPLC fluorescence analysis.We found that cigarette smoking (smokers (22%) versus non-smokers, p < 0.0001), dietary intake of PAH-rich meals (≥52 (38%) versus <52 times/year, p < 0.0001), and outdoor exposure (≥4 (19%) versus <4 h/day; p = 0.0115) significantly influenced adduct levels. Indoor exposure significantly increased the frequency of positive subjects (≥0.5 adducts/10⁸ nucleotides; χ² for linear trend, p = 0.051). In linear multiple regression analysis the major determinants of increased DNA adduct levels (ln values) were smoking (t = 6.362, p < 0.0001) and diet (t = 4.035, p < 0.0001). In this statistical analysis, indoor and outdoor exposure like other factors of PAH exposure had no influence. In non-smokers, the influence of diet (p < 0.0001) and high indoor exposure (p = 0.016) on anti-B[a]PDE–DNA adduct formation became more evident, but not that of outdoor exposure, as was confirmed by linear multiple regression analysis (diet, t = 3.997, p < 0.0001 and high indoor exposure, t = 2.522, p = 0.012).This study indicates that anti-B[a]PDE–DNA adducts can be detected in the general population and are modulated by PAH (B[a]P) exposure not only with smoking – information already known from studies with limited number of subjects – but also with dietary habits and high indoor exposure. In non-smokers, these two factors are the principal determinants of DNA adduct formation. The information provided here seems to be important, since DNA adduct formation in surrogate tissue is an index of genotoxic exposure also in target organs (e.g., lung) and their increase may also be predictive of higher risk for PAH-related cancers.     

Decomposition of N-nitrosamines, and concomitant release of nitric oxide by Fenton reagent under physiological conditions

N-Nitrosodimethylamine (NDMA) in phosphate buffer was rapidly decomposed by Fenton reagent composed of H₂O₂, and Fe(II) ion. Electron spin resonance (ESR) studies using 5,5-dimethyl-1-pyrroline N-oxide (DMPO) showed that characteristic four line 1:2:2:1 ESR signals due to the DMPO-OH adduct formed on treatment of DMPO with Fenton reagent disappeared in the presence of NDMA, and N-nitrosodiethylamine (NDEA), suggesting the interaction of the N-nitrosamines with Fenton reagent. Treatment of the N-nitrosamines with Fenton reagent generated nitric oxide (NO) as estimated by ESR technique using cysteine–Fe(II), and N-methyl- -glucaminedithiocarbamate (MGD)–Fe(II) complexes. Characteristic 3, and single line signals due to 2 cysteine–Fe(II)–NO, and 2 cysteine–Fe(II)–2 NO complexes, respectively, and three line signals due to MGD–Fe(II)–NO were observed. Considerable amount of NO were liberated as determined by NO₂⁻, the final oxidation product of NO formed by reaction with dissolved oxygen in the aqueous medium. Spontaneous release of a small amount of NO from the N-nitrosamines was observed only on incubation in neutral buffers. Above results indicate that the N-nitrosamines were decomposed accompanying concomitant release of NO on contact with reactive oxygen species.     

Noncompetitive Activation of the Peroxidase-Catalyzed Oxidation of o-Phenylenediamine by Melamine

Peroxidase-catalyzed oxidation of o-phenylenediamine (PDA) is greatly activated with melamine (MA) in 15 mM phosphate–citrate buffer at pH 6.0–7.4 in a noncompetitive manner: k _cat and K _m increase in direct proportion to the MA concentration. An extent of the activation is quantitatively characterized with a coefficient (in M^–1), which essentially increases along with the rise in pH from 6.0 to 7.4. MA acts as a nucleophilic catalyst in the oxidation process: it most likely affects the peroxidase active site from the distal position of heme. MA noncompetitively inhibits the peroxidase oxidation of PDA at pH 4.3, since it completely loses its nucleophilic properties in acidic medium. A rapid, highly accurate, and simple analytical test system based on the kinetics of melamine-activated oxidation of PDA is proposed for the quantitative determination of melamine within the concentration range of 10^–4–10^–3 M. This test system uses the spectrophotometric determination of the PDA oxidation product at 455 nm.     

Propylene oxide: mutagenesis, carcinogenesis and molecular dose

The results from mutagenic and carcinogenic studies of propylene oxide (PO) and the current efforts to develop molecular dosimetry methods for PO–DNA adducts are reviewed. PO has been shown to be active in several bacterial and mammalian mutagenicity tests and induces site of contact tumors in rodents after long-term administration. Quantitation of N7-(2-hydroxypropyl)guanine (7-HPG) in nasal and hepatic tissues of male F344 rats exposed to 500 ppm PO (6 h/day; 5 days/week for 4 weeks) by inhalation was performed to evaluate the potential of high concentrations of PO to produce adducts in the DNA of rodent tissues and to obtain information necessary for the design of molecular dosimetry studies. The persistence of 7-HPG in nasal and hepatic tissues was studied in rats killed three days after cessation of a 4-week exposure period. DNA samples from exposed and untreated animals were analyzed for 7-HPG by two different methods. The first method consisted of separation of the adduct from DNA by neutral thermal hydrolysis, followed by electrophoretic derivatization of the adduct and gas chromatography-high resolution mass spectrometry (GC–HRMS) analysis. The second method utilized ³²P-postlabeling to quantitate the amount of this adduct in rat tissues. Adducts present in tissues from rats killed immediately after cessation of exposure were 835.4±80.1 (respiratory), 396.8±53.1 (olfactory) and 34.6±3.0 (liver) pmol adduct/μmol guanine using GC–HRMS. Lower values, 592.7±53.3, 296.5±32.6 and 23.2±0.6 pmol adduct/μmol guanine were found in respiratory, olfactory and hepatic tissues of rats killed after three days of recovery. Analysis of the tissues by ³²P-postlabeling yielded the following values: 445.7±8.0 (respiratory), 301.6±49.2 (olfactory) and 20.6±1.8 (liver) pmol adduct/μmol guanine in DNA of rats killed immediately after exposure cessation and 327.1±21.7 (respiratory), 185.3±29.2 (olfactory) and 15.7±0.9 (liver) pmol adduct/μmol guanine after recovery. Current methods of quantitation did not provide evidence for the endogenous formation of this adduct in control animals. These studies demonstrated that the target tissue for carcinogenesis has much greater alkylation of DNA than liver, a tissue that did not exhibit a carcinogenic response.     

Energy expenditure in relation to activity of lesser mouse deer (Tragulus javanicus)

Heat production (HP) of male and female mouse deer during eating, standing and sitting was determined using the open circuit respiration chamber (RC). The time taken for similar activities was also determined in an outdoor enclosure (OD). The animals were fed kangkong (Ipomoea aquatica), sweet potato (Ipomoea batatas) and rabbit pellet ad libitum. Male mouse deer consumed more dry matter (DM), organic matter (OM) and gross energy (GE) than female. The time for each activity of male and female mouse deer kept in RC and OD was similar. The average time spent in RC and OD for both male and female, respectively, for sitting (956 and 896 min/day) was significantly (P<0.01) longer than standing (463 and 520 min/day) and eating (21 and 24 min/day). Heat production for male and female mouse deer, respectively, during eating was the highest (0.44 and 0.43 kJ/kg W^0.75/min) followed by standing (0.37 and 0.33 kJ/kgW^0.75/min) and sitting (0.26 and 0.26 kJ/kg W^0.75/min). The difference in HP per min during standing between male and female was significant (P<0.05). The HP for 08.00–14.00 h and 14.00–20.00 h periods were higher than 20.00–02.00 h and 02.00–08.00 h periods. The overall HP for males during 08.00–14.00 h and 14.00–20.00 h periods were significantly (P<0.05) higher (114.8 and 119.2 kJ/kg W^0.75) than female (107.5 and 110.4 kJ/kg W^0.75), respectively.     

High-performance liquid chromatographic determination of N-[2- (hydroxyethyl)-N-(2-(7-guaninyl)ethyl)]methylamine, a reaction product between nitrogen mustard and DNA and its application to biological samples

Nitrogen mustard (HN2) is a bifunctional alkylating agent which is thought to cause cytotoxicity by covalently binding to DNA. Most studies to date have looked at qualitatively determining the presence of DNA–HN2 adducts from reactions with native DNA. The adduct which is predominately formed in these reactions is N-[2-(hydroxyethyl)-N-(2-(7-guaninyl)ethyl]methylamine (N7G). A simple and sensitive reversed-phase high-performance liquid chromatographic (HPLC) method for the determination of N7G from DNA using ultraviolet detection is described. DNA samples having been exposed to HN2 treatment were hydrolyzed and preseparated from high-molecular-mass material by filtration using a molecular mass cut-off of 3000. The mobile phase consisted of methanol–26 mM ammonium formate, pH 6.5 (24:76, v/v). N7G, as well as the internal standard, methoxyphenol, were separated within 30 min. The recovery of N7G after hydrolysis of the DNA reaction product was quantitative and limits of detection and quantification of 10 and 20 ng/ml, respectively, were calculated. The method was validated in DNA–HN2 dose response experiments. The N7G reaction product appears to be the first reaction product formed at lower ratios of HN2/DNA but its production plateaus at higher ratios of HN2/DNA probably due to increased formation of hitherto unknown adducts. The method is simple and sensitive and for this reason, may be suited for the determination of DNA/HN2 reaction products.     

High-performance liquid chromatographic assay of a new HIV-1 protease inhibitor, LB71350, in the plasma of dogs

A reliable reversed-phase high-performance liquid chromatographic method has been developed for the determination of LB71350 in the plasma of dogs. The analyte was deproteinized with 1.5 volumes of methanol and 0.5 volumes of 10% zinc sulfate, and the supernatant was injected into a 5-μm Capcell Pak C₁₈ column (150×4.6 mm I.D.). The mobile phase was a stepwise gradient mixture of acetonitrile and 0.2% triethylamine–HCl with a flow-rate of 1 ml/min and detection at UV 245 nm. The proportion of acetonitrile was kept at 52% for the first 6 min, increased to 100% for the next 0.5 min, kept at 100% for the next 2 min, decreased to 52% for the next 0.5 min, and finally kept at 52% for the next 7 min. The retention time of LB71350 was 6.9 min. The calibration was linear over the concentration range of 0.1–100 mg/l for dog plasma (r>0.997) and the limit of quantitation was 0.1 mg/l using 0.1 ml plasma. The quality control samples were reproducible with acceptable accuracy and precision at 0.1, 1, 10 and 100 mg/l concentrations. The within-day recovery (n=5) was 90.2–93.9%, the between-day recovery (n=5) was 89.5–93.5%, and the absolute between-day recovery (n=5) was 77–81%. The within-day precision (n=5) and between-day precision (n=5) were 2.59–5.82% and 3.17–4.55%, respectively. No interferences from endogenous substances were observed. Taken together, the above HPLC assay method by deproteinization and UV detection was suitable for the determination of LB71350 in the preclinical pharmacokinetics.     

Highly sensitive determination of N-terminal prolyl dipeptides, proline and hydroxyproline in urine by high-performance liquid chromatography using a new fluorescent labelling reagent, 4-(5,6-dimethoxy-2-phthalimidinyl)-2-methoxyphenylsulfonyl chloride

A highly sensitive pre-column HPLC method for simultaneous determination of prolyl dipeptides, Pro and Hyp in urine was developed. The analytes were labelled with 4-(5,6-dimethoxy-2-phthalimidinyl)-2-methoxyphenylsulfonyl chloride at 70°C for 20 min. The derivatives separated on tandem reversed-phase columns by a gradient elution and were monitored with fluorescence detection at 318 nm (excitation) and 392 nm (emission). The detection limits for prolyl dipeptides, Pro and Hyp were 1–5 fmol/injection (S/N=3). Urine samples were treated with o-phthalaldehyde, followed by purification on a Bond Elut C₁₈ column before conducting the labelling reaction. Pro–Hyp, Pro–Gly and Pro–Pro were identified as prolyl dipeptides in urine. The within-day and between-day relative standard deviations were 1.5–4.8 and 1.7–5.8%, respectively. The concentrations of Pro–Hyp, Pro–Gly, Pro–Pro, Pro and Hyp in normal human urine were 97.6±28.2, 2.74±1.48, 2.08±1.13, 6.71±3.34 and 2.30±1.59 nmol/mg creatinine, respectively.     

Formation of Free Radicals and Protein Mixed Disulfides in Rat Red Cells Exposed to Dapsone Hydroxylamine

The hemolytic activity of dapsone is well known to reside in its N-hydroxylamine metabolites. Addition of dapsone hydroxylamine (DDS–NOH) to red cell suspensions causes damage such that when reintroduced into the circulation of isologous rats, the injured cells are rapidly removed by the spleen. Hemolytic activity is associated with the extensive formation of disulfide-linked hemoglobin adducts on red cell membrane skeletal proteins. To determine if free radicals could be involved in this process, rat red cells were incubated with DDS–NOH in the presence of the spin trap, 5,5′-dimethyl-1-pyrroline-N-oxide (DMPO) and subjected to EPR analysis. Addition of DDS–NOH (25–50 μM) to a red cell suspension gave rise to a four-line (1:2:2:1) EPR spectrum with coupling constants identical to those of a DMPO-hydroxyl radical adduct (DMPO–OH) standard. No other radicals were detected; however, preincubation of red cells with cysteamine caused the DDS–NOH-generated DMPO–OH signal to be replaced by a cysteamine thiyl radical adduct signal. DDS–NOH-treated red cells were also found to contain ferrylhemoglobin, indicating the presence of hydrogen peroxide. Furthermore, DDS–NOH was found to stimulate salicylate hydroxylation in red cell suspensions, confirming the presence of oxygen radicals. These data support the hypothesis that oxygen radicals are involved in the mechanism underlying dapsone-induced hemolytic anemia. © 1997 Elsevier Science Inc.     

Heat shock phenomena in Chironomus tentans

Incubation of 4th instar larvae of Chironomus tentans at elevated temperatures leads in salivary and Malpighian chromosomes to the appearance of 4–5 new puffs. Previously present puffs, particularly Balbiani rings in salivary chromosomes, become drastically reduced. The reactions of region IV-5C and Balbiani ring 1 and 2 in salivary glands are quantitatively analyzed. Statistically significant heat shock effects are observed already after 5 min and reach a maximum between 30 and 60 min. The effective temperature range is small (between 33 to 40 ° C) with an optimum at 37 ° C. Above 40 ° C, i.e., at overheat shock temperatures, heat shock reactions are suppressed. Larvae heat or overheat shocked for 1–7 h or 15–30 min, respectively, survive when returned to normal culturing temperatures. The recovery from heat shock of the puffing pattern occurs in two phases: a fast one (10–20 min) and a slow one (up to 5 h) sometimes separated by a period of backlash. Quenching of overheat shocked larvae does not result in a delayed heat shock reaction.     

Optical resolution of RS-(±)-mandelic acid by Pseudomonas sp.

For the optical resolution of R-(–)-mandelic acid from (±)-mandelic acid, Pseudomonas sp. MA02, which assimilated S-(+)-mandelic acid as carbon and energy source, was isolated from soil. Using the fed-batch culture under optimal condition, R-(–)-mandelic acid was accumulated up to the maximum theoretical yield of 50% (30 g l^–1) and entiomeric excess of 99.4%.     

Effects of temperature and holding time on production of renewable fuels from pyrolysis of Chlorella protothecoides

To investigate the influence of temperature andholding time on the pyrolyzate yields of Chlorella protothecoides, the microalgal cells weresubjected to pyrolysis at 200, 300, 400, 500 and 600 ^°Cfor 5, 20, 60 and 120 min, separately. High oil yields above 40% dry weight cells wereobtained both at relatively low temperature (300 ^°C)with relatively long holding times (20–120min) and relatively high temperatures (400–500 ^°C)with relatively short holding times (5–20min). The maximum oil yield of 52.0% was achieved at500 ^°C for 5 min. The gas yield was generallyincreased with the increasing temperature and holdingtime. It could reach 63.3–76.0% at 600 ^°C.High pyrolytic rates of 72–87% were obtained at allexperiments except at 200 ^°C for 5–20 min or300 ^°C for 5 min. Thermogravimetric analysisindicated that the main thermal degradation of thismicroalga occurred at 200–520 ^°C. The resultsimply that C. protothecoides is a good candidatefor the production of renewable fuels by pyrolysis.     

Preparation of vinyl thymidine ester catalyzed by protease and its chemical polymerization

Transesterification reaction of 0.25 M thymidine with 1 M divinyladipate in dimethylformamide (DMF) was catalyzed by an alkaline protease (5 mg ml^–1) from Streptomyces sp. (20 units mg^–1 min) at 30 °C for 7 days to give 5-O-vinyladipoyl thymidine (yield 77%) without formation of any by-products. Poly(vinyl alcohol) containing thymidine branches could be obtained by its free-radical polymerization.     

Ammonium (methylammonium) uptake by Alcaligenes eutrophus H16

The uptake of the radioactive ammoniumanalogue ¹⁴C-methylammonium¹ was measured in heterotrophically grown cells of Alcaligenes eutrophus H16 in order to study the mechanism of NH ₄ ⁺ uptake. MA gradients of up to 200 were built up by a substrate-specific and energy-dependent system which showed a K _m of 35–111 M and a V _max of 0.4–1.8 nmol MA/min per mg protein. The involved carrier exhibited a higher affinity towards NH ₄ ⁺ than towards CH₃NH ₃ ⁺ indicating that ammonium rather than MA was its natural substrate. Cold shock with hypotonic but not with hypertonic solutions caused the efflux of almost the entire accumulated MA. Osmotic shock did not affect the uptake reaction, suggesting that no periplasmic binding proteins were involved. Indirect observations indicate the membrane potential as driving force for MA uptake. High rates of uptake were observed in cells grown under nitrogen deficiency or with nitrate as nitrogen source. The uptake rate decreased during growth at high ammonium concentrations indicating that biosynthesis of nitrogenous compounds was supported by passive diffusion of NH₃. The data suggest that the formation of the carrier is subject to nitrogen control.Non-standard abbreviations CCCP Carbonylcyanide-m-chlorphe-nylhydazone - MA methylammonium - pCMB para-chlormercuribenzoate     

High-performance liquid chromatographic assay of bromocriptine in plasma and eye tissue of the rabbit

A reliable reversed-phase high-performance liquid chromatographic method has been developed for the determination of bromocriptine (BCT) in plasma and eye tissues. The BCT and propranolol, added as an internal standard (I.S.), were extracted by a liquid–liquid technique followed by an aqueous back-extraction, allowing injection of an aqueous solvent into a 4-μm Nova-Pak C₁₈ column (150×3.9 mm I.D.). The mobile phase was a mixture of 30 parts of acetonitrile and 70 parts of 0.2% triethylamine (pH 3) at a flow-rate of 1 ml/min. Fluorescence detection was at an excitation wavelength of 330 nm and an emission wavelength of 405 nm. The retention times of I.S. and BCT were 4.1 and 11.6 min, respectively. The calibration curve was linear over the concentration range 0.2–10 μg/l for plasma (r>0.999) and vitreous humour (r>0.997) and 1–50 μg/l for aqueous humour (r>0.985). The limit of quantification was 0.2 μg/l for plasma and vitreous humour using a 1-ml sample and was 1 μg/l for aqueous humour using a 0.2-ml sample. The quality control samples were reproducible with acceptable accuracy and precision. The within-day recovery (n=3) was 100–102% for plasma, 91–106% for aqueous humour and 96–111% for vitreous humour. The between-day recovery (n=9) was 90–114% for plasma, 83–115% for aqueous humour and 90–105% for vitreous humour. The within-day precision (n=3) and the between-day precision (n=9) were 1.7–7.0% and 8.1–13.6%, respectively. No interferences from endogenous substances were observed. Taken together, the above simple, sensitive and reproducible high-performance liquid chromatography assay method was suitable for the determination of BCT in plasma and eye tissues following ocular application of BCT for the therapy of myopia.