Stereoselective sulfate conjugation of isoproterenol in humans: Comparison of hepatic,intestinal, and platelet activity

The stereochemistry of sulfate conjugation of isoproterenol (ISO) was examined with human liver, intestine, and platelets as the phenolsulfotransferase (PST) enzyme source and PAP³⁵S as the cosubstrate. With the hepatic cytosol, two distinct sulfation reactions were identified, a high affinity reaction (K_m 5 to 50 μM) and a low affinity reaction (K_m 360 to 2,900 μM). The efficiency of sulfation (V_max/K_m) for both reactions was 5-fold higher for (+)- than for (?)-ISO. When the hepatic PSTs were resolved by ionexchange chromatography, it could be shown that the high affinity reaction was catalyzed by the monoamine (M) form and the low affinity reaction by the phenol (P) form of PST. Only the high affinity (M form) sulfation was detected in the jejunal cytosol with a V_max/K_m value 6.1-fold higher for (+)- than for (?)-ISO. Finally the platelet, as a potentially useful model tissue, also demonstrated only the high affinity M form reaction with a V_max/K_m value 5.7-fold higher for (+)- than for (?)-ISO. In summary, this study has shown that sulfation of ISO by PSTs in various human tissues is stereoselective and favors the inactive (+)-enantiomer over the active (?)-enantiomer by about 5-fold, a finding which should be considered in the therapeutic use of chiral drugs cleared by sulfate conjugation. © 1993 Wiley-Liss, Inc.     

Kinetics and Mechanism of the Peptide Synthesis in Solution

The kinetics of the reaction of Boc-Xaa fluorophenyl esters (where Xaa = Ala, Val, Phe, Ser, Leu, Gly, Met, Pro, or Ile) with leucinamide was studied in order to measure changes in fluorescence emission at 375 nm of the fluorophenyl chromophore accompanying the reaction. It was found that the experimental kinetic data could not be described by a simple scheme of the second order reaction. Measurements of the kinetic parameters of the reaction at various initial concentrations of reagents indicated that the reaction rate can be expressed as: = kC _N ^a C _AE ^b , where k is the reaction rate constant, C _N is the concentration of leucinamide, and C _AE is the concentration of fluorophenyl ester. The a and b reaction orders were close to 1/2 and 3/2 for Xaa = Ala, Val, Phe, Ser, or Leu, 1/2 and 1 for Gly, Met, or Pro, and 1 and 2 for Ile. The experimental equations for the reaction rate can theoretically be derived from a single scheme of chain reactions with various deactivation ways for active intermediates.     

Steady-state kinetics of the photosystem I reaction in chloroplasts of Dunaliella which contain variable concentrations of plastocyanin

The endogenous plastocyanin (PC) concentrations of Dunaliella cultures were varied from 0.3 to 3.1 molecules per pigment 700 (P700) by decreasing the Cu⁺ supply of the nutrient. With these cultures the amount of PC which is sufficient for maximum photosynthesis in intact cells was determined to be about 1 to 1.5 PC/P700. Chloroplasts were also prepared from these cells and were employed in enzyme kinetic measurements of the PSI reaction from ascorbate reduced diaminodurene (DAD) to methylviologen/O₂. The k _m value for DAD in this reaction was 106 M. A decrease of the endogenous PC concentration caused no change of the k _m value but affected the V _max in the DAD-dependent reaction. A similar interference of the PC concentration on the maximum reaction rate could also be observed when the light intensity was varied.     

Purification and Characterization of Glutamine Synthetase from the Basidiomycete Pleurotus ostreatus

The purification and some properties of glutamine synthetase (GS) from the mycelium of the basidiomycete Pleurotus ostreatus are described. The enzyme was purified to apparent homogeneity with ion exchange chromatography and a Dyematrex Green A column as the major purification steps. The GS has a molecular weight of 470 kDa and is composed of eight subunits with a molecular weight of 58 kDa. A tetrameric form of the enzyme may also be active. The apparent K _m values for the biosynthetic reaction varied in different mycelial extracts from 2.5 to 3.5 mM and from 0.02 to 0.06 for glutamate and ammonium respectively. In the transferase reaction, K _m values of 48 mM and 6.2 mM were found for L-glutamine and hydroxylamine, respectively. From the divalent cations tested, Mn²⁺ showed the strongest stimulatory effect both on the transferase and the biosynthetic reaction. ADP was the only nucleotide having an activating effect on the transferase reaction. The biosynthetic reaction was strongly inhibited by AMP and the transferase reaction by carbamoylphosphate. L-Alanine and glycine inhibited both reactions. Received: 21 February 1996/Accepted: 12 March 1996     

Influence of the Degree of Aeration on Halotolerance of Yeasts of the Genera Candida,Rhodotorula, and Malassezia

The biochemical mechanisms were studied that determine different reactions of yeasts of different genera to two simultaneously imposed stressors, hypoxia and osmotic shock. For Candida lipolytica, these two stressors were antagonistic, which resulted in stimulation (and not suppression) of the growth of this yeast by NaCl (in a wide range of concentrations) under microaerobic conditions. The reaction of Malasseziasp. was different: the degree of halotolerance of this microorganism was lower under microaerobic conditions. An intervening reaction pattern was characteristic of Rhodotorula aurantiaca.These differences were found to be determined, above all, by the induction of a salt-resistant respiratory system (oxidase) in C. lipolytica, which could not be induced in Malassezia sp. In addition, the synthesis of catalase was enhanced in C. lipolytica, which provided for neutralization of the active forms of oxygen accumulating as a result of inhibition of other protective enzymes by salt.     

Kinetics of electron transfer between soluble cytochrome c-554 and purified reaction center complex from the green sulfur bacterium Chlorobium tepidum

Soluble cytochrome c-554 (M _r 10 kDa) is purified from the green sulfur bacterium Chlorobium tepidum. Its midpoint redox potential is determined to be +148 mV from redox titration at pH 7.0. The kinetics of cytochrome c-554 oxidation by a purified reaction center complex from the same organism were studied by flash absorption spectroscopy at room temperature, and the results indicate that the reaction partner of cytochrome c-554 is cytochrome c-551 bound to the reaction center rather than the primary donor P840. The second-order rate constant for the electron donation from cytochrome c-554 to cytochrome c-551 was estimated to be 1.7×10⁷ M^–1 s^–1. The reaction rate was not significantly influenced by the ionic strength of the reaction medium.This revised version was published online in October 2005 with corrections to the Cover Date.     

Engineering analysis of continuous production of L-aspartic acid by immobilized Escherichia coli cells in fixed beds

The reaction mechanism and decay behavior of aspartase activity for immobilized Escherichia coli cells were investigated by using a sectional packed column. Reaction within the immobilized cell column proceeded at zero-order on substrate solutions ranging in concentration from 0.1 to 1.0M, and the initial reaction rate was found to be 1.556 × 10^?2 mol/min/liter of immobilized cells. The effect of temperature on the reaction rate constant was investigated. The Arrhenius plot was straight line at temperatures below 43°C, and the activation energy for immobilized cells was calculated to be 12.36 kcal/mol. Asparatase activity in the immobilized cell column decayed exponentially and uniformly in all sections of a column. Its half-life was approximately 120 days. The rate of formation of L-aspartic acid was shown to be independent of column dimensions.     

Enantiomer selection in the reaction of N-methyl-α-amino acid N-carboxyanhydride and 3-methyl-5-substituted hydantoin: A model reaction for the stereoselective polymerization of α-amino acid N-carboxyanhydride

The addition reaction to N-methyl-(S)-alanine or N-methyl-(S)-phenylalanine N-car-boxyanhydride (NCA) of 3-methyl-5-substituted hydantoin (HDT) catalyzed by a tertiary amine was investigated as a model reaction for the propagation reaction of NCA according to the activated-NCA mechanism. Several activated HDTs having the (S)-configuration of the asymmetric carbon atom were found to react more rapidly than their activated enantiomers. This experimental result indicates that the enantiomer selection by terminal-unit control takes place in the propagation reaction according to the activated-NCA mechanism in which an activated NCA is added to a terminal acylated NCA ring of the growing chain. The enantiomer excess of the HDT recovered from the reaction mixture of N-methyl-(S)-phenylalanine NCA and racemic HDTs activated by a tertiary amine was determined. The extent of the enantiomer selection in the polymerization was found to be 3–10 times as large as that in the model reaction. From these results, it was concluded that the chirality of the penultimate unit, as well as that of the terminal NCA ring, plays an important role in determining the enantiomer selection in the NCA polymerization.     

Alcohols as enantioselective inhibitors in a lipase catalysed esterification of a chiral acyl donor

Summary Increased reaction rates and increased enantioselectivities were observed with decreased concentrations of n-alkanols when resolving 2-methyldecanoic acid by esterification catalysed by immobilised lipase from Candida rugosa at controlled water activities in cyclohexane. The enantioselectivity was found to be independent of the water activity in the reaction medium at the n-heptanol concentrations investigated. However, when n-decanol was used as the acyl acceptor, not only the alcohol concentration but also the water activity in the reaction medium, influenced the enantioselectivity. The results obtained showed that the low enantioselectivity seen at a high alcohol concentration could be explained by the alcohol influencing the apparent V _max ^S and V _max ^R differently.     

Purification and Properties of Gitrus natsudaidai Pectinesterase

The level of glutamine synthetase in Micrococcus glutamicus ATCC 13032 varied in response to the nitrogen source in culture medium; it was 10?20 fold higher in glutamate-, peptone- or yeast extract-grown cells than in ammonia- or urea-grown cells. Ammonia (3 mM) reduced the enzyme level to 50% when added to glutamate medium. No difference between nitrogen sources was observed in extent of inhibition by Mg²⁺ of γ-glutamylhydroxamate-forming (transferring) reaction in crude extracts.

The optimum pH was 7.0 ? 8.0 for glutamine-forming (synthesizing) reaction and 7.0 for transferring reaction. The enzyme was stable to heating at 50°C for 10 min in 0.05 M potassium phosphate buffer (pH 6.0) containing 0.1 mM MnCl₂. Km values for glutamate, ammonia and ATP in synthesizing reaction were 7.9, 5.0 and 1.2 mM, respectively. GTP and hydroxylamine could be substituted for ATP and ammonia with about 10 and 30% reactivity. Mg²⁺ was effective as a cofactor in synthesizing reaction and Mn²⁺ showed 34% of the reactivity of Mg²⁺ at a concentration of 30 mM. Glutamine synthetase was inhibited by adenosine, AMP and ADP but not by amino acids other than D-threonine. The regulation system of glutamine synthetase in M. glutamicus is discussed.     

Detection of Fomitiporia torreyae and Fulviformes umbrinellus by multiplex loop‐mediated isothermal amplification (mLAMP) for diagnosis of Japanese pear dwarf

Japanese pear dwarf, caused by the fungi Fomitiporia torreyae or Fulviformes umbrinellus, is one of the most important diseases affecting Japanese pear (Pyrus pyrifolia var. culta). To diagnose this disease, a multiplex loop‐mediated isothermal amplification (mLAMP) reaction using primer sets designed from the rDNA internal transcribed spacer (ITS) sequences of F. torreyae and F. umbrinellus was developed. The optimal conditions for simultaneous detection of the two pathogens were investigated. The best results were obtained at a reaction temperature of 65°C and a primer ratio of 1:1.5 (F. torreyae : F. umbrinellus). Fluorescently labelled mLAMP amplicons were precipitated using polyethyleneimine. As a result, multiplex detection was enabled by the fluorescent colour of precipitate under ultraviolet light. The detection limit of mLAMP was 100 fg of genomic DNA, which was 10 times more sensitive than the polymerase chain reaction (PCR) method. The mLAMP assay was applied to Japanese pear trunk samples from Aichi Prefecture, Japan, and the results were compared with those obtained using PCR. As a result, mLAMP was observed to be effective for the specific detection of F. torreyae or F. umbrinellus.     

Kinetics of complex formation between fluorescein mercuric acetate and DNA

The kinetics of complex formation between fluorescein mercuric acetate and heat-denatured DNA were studied by measuring the fluorescence quenching of this reagent. This quenching process involved no immeasurably rapid phase and it was shown that this reaction follows simple second-order kinetics. The rate constant at 25°C was estimated to be 2.9 × 10⁴M^?1 sec^?1 for calf-thymus DNA (42% G + C) and 1.1 × 10⁴M^?1 sec^?1 for Micrococcus lysodeikticus DNA (72% G + C). Activation parameters for this reaction were calculated from the temperature dependence of the reaction rate, and the activation entropy was found to be highly negative (?27.5 cal/mol deg for calf-thymus DNA and ?25.5 cal/mol deg for M. lysodeikticus DNA). The binding of fluorescein mercuric acetate to native DNA, which requires the opening of the double-helical structure, was also followed by measuring the absorbance change of this reagent. There was a lag phase in this binding process, and the enthalpy change for the opening step corresponded roughly to that for the opening of one base pair. These findings are discussed in relation to the results of a similar study with formaldehyde.     

Sensitive and Rapid Detection of the Insect Pathogenic Fungus <Emphasis Type="Italic">Metarhizium anisopliae</Emphasis> var. <Emphasis Type="Italic">anisopliae</Emphasis> by Loop-mediated Isothermal Amplification

A set of six specific primers was designed by targeting intergenic spacer region (IGS) sequences. With Bst DNA polymerase, the products could be clearly amplified for 60 min at 62°C in a simple water bath. The sensitivity of the loop-mediated isothermal amplification (LAMP) for detecting Metarhizium anisopliae var. anisopliae was about 0.01 pg fungal DNA per reaction (equivalent to 27 conidia). LAMP products could be judged with agar gel or naked eye after addition of SYBR Green I. There were no cross reactions with other fungal isolates indicating high specificity of the LAMP. The LAMP could detect the presence of M. anisopliae var. anisopliae from soil. The detection limits for M. anisopliae var. anisopliae of LAMP reaction was 50 conidia per reaction in soil.     

Identifying a Cinnamoyl Coenzyme A Reductase (CCR) Activity with 4-Coumaric Acid: Coenzyme A Ligase (4CL) Reaction Products in <Emphasis Type="BoldItalic">Populus tomentosa</Emphasis>

A cinnamoyl coenzyme A reductase (CCR, EC 1.2.1.44), one of the key enzyme involved in lignin biosynthesis, was cloned from Populus tomentosa (Chinese white poplar). At the same time, a 4CL1 gene was cloned from P. tomentosa, too. The two genes were subcloned in pQE31 vector and expressed in Escherichia coli M15. Both of them were purified by Ni-NTA. Purified CCR protein was digested by trypsin and analyzed by HPLC-MS; the peptide segments had 27% similarity with the sequence of the CCR protein. 4CL was thought to be a neighbor enzyme of CCR in lignin biosynthesis. In this paper, a 4CL1 from P. tomentosa was cloned, and its enzyme reaction products were extracted for the substrates of CCR. Three 4CL1 enzyme reaction products were monitored by HPLC-MS and then the CCR enzyme reaction was detected by GC-MS. In the CCR reaction, the three corresponding aldehyde (p-coumaraldehyde, caffealdehyde, and coniferaldehyde) were detected and identified by Frontier3 software. The results showed that the CCR that we cloned from P. tomentosa had affinities with 4CL1 enzyme reaction products and a ptCCR that was cloned from aspen (Li et al., Plant Cell Physiol 46(7):1073–1082, 2005) only had affinity with feruloyl-CoA. The different results maybe depend on the different study method. The method of exacting 4CL enzyme products as the substrates of CCR in the paper was reliable and can be used in lignin biosynthesis network to detect the enzymes in the neighborhood that depended on the polarity of the substrates and products. This CCR gene had eight homology sequence CCR gene when a BLAST was conducted in Populus trichocarpa genome database. The CCR homology genes in Populus suggested that some CCRs may take part in the lignin biosynthesis, too. The gene family would be the hot spot in the future study.     

Properties of the Crystalline Quinolinate Phosphoribosyltransferase from Hog Liver

Quinolinate phosphoribosyltransferase has an important role in the NAD de novo biosynthetic pathway. Crystalline quinolinate phosphoribosyltransferase could be obtained for the first time from mammalian tissue. The crystalline enzyme preparation was certified to be homogeneous by polyacrylamide gel disc electrophoresis. Catalytic properties of this enzyme preparation were investigated. Optimum pH for the reaction was 6.1. Divalent cations were absolutely required and Mg²⁺ was the most effective. Michaelis constants for quinolinic acid and PRPP were 1.2 × 10^?4 m and 1.8 × 10^?4 m, respectively. Quinolinic acid could not be replaced by nicotinic acid or 2-amino nicotinic acid in this reaction. Di- and tri-valent cations fairly inhibited the reaction, but mono-valent cations had no effects. The reaction product was identified as β-nicotinic acid mononucleotide by its ultraviolet absorption spectra, paper chromatography, paper electrophoresis and its ORD spectrum.     

Different kinetic patterns in the α-chymotrypsin-catalysed hydrolysis of synthetic ester substrates

The reaction of α-chymotrypsin with AcTyr-OEt and with AcTrp-OEt at pH 7.0 and 7.8 was studied over a wide range of substrate concentrations. The reaction with AcTyr-OEt at pH 7.8 was shown to be nonhyperbolic using a variety of criteria whereas those at pH 7.0 with the same substrate and at both pH values with AcTrp-OEt were hyperbolic. The non-hyperbolicity of the reaction with AcTyr-OEt at pH 7.8 followed a pattern of negative cooperativity with a Hill coefficient for the high substrate concentration range of 0.48. Although other explanations are possible, the pH dependence of the reaction with AcTyr-OEt could be related to the slow transition of the two known forms of the enzyme.Negative cooperativityNonhyperbolic kineticsα-ChymotrypsinHyperbolic kineticsHill coefficientSlow transition     

Parameters optimization of chitin hydrolysis by Trichoderma harzianum chitinase under assay conditions

A kinetic analysis and optimization of reaction conditions for the enzymatic hydrolysis of chitin using chitinase produced by Trichoderma harzianum NCIM 1185 was carried out. Swollen chitin was used as the substrate for chitinase. The central composite design was followed for this optimization. The required volume ratio of the major reactants for maximum hydrolysis was determined. The pH and temperature optima were found to be 4.75 and 47 °C respectively. K _m and V _max for this enzyme were 4.643 kg/m³ and 0.1542 U respectively.     

Studies on the Enzymatic Production of l-Aspartic Acid from Maleic Acid

The enzymatic production of l-aspartic acid from maleic acid with cell suspensions of Alcaligenes faecalis 5-24, isolated from solid by the authors, was investigated.

The optimum conditions of this reaction and some cultural conditions which influenced on the ability of the cells to catalyze the above reaction were mainly studied.

The cells grown on maleic acid as a sole source of carbon showed exclusively the strong ability. The cells grown on a carbon source other than maleic acid showed no activity of this reaction.

It was concluded that an inducibles enzyme whose formation was stimulated by the presence of maleic acid might be involved in the reaction for the production of l-aspartic acid from maleic acid.

It was found that malonic acid was replaceable for maleic acid which played an inductive role for the formation of the enzyme system concerned with the reaction of l-aspartic acid production from maleic acid.

The cells grown in the medium containing malonic acid showed a stronger activity of the above reaction than the cells grown on maleic acid. The induction effect of malonic acid was remarkable when the organism was cultured in an acid medium. Whereas, consumption of C¹⁴-malonic acid in the medium by the organism was not observed at all in any pH milieu even where the formation of the enzyme system essential for the reaction was fully conducted. It indicated that malonic acid penetrated preferentially in acid milieu into the cells was a non-metabolic inducer like thiomethyl-β-d-galactoside in β-galactosidase system and that permeability barrier might exist in the organism.

The formation of cis-trans isomerase which catalyzed the conversion of maleic acid to fumaric acid was much stimulated by the addition of either malonic acid or maleic acid. From these results, it was concluded that l-aspartic acid was produced from maleic acid and ammonium ion by both actions of the inducible cis-trans isomerase and the constitutive aspartase.     

A Novel Synthetic Procedure for “Reverse” C-Nucleosides

The Colletotrichum lagenarium PKS1 gene was expressed in the heterologous fungal host, Aspergillus oryzae, under the starch-inducible α-amylase promoter to identify the direct product of polyketide synthase (PKS) encoded by the PKS1 gene. The main compound produced by an A. oryzae transformant was isolated and characterized to be 1,3,6,8-tetrahydroxynaphthalene (T4HN) as its tetraacetate. Since the PKS1 gene was cloned from C. lagenarium to complement the nonmelanizing albino mutant, T4HN was assumed to be an initial biosynthetic intermediate, and thus the product of the PKS reaction, but had not been isolated from the fungus. The production of T4HN by the PKS1 transformant unambiguously identified the gene to encode a PKS of pentaketide T4HN. In addition, tetraketide orsellinic acid and pentaketide isocoumarin were isolated, the latter being derived from a pentaketide monocyclic carboxylic acid, as by-products of the PKS1 PKS reaction. Production of the pentaketide carboxylic acid provided insights into the mechanism for the PKS1 polyketide synthase reaction to form T4HN.     

Isolation of Ciliatine (2-Aminoethylphosphonic Acid) from the Bile of the Bovine

To elucidate the formation mechanism of N,N′-dialkylpyrazine cation radical during browning reaction of sugars with amino compounds, main products in an early stage of the reaction were determined quantitatively by TLC and GLC. It was shown that the Schiff base, two-carbon fragmental product of sugar, the free radical and deoxyosone were successively produced prior to the browning. Polarographical measurements indicated that the radical formation was induced by the production of some reducing substances in the reaction mixture. These results suggest that the free radical was formed by the reduction of N,N′-dialkylpyrazinium; a compound, which demonstrated to have a strong activity to browning, might be formed by condensation of two-carbon enaminol followed by oxidation.