Characterization of Mesorhizobium loti L-Rhamnose Isomerase and Its Application to L-Talose Production

The L-rhamnose isomerase gene (rhi) of Mesorhizobium loti was cloned and expressed in Escherichia coli, and then characterized. The enzyme exhibited activity with respect to various aldoses, including D-allose and L-talose. Application of it in L-talose production from galactitol was achieved by a two-step reaction, indicating that it can be utilized in the large-scale production of L-talose.     

Production of l-allose and d-talose from l-psicose and d-tagatose by l-ribose isomerase

l-ribose isomerase (L-RI) from Cellulomonas parahominis MB426 can convert l-psicose and d-tagatose to l-allose and d-talose, respectively. Partially purified recombinant L-RI from Escherichia coli JM109 was immobilized on DIAION HPA25L resin and then utilized to produce l-allose and d-talose. Conversion reaction was performed with the reaction mixture containing 10% l-psicose or d-tagatose and immobilized L-RI at 40 °C. At equilibrium state, the yield of l-allose and d-talose was 35.0% and 13.0%, respectively. Immobilized enzyme could convert l-psicose to l-allose without remarkable decrease in the enzyme activity over 7 times use and d-tagatose to d-talose over 37 times use. After separation and concentration, the mixture solution of l-allose and d-talose was concentrated up to 70% and crystallized by keeping at 4 °C. l-Allose and d-talose crystals were collected from the syrup by filtration. The final yield was 23.0% l-allose and 7.30% d-talose that were obtained from l-psicose and d-tagatose, respectively.     

Genetic Engineering of Candida utilis Yeast for Efficient Production of L-Lactic Acid

Polylactic acid is receiving increasing attention as a renewable alternative for conventional petroleum-based plastics. In the present study, we constructed a metabolically-engineered Candida utilis strain that produces L-lactic acid with the highest efficiency yet reported in yeasts. Initially, the gene encoding pyruvate decarboxylase (CuPDC1) was identified, followed by four CuPDC1 disruption events in order to obtain a null mutant that produced little ethanol (a by-product of L-lactic acid). Two copies of the L-lactate dehydrogenase (L-LDH) gene derived from Bos taurus under the control of the CuPDC1 promoter were then integrated into the genome of the CuPdc1-null deletant. The resulting strain produced 103.3 g/l of L-lactic acid from 108.7 g/l of glucose in 33 h, representing a 95.1% conversion. The maximum production rate of L-lactic acid was 4.9 g/l/h. The optical purity of the L-lactic acid was found to be more than 99.9% e.e.     

Preparation of Phgsphatioyll2-3Hjinositgl from Yeast Grown in Medium Containing N;Yol2-3Hjinositol

Phosphatidy[2-³]jinositol was prepared from Saccharoniycts cerevisiae (YSC-2), grown in synthetic meaiurn containing myo[2-³H]inositol. Over 44 μCi (or 81 %) of the racio-labeleo inositol was taken up by the organism, with 34 yCi incorporated into phospnatiaylinositol. Upon purification d) silicic acia-meaium pressure liquia chrcnatography (MPLC), a final yield of 24 to 2b μCi of phosphatiayl[2-³h]inositot with a specific radioactivity of 40 ± 10³ apm/nmoie wäs obtained. The purified phosphatiuyl[2-³H] inositol was founo to be a suitable substrate for phospholipase C from human platelets     

Gene Cloning and Characterization of α-Amino Acid Ester Acyl Transferase in Empedobacter brevis ATCC14234 and Sphingobacterium siyangensis AJ2458

The gene encoding α-amino acid ester acyl transferase (AET), the enzyme that catalyzes the peptide-forming reaction from amino acid methyl esters and amino acids, was cloned from Empedobacter brevis ATCC14234 and Sphingobacterium siyangensis AJ2458 and expressed in Escherichia coli. This is the first report on the aet gene. It encodes a polypeptide composed of 616 (ATCC14234) and 619 (AJ2458) amino acids residues. The V _max values of these recombinant enzymes during the catalysis of L-alanyl-L-glutamine formation from L-alanine methylester and L-glutamine were 1,010 U/mg (ATCC14234) and 1,154 U/mg (AJ2458). An amino acid sequence similarity search revealed 35% (ATCC14234) and 36% (AJ2458) identity with an α-amino acid ester hydrolase from Acetobacter pasteurianus, which contains an active-site serine in the consensus serine enzyme motif, GxSYxG. In the deduced amino acid sequences of AET from both bacteria, the GxSYxG motif was conserved, suggesting that AET is a serine enzyme.     

Purification and Properties of Two Chitinases from Streptomyces sp. J-13-3

Two chitinases (Chi-A and Chi-B) purified from Streptomyces sp. J-13-3 had the same molecular weights (31,000) and enzymatic properties (optimum pH and temperature of pH 6.0 and 45°C) but had significantly different isoelectric points (3.9 for Chi-A, 3.5 for Chi-B). Chi-A and -B had identical N-terminal amino acid sequences (ADXAAAWNASSVYTGGGSASYNGHN), similar amino acid compositions, and immunological cross-reactivities. A concomitant decrease of Chi-A and increase of Chi-B was observed in their productions during cultivation.     

Structure of DNA in Spores of Bacillus cereus

The structure of DNA extracted from dormant and germinating spores of B. cereus T was investigated using circular dichroism and other methods. No significant differences between DNAs extracted from vegetative cells and from spores of various stages could be found by analyses of CD spectra, CsCl density gradient centrifugation, melting profiles and template activity. All the DNA preparations were in B conformation and had the same density (1.695), Tm (83°C) and template activity in the reaction of DNA-dependent RNA polymerase. An abnormal DNA fraction of high density which was formerly found in B. cereus spores or a stable DNA complex with protein and/or RNA was not detected in the present extracts of spores. Preliminary X-ray analyses of intact spores indicate that the structure of DNA in spores is not so different from B form.     

Conversion of L-Galactono-1,4-lactone to L-Ascorbate Is Regulated by the Photosynthetic Electron Transport Chain in Arabidopsis

In this study we focused on the effects of light irradiation and the addition of L-galactono-1,4-lactone (L-GalL) on the conversion of exogenous L-GalL to L-ascorbate (AsA) and the total AsA pool size in detached leaves of Arabidopsis plants and transgenic plants expressing the rat L-gulono-1,4-lactone oxidase gene. Increases in the total AsA level in L-GalL-treated leaves depended entirely on light irradiation. Treatment with an inhibitor of photosynthetic electron transport together with L-GalL reduced the increase in total AsA under light. Light, particularly the redox state of photosynthetic electron transport, appeared to play an important role in the regulation of the conversion of L-GalL to AsA in the mitochondria, reflecting the cellular level of AsA in plants.     

Main Polyol Dehydrogenase of Gluconobacter suboxydans IFO 3255, Membrane-bound D-Sorbitol Dehydrogenase,That Needs Product of Upstream Gene,sldB, for Activity

The D-sorbitol dehydrogenase gene, sldA, and an upstream gene, sldB, encoding a hydrophobic polypeptide, SldB, of Gluconobacter suboxydans IFO 3255 were disrupted in a check of their biological functions. The bacterial cells with the sldA gene disrupted did not produce L-sorbose by oxidation of D-sorbitol in resting-cell reactions at pHs 4.5 and 7.0, indicating that the dehydrogenase was the main D-sorbitol-oxidizing enzyme in this bacterium. The cells did not produce D-fructose from D-mannitol or dihydroxyacetone from glycerol. The disruption of the sldB gene resulted in undetectable oxidation of D-sorbitol, D-mannitol, or glycerol, although the cells produced the dehydrogenase. The cells with the sldB gene disrupted produced more of what might be signal-unprocessed SldA than the wild-type cells did. SldB may be a chaperone-like component that assists signal processing and folding of the SldA polypeptide to form active D-sorbitol dehydrogenase.     

The Mode of Binding of Carbohydrate in Ricin D

Dehydro-L-ascorbic acid (DAA) exists mainly in its C2 hydrated bicyclic form (5) in an aqueous solution, and monocyclic DAA (3), which is the expected reaction product immediately after the oxidation of AA, has not been observed by NMR spectroscopy. The formation mechanism for 5 from 3 and the stability of 5 were examined by the semi-empirical molecular orbital method (MOPAC). It was indicated that the protonation reaction was the key step in the formation of 5, therefore, the formation of 5 is thought to be more difficult under physiological conditions which mostly involve in the neutral or slightly alkaline state. However, by NMR, it was confirmed that, even in a neutral or slightly alkaline state very close to physiological conditions, the predominant form of DAA existing in an aqueous solution immediately after the enzymatic oxidation of AA was confirmed to be 5, although the possible existence of other forms of DAA at very low concentrations could not be completely excluded.     

The Contribution of Arabidopsis Homologs of L-Gulono-1,4-lactone Oxidase to the Biosynthesis of Ascorbic Acid

To clarify the involvement of seven Arabidopsis homologs of rat L-gulono-1,4-lactone (L-GulL) oxidase, AtGulLOs, in the biosynthesis of L-ascorbic acid (AsA), transgenic tobacco cells overexpressing the various AtGulLOs were generated. Under treatment with L-GulL, the levels of total AsA in three transgenic tobacco cell lines, overexpressing AtGulLO2, 3, or 5, were significantly increased as compared with those in control cells.     

Polylysine Produced by Streptomyces

The xylitol dehydrogenase gene (xdh) of Bacillus pallidus was cloned and overexpressed in Escherichia coli using pQE60 vector, for the first time. The open reading frame of 759 bp encoded a 253 amino acid protein with a calculated molecular mass of 27,333 Da. The recombinant xylitol dehydrogenase (XDH) was purified to homogeneity by three-step column chromatography, producing a single SDS–PAGE band of 28 kDa apparent molecular mass. The enzyme exhibited maximal activity at 55 °C in glycine-NaOH buffer pH 11.0, with 66% of initial enzyme activity retained after incubation at 40 °C for 1 h. In further application of the recombinant bacterium to L-xylulose production from xylitol (initial concentration 5%) using a resting cell reaction, 35% L-xylulose was produced within 24 h. This result indicates that this recombinant XDH is applicable in the large-scale production of L-xylulose.     

An Improved Synthesis of dl-Histidine

The 5-O-(2,6-diamino-2,6-dideoxy-α-d-glucopyranosyl)-2-deoxystreptamine derivative and its related compounds were synthesized by a modified Königs-Knorr condensation of 3,4-di-O-acetyl-2,6-dideoxy-2-(2′,4′-dinitroanilino)-6-phthalimido-α-d-glucopyranosyl bromide (I) with 4,6-di-O-acetyl-N,N′-dicarbobenzoxy-2-deoxystreptamine (V) and the corresponding streptamine (XI). The aglycons (V) and (XI) were prepared by selective acetylation of the aminocyclitol derivatives by taking advantage of the reactivity difference between the hydroxyl groups at C₅ and C₄ or C₆. The condensed products were converted to N-acetyl derivatives and were shown to have the α-configuration by PMR spectroscopy.     

Strategy and Design of Novel Reagents for the Fluorometric Analysis of Biomolecules

This article covers molecular designs to develop several new fluorometric reagents and their applications to increase the sensitivities up to the picomole level using HPLC for the measurement of biomolecules. The methods were designed to demonstrate the physiological activities, for example (1) N-(9-acridinyl)maleimide (NAM) for the measurement of SH, –S–S–, and sulfite such as cysteine, (2) diphenyl-1-pyrenylphosphine (DPPP) for the hydroperoxides in lipids, serum, tissues, and foodstuffs, (3) 9-bromomethylacridine (9-BrMA), (4) 2-(anthracene-2,3-dicarboxylimide)ethyltrifluoromethane sulfonate (AE-OTf) for carboxylic acids, and (5) The chiral fluorometric labelling reagent (S)-( + )-2-tert-butyl-2-methyl-1,3-benzodioxole-4-carboxylic acid (TBMB) to identify the chiralities of amino acids, sugars, and mono- and diacylglycerols.     

Identification and characterization of d-arabinose reductase and d-arabinose transporters from Pichia stipitis

d-xylose and l-arabinose are the major constituents of plant lignocelluloses, and the related fungal metabolic pathways have been extensively examined. Although Pichia stipitis CBS 6054 grows using d-arabinose as the sole carbon source, the hypothetical pathway has not yet been clarified at the molecular level. We herein purified NAD(P)H-dependent d-arabinose reductase from cells grown on d-arabinose, and found that the enzyme was identical to the known d-xylose reductase (XR). The enzyme activity of XR with d-arabinose was previously reported to be only 1% that with d-xylose. The k_cat/K_m value with d-arabinose (1.27 min^?1 mM^?1), which was determined using the recombinant enzyme, was 13.6- and 10.5-fold lower than those with l-arabinose and d-xylose, respectively. Among the 34 putative sugar transporters from P. stipitis, only seven genes exhibited uptake ability not only for d-arabinose, but also for d-glucose and other pentose sugars including d-xylose and l-arabinose in Saccharomyces cerevisiae.     

Isolation of a New Root Growth-stimulating Substance from a Fungus

In the last few decades, enzymatic production of 3,4-dihydroxyphenyl-L-alanine (L-dopa) using tyrosine phenol-lyase (Tpl) has been industrialized. This method has an intrinsic problem of tyrosine contamination because Tpl is synthesized under tyrosine-induced conditions. Herein, we constructed a hyper-L-dopa-producing strain by exploiting a mutant TyrR, an activator of tpl. The highest productivity was obtained for the strain grown under non-induced conditions. It was 30-fold higher than that obtained for tyrosine-induced wild-type cells.     

Physicochemical Studies on Sulfated Polysaccharides Extracted from Seaweeds at Various Temperatures

Sulfated polysaccharides (SPS) were extracted from three species of seaweeds of Ulvacea (Ulva pertusa, Ulva conglobata and Entromorpha prolifera) for 4 hr at various temperatures and their physicochemical properties were studied using viscometric and equilibrium sedimentation measurements in order to determine the optimum extracting condition.

Sulfated polysaccharides extracted at various temperatures from the seaweed of U. pertusa had the same physicochemical properties, while the larger molecular components of SPS was not extracted from U. conglobata and E. prolifera, at the low temperature of 30~40°C. This was confirmed by analyses of their viscosity and molecular weight and by gel filtration chromatography, in which each SPS showed two or three peaks.

The larger molecular component of SPS could be extracted at the high temperature of 80~90°C in the thermostable form.     

Differential Substrate Specificity of Two Inositol Transporters of Bacillus subtilis

Bacillus subtilis IolT is the major myo-inositol transporter for growth, while IolF is a minor one unable to support growth. We found that either IolT or IolF was sufficient for moderate growth using D-chiro-inositol. Conversely to IolT, IolF transported D-chiro-inositol more preferentially than myo-inositol. These results indicate that IolT and IolF are different in substrate specificity.