A procedure for removal of cyanuric acid in swimming pools using a cell-free thermostable cyanuric acid hydrolase

Cyanuric acid (CYA) is used commercially for maintaining active chlorine to inactivate microbial and viral pathogens in swimming pools and hot tubs. Repeated CYA addition can cause a lack of available chlorine and adequate disinfection. Acceptable CYA levels can potentially be restored via cyanuric acid hydrolases (CAH), enzymes that hydrolyze CYA to biuret under mild conditions. Here we describe a previously unknown CAH enzyme from Pseudolabrys sp. Root1462 (CAH-PR), mined from public databases by bioinformatic analysis of potential CAH genes, which we show to be suitable in a cell-free form for industrial applications based upon favorable enzymatic and physical properties, combined with high-yield expression in aerobic cell culture. The kinetic parameters and modeled structure were similar to known CAH enzymes, but the new enzyme displayed a surprising thermal and storage stability. The new CAH enzyme was applied, following addition of inexpensive sodium sulfite, to hydrolyze CYA to biuret. At the desired endpoint, hypochlorite addition inactivated remaining enzyme and oxidized biuret to primarily dinitrogen and carbon dioxide gases. The mechanism of biuret oxidation with hypochlorite under conditions relevant to recreational pools is described.     

Preparation of a mesoporous silica quorum quenching medium for wastewater treatment using a membrane bioreactor

Abstract

Various quorum quenching (QQ) media have been developed to mitigate membrane biofouling in a membrane bioreactor (MBR). However, most are expensive, unstable and easily trapped in hollow fibre membranes. Here, a sol-gel method was used to develop a mesoporous silica medium entrapping a QQ bacterial strain (Rhodococcus sp. BH4). The new silica QQ medium was able to remove quorum sensing signalling molecules via both adsorption (owing to their mesoporous hydrophobic structure) and decomposition with an enzyme (lactonase), preventing MBR biofouling without affecting the water quality. It also demonstrated a relatively long life span due to its non-biodegradability and its relatively small particle size (<1.0?mm), which makes it less likely to clog in a hollow fibre membrane module.     

Preparation of low-molecular-weight chitosan using phosphoric acid

Two types of low degree of polymerisation (DP) chitosan were prepared by homogeneous hydrolysis of chitosan in 85% phosphoric acid at room temperature for 1–6 weeks. The hydrolysates were collected by addition of excess ethanol, and were fractionated by solubility in water. The changes in yields of water-insoluble (higher DP) and water-soluble (lower DP) fractions were determined as a function of hydrolysis time. The hydrolysis proceeded with further deacetylation of chitosan, resulting in degree of deacetylation of more than 90%. The water-insoluble fraction prepared after the hydrolysis for 4 weeks (43% yield) had a weight-average DP ( ) of 16·8, and showed the ‘tendon’ type X-ray diffraction pattern. The water-soluble fraction (12·5% yield) had a of 7·3, and showed the ‘annealed’ type pattern.     

Preparation of UDP-galacturonic acid using UDP-sugar pyrophosphorylase

UDP-galacturonic acid, the activated form of galacturonic acid (GalUA), is synthesized both de novo and by salvage pathways. The UDP-GalUA pyrophosphorylase gene involved in the salvage pathway has not been identified. Here we show that UDP-sugar pyrophosphorylase from Pisum sativum with a broad specificity has UDP-GalUA pyrophosphorylase activity. The enzyme catalyzed the formation of UDP-GalUA and pyrophosphate from GalUA 1-phosphate and UTP with an equilibrium constant value of 0.24. The recombinant UDP-sugar pyrophosphorylase had optimal pH of 6.0, and the apparent K(m) values for GalUA 1-phosphate, UTP, UDP-GalUA, and pyrophosphate were 2.27, 1.15, 0.70, and 1.26 mM, respectively. In the presence of inorganic pyrophosphatase, the recombinant enzyme produced UDP-GalUA in an 84% yield (based on the GalUA 1-phosphate substrate) on a preparative scale. Thus, this UDP-sugar pyrophosphorylase is useful for the highly efficient production of UDP-GalUA for studies on pectin biosynthesis.     

Simultaneous determination of D-aspartic acid and D-glutamic acid in rat tissues and physiological fluids using a multi-loop two-dimensional HPLC procedure

For a metabolomics study focusing on the analysis of aspartic and glutamic acid enantiomers, a fully automated two-dimensional HPLC system employing a microbore-ODS column and a narrowbore-enantioselective column was developed. By using this system, a detailed distribution of D-Asp and D-Glu besides L-Asp and L-Glu in mammals was elucidated. For the total analysis concept, the amino acids were first pre-column derivatized with 4-fluoro-7-nitro-2,1,3-benzoxadiazole (NBD-F) to be sensitively and fluorometrically detected. For the non-stereoselective separation of the analytes in the first dimension a monolithic ODS column (750 mm × 0.53 mm i.d.) was adopted, and a self-packed narrowbore-Pirkle type enantioselective column (Sumichiral OA-2500S, 250 mm × 1.5 mm i.d.) was selected for the second dimension. In the rat plasma, RSD values for intra-day and inter-day precision were less than 6.8%, and the accuracy ranged between 96.1% and 105.8%. The values of LOQ of D-Asp and D-Glu were 5 fmol/injection (0.625 nmol/g tissue). The present method was successfully applied to the simultaneous determination of free aspartic acid and glutamic acid enantiomers in 7 brain areas, 11 peripheral tissues, plasma and urine of Wistar rats. Biologically significant D-Asp values were found in various tissue samples whereas for D-Glu the values were very low possibly indicating less significance.     

Production of rosmarinic acid in high density perfusion cultures ofAnchusa officinalis using a high sugar medium

Summary The most direct approach to enhancing the volumetric yield of secondary metabolites in plant tissue cultures is to operate the culture under high cell density. In this study, a cell suspension ofAnchusa officinalis was cultivated using a semi-continuous perfusion technique, i.e. batch cultivation with intermittent medium exchange. Using a perfusion medium containing sucrose concentration which was two times that in the normal growth medium, the final cell density and the final product concentration were increased by more than 2-fold compared with a batch culture without medium exchange. The high cell density obtained from the semi-continuous perfusion culture can be explained by the prevention of nutrient depletion, removal of toxic by-products, as well as the control of cell size by virtue of the high sugar medium osmolarity.     

Effect of four acid soils on root growth of white clover seedlings using a soil-on-agar procedure

White clover (Trifolium repens L.) is widely distributed in the Appalachian region, except on highly acid soils. We used a procedure where a thin layer of soil is placed on top of solidified water agar to characterize effects of acid soil on seedling root growth. Our objectives were to evaluate the soil-on-agar technique by using four soils (non-limed and limed) with diverse chemical characteristics and to relate root emergence to the chemical properties of the soils. We used three white clover cultivars, Grasslands Huia, Grasslands Tahora and Sacramento. Daily counts of root emergence from soil into agar were made for 12 d. Liming hastened white clover root emergence in three of the four soils. Days to 40% emergence were closely related (P < 0.01) to soil pH and to species of soil solution Al that are associated with Al toxicity in dicotyledonous plants. The r2 values for the regression of days to 40% root emergence on were 0.95, 0.96, 0.94 and 0.96, respectively. Apparently, the primary factor responsible for delayed root emergence in the soil-on-agar procedure was Al toxicity. Because of the close relationship between root emergence and activity of toxic species of soil solution Al, we propose that the soil-on-agar technique should be useful for characterizing the response of many small-seeded species to Al.     

Preparation of biodegradable polylactide microparticles via a biocompatible procedure

PLA MPs are prepared via a novel and toxic-chemical-free fabrication route using ethyl lactate, a green solvent and FDA-approved aroma. MPs are obtained by a solution jet break-up and solvent displacement method. Adjusting flow parameters allows the tuning of MPs size between 60 and 180 μm, with reduced polydispersity. Morphological analysis shows microporous particles with Janus-like surface. A fluorophore is successfully loaded into the MPs during their formation step. This versatile green solvent-based procedure is proven to be suitable for drug encapsulation and delivery applications. The method may be extended to different droplet generation techniques.     

l-Glutamic acid,a neuromodulator of dopaminergic transmission in the rat corpus striatum

A superfusion system was used to study the effects of neuroexcitatory amino acids upon spontaneous and depolarization-evoked release of exogenously taken up and newly synthesized [³H]dopamine by rat striatal slices. Neither l-glutamate nor other aminoacids such as l-aspartate and d-glutamate (5 × 10^?5 M) modified the spontaneous release of exogenous [³H]dopamine from rat striatal slices. In contrast, these neuroexcitatory aminoacids did potentiate spontaneous release of striatal [³H]dopamine newly synthesized from [³H]tyrosine. A different pattern of effects emerged when depolarization-evoked release of dopamine was studied. Only l-glutamate (5 × 10^?6-1 × 10^?4 M) potentiated dopamine release under these experimental conditions in a rather specific and stereoselective manner. In addition, similar results were obtained regardless of whether depolarization-induced release of exogenous or newly synthesized [³H]dopamine was studied. The effect of l-glutamate on depolarization-induced release depended both upon the degree of neuronal depolarization and upon the presence of external Ca²⁺ in the superfusion medium and it was blocked by l-glutamate diethylester. Furthermore, this effect of l-glutamate seemed quite specific with regard to regional localization within the brain as it was only demonstrated in slices from striatum and not in slices from olfactory tubercle or hippocampus. It is suggested that during depolarization a Ca²⁺-dependent event occurs at the striatal membrane level which changes the sensitivity of the dopamine release process to neuroexcitatory aminoacids in such a way as to render it relatively more specific and stereoselective towards l-glutamate stimulation. The findings reported have led us to propose that l-glutamic acid could play a role as a neuromodulator of dopaminergic transmission in the rat corpus striatum.     

Isolation and identification of lactic acid bacteria from sediments of a coastal marsh using a differential selective medium

Aims:  To identify lactic acid bacteria (LAB) colonies isolated from sediments of a coastal marsh by the reduction of 2,3,5‐triphenyltetrazolium chloride (TTC) in MRS medium. Methods and Results:  Single colonies isolated from sediments of a coastal marsh by enrichment in MRS broth were selected from MRS‐TTC plates and classified according to colony phenotype based on TTC reduction. A total of 37 colonies grouped in seven different phenotypes were identified by analysis of its 16S ribosomal gene sequence. Most isolates belonged to the Firmicutes phylum, mainly to orders Bacillales and Lactobacillales. LAB were represented by 20 isolates, 15 of which belong to the genus Weissella. Conclusions:  Enrichment in MRS was highly selective for the isolation of bacteria belonging to phylum Firmicutes. Several different phenotypes were developed by LAB and must be considered during LAB isolation based on TTC reduction. Significance and Impact of the Study:  To our knowledge, this is the first study aimed at determining a relationship between colony phenotype from TTC reduction and a partial identification of isolates based on 16S ribosomal gene sequence similarities. Besides, this is the first report of isolation of W. cibaria from environmental samples.     

A procedure to estimate okadaic acid in whole dinoflagellate cells using immunological techniques

A single procedure to detect and estimate okadaic acid in isolated whole cells was developed based on immunofluorescence and microscope photometry. This procedure allows the study of variations in okadaic acid concentration per cell although it is no substitute for HPLC procedures. Cells from mid-log exponential and stationary phase from two different clonal cultures of the okadaic-acid-producing dinoflagellate Prorocentrum lima (PI 5V and PI 7V) were analyzed. The results showed that: (1) cells from saturated phase cultures contain more okadaic acid than those from exponentially-growing mid-log phase; (2) genetic differences exist in okadaic acid production between the clones used; (3) okadaic acid is synthesized continuously during the whole cell cycle.     

Preparation of przewalskinic acid A from salvianolic acid B using a crude enzyme from an Aspergillus oryzae strain

Przewalskinic acid A is a rare, water-soluble, and highly biologically active ingredient found, thus far, only in the Salvia przewalskii Maxim herb; however, the content in S. przewalskii herb is very low. In order to obtain useful quantities of przewalskinic acid A, the biotransformatin of salvianolic acid B from Salvia miltiorrhiza root (danshen in Chinese) into przewalskinic acid A was studied using a crude enzyme produced from Aspergillus oryzae D30s strain. The crude enzyme from the A. oryzae strain hydrolyzed salvianolic acid B into przewalskinic acid A and danshensu. The preparation afforded 31.3 g przewalskinic acid A (91.0 % purity) and 13.1 g danshensu (95 % purity) from 75 g salvianolic acid B. The preparation of przewalskinic acid A was therefore very successful with a yield of over 86 %, but the yield of danshensu was only 33 %. The product przewalskinic acid A was identified using ultra-performance liquid chromatography–mass spectrometry (UPLC–MS) and NMR.