Studies on the Polyuronide of Oh-gyo-tye (The Achine of Ficus awkeotsang MAKINO)

A polyuronide, main component of the water extract of achine of Ficus awkeotsang MAKINO (on-gyo-tye), was purified by ion-exchange chromatography on DEAE-cellulose. The polyuronide (Fraction IB) is homogeneous electrophoretically and consists mainly of galacturonic acid. Optical rotation of Fraction IB is and content of methoxyl group is trace. In periodate oxidation of Fraction IB, molar ratio of galacturonic acid residue and periodate consumption was 1, and formic acid formation was very small. Periodate oxidation product of Fraction IB was oxidized further with bromine and the resulted substance was hydrolyzed. In the hydrolyzate, presence of large amount of tartaric and glyoxylic acids and small amount of tartronic acid were detected by paper chromatography. Reduced viscosity of aquous solution of Fraction IB increased with decreasing of the concentration of Fraction IB solution. From these results, it was deduced that Fraction IB has a linear structure of 1→4 linkage of d-galacturonic acid, probably α-linkage.     

Changes in Amino Acid Composition during Germination of Soybean

Malonogalactan, a malonylated polysaccharide (—74° (c=1.6, H₂O)) produced by Penicillium citrinum, consisted of d-galactose and malonic acid in the approximate molar ratio of 3:1. Molecular weight of the demalonylated galactan (-99° (c=4.6, H₂O)) was about 40,000. From the data regarding optical rotation, nuclear magnetic resonance spectrum, infrared spectrum, glycosidase susceptibility, periodate oxidation, Smith degradation, methylation and acid hydrolysis, the possible structure of the Penicillium malonogalactan is deduced as follows: A galactan, 1,5-β-galactofuranoside polymer esterified with malonic acid at the position of 2 or 3.     

Isolation and Structure of Maingayic Acid,a Piscicidal Constituent of Callicarpa maingayi

A piscicidal constituent (1), C₂₀H₂₈O₃, (chloroform), which was named maingayic acid, was isolated from the leaf of Callicarpa maingayi. On the basis of the chemical spectral studies, the pK_MCS evaluation and the octant rule on the ORD curves, we have and deduced that maingayic acid is a furanoid diterpene acid possessing a rearranged labdane skeleton shown as 1’a.     

Radiation Chemistry of Foods

When 10^?3m cysteine solution was irradiated in the presence of glucose at the concentration of ten-fold of cysteine, the G-values of products produced from cysteine were similar to those from 10^?3m cysteine solution. On the other hand, the yield of carbonyl compound from glucose was suppressed completely by interaction between cysteine and radicals which are secondarily produced from glucose.

Methionine could not suppress the yield of carbonyl compound from glucose, and, G-values of products from methionine varied in comparison with those from solution containing methionine only.

From the results using scavenger, it was concluded that oxidation to methionine sulfoxide and cleavage to α-aminobutyric acid was caused by OH and attack, respectively.     

Studies on Alginase

Chemical investigations were made on a new unsaturated crystalline diuronide isolated from alginase hydrolysate of alginic acid. This uronide has (in water), and m.p. 135.5~136.5°C (decomp.). The presence of an α/β-unsaturated carboxylic acid formulation is supported by the following evidences: (a) an ultraviolet absorption band at 232 m/μ, (b) infrared absorption bands at 1648 cm^-1 due to double bond and at 1720 cm^-1 due to conjugated carboxylic group, (c) the consumption of about 1 mole of bromine per mole of the compound, (d) the production of oxalic acid on oxidation with ozone, (e) the formation of a substance that shows absorption maximum at 550 mμ, caused by the addition of thiobarbituric test. After hydrolysis, crystalline mannuronic lactone was obtained from the unsaturated diuronide. Occurrence of mannuronic moiety in the reducing unit was observed by paper chromatography of the hydrolysate of borohydride-reduced unsaturated compound. From these results it can be seen that the possible structure of this unsaturated diuronide is 4-O- (β-d-Δ4,5 mannoseenpyranosyluronic acid) -d-mannuronic acid.     

Lipolysis by Intracellular Lipase of Streptococcus lactis against Its Neutral Lipids Obtained by Growth at Low Temperature

Lipolytic activities of intracellular lipase obtained from Streptococcus lactis 527 cells grown at 30°C were determined using bacterial neutral lipids extracted from cells grown at 10 and 30°C. The amounts of free fatty acids liberated from lipids by lipase were in the order: 30°C neutral lipid > 10°C neutral lipid > triolein > intracellular membrane fraction. Glycerides hydrolyzed partially by lipase were detected on thin-layer plates and were composed of 1,3- and 1,2-diglycerides, fatty acids and unhydrolyzed triglycerides. Fatty acids liberated from neutral lipids by lipase were determined by gas chromatography. It was found that the major acid was cy-C₁₀ and the minor among the acids liberated from 10°C neutral lipid, whereas the major acid was and the minors and cy-C₁₀ from 30°C lipid.     

Hydrolysis Rate of Resistant Pentosan of White Birch Wood in Sulfuric Acid of Medium Strength

The purpose of this study is to find optimal conditions for pre-hydrolysis in the new wood saccharification process with strong sulfuric acid. In the experiment, the hydrolysis rate of resistant fraction of pentosan of white birch (Shirakamba, Betula platyphylla Sukatchev var. japonica Hara) wood and the decomposition rate of xylose are measured in acid concentrations ranging from 30 to 60% at temperatures ranging from 30 to 90°C. The hydrolysis of resistant pentosan of white birch and the decomposition of xylose are the first-order reactions. The first-order reaction constant of hydrolysis of resistant pentosan, k_B min^-1, is expressed by the following empirical equations as the function of percentage concentration of sulfuric acid, C, and reaction temperature described by absolute temperature, T°K, ranging from 40 to 80°C:

where sulfuric acid concentrations range from 30 to 50%;

where sulfuric acid concentration is 60%.

The first-order reaction constant of decomposition of xylose, k₂ min^-1, is expressed by the following empirical equation as the function of sulfuric acid strength described by acidity function, H₀, and reaction temperature described by absolute temperature, T°K, in sulfuric acid concentrations ranging from 30 to 60% at temperatures within the range of 40 to 100°C.

where C is sulfuric acid strength described by acidity function, H₀.     

Production and Isolation of Dopastin,an Inhibitor of Dopamine β-Hydroxylase

A new inhibitor of dopamine β-hydroxylase, dopastin, has been isolated. The dopastin-producing strain was found in a mushroom culture, and after being separated, it was confirmed to be a member of Pseudomonas. Dopastin was obtained as colorless needles, mp 116~119°C, (c=0.5, С₂Н₅ОН), C₉H₁₇N₃O₃. The catalytic hydrogenation afforded dihydro-dopastin which also inhibits dopamine β-hydroxylase.     

Isolation and Physicochemical Properties of a Soluble Glycoprotein Fraction of Milk Fat Globule Membrane

A soluble apoprotein fraction was prepared from milk fat globule membrane lipoproteins by delipidation with a chloroform-methanol mixture and was fractionated into three fractions by gel filtration on Bio-Gel A–5m.

The major fraction, Fraction II, contained about 30% of carbohydrate, i.e. 13.9% of hexoses, 8.1% of hexosamines, 8.0% of sialic acid and 0.8% of fucose, and was therefore designated a soluble glycoprotein fraction. The fraction was apparently homogeneous on sedimentation velocity analysis and DEAE-Sephadex chromatography, and had 6.1, 3.79, 0.719, f/f⁰ 2.16 and molecular weight 139,000 daltons. However, the diffused pattern on disc electrophoresis and the occurrence of plural N-terminal amino acid residues suggest that the protein of this fraction is likely to be formed by intermolecular association of heterogeneous polypeptide chains.     

Determination of CGTase from Bacillus ohbensis and Its Optimum pH Using HPLC

Glucose is widely known to be required during superoxide generation in phagocytic cells. However, when an specific chemiluminescence probe with the Cypridina luciferin analog 2-methyl-6-(p-methoxyphenyl)-3, 7 -dihydroimidazo[ 1,2-a]pyrazin-3-one (MCLA) was used, about 60% of the chemiluminescence remained in stimulated macrophages in the presence of the glycolytic inhibitor 2-deoxyglucose. -nonspecific luminol-dependent chemiluminescence disappeared when the same drug was added. These results clearly demonstrate that the generation of by macrophages is not completely glucose-dependent, and strongly suggest that macrophages have both glucoseindependent NADPH-supplying pathway(s) and glucose dependent pathway(s) which generate reactive oxygen species other than .     

Isosclerone,a New Metabolite of Sclerotinia sclerotiorum (Lib.) De Bary

Isosclerone, mp 74~76°C, , a new metabolite of Sclerotinia sclerotiorum, was isolated and its absolute structure was determined as (4S)-3,4-dihydro-4,8-dihydroxy-1(2H)-naphthalenone. It stimulated the root elongation of rice seedlings by ca. 30% at concentrations of 1~10 ppm, and inhibited the growth of shoots and roots at high concentrations above 50 ppm.     

Studies on Bacterial Protease

A crystalline alkaline protease was prepared from B. amylosacchariticus, which was isolated as a strain of saccharogenic α-amylase-producing Bacillus subtilis. The enzyme was most active at pH values between 10.3 and 10.7 towards casein and was stable at pH values from 6 to 11 on twenty hour incubation at 30°C. Calcium ions were effective to stabilize the enzyme especially at higher temperatures. The enzyme was markedly inactivated by DFP as well as protease inhibitor from potato and slightly by surface active agents, but not affected by sulfhydryl reagents and divalent metal ions except Hg⁺⁺ .Hemoglobin was the best substrate for the enzyme and more than 20% of the peptide bonds were hydrolyzed. Of numerous synthetic peptides tested, only the two compounds, and , were found to be hydrolyzed. A cyclic peptide, gramicidin S, was split by the enzyme only at the peptide bond of -l-valyl-l-ornithyl-. Methyl n-butyrate and tributyrin were also good substrates for the alkaline protease obtained here.     

Properties of Crystalline 3β-Hydroxysteroid Oxidase of Brevibacterium sterolicum

3β-Hydroxysteroid oxidase (3β-hydroxysteroid: oxygen oxidoreductase, EC 1.1.3.6.) from the culture supernatant of Brevibacterium sterolicum ATCC 21387 has a molecular weight of 32,500 and an isoelectric point of 8.9. The enzyme contained 258 amino acid residues and the composition revealed a distinctive feature of a relatively high amount of proline and the absence of alanine and tryptophan. The crystalline enzyme exhibited an absorption spectrum characteristic of a flavoprotein with absorption maxima at 280, 390, and 470 nm with a shoulder at 490 nm. Anaerobic addition of dehydro-epi-androsterone as well as sodium dithionite to the enzyme produced a disappearance of the peaks at 390 and 470 nm. The flavin moiety of the enzyme was isolated and identified as flavin adenine dinucleotide, 1 mole of which was found per mole of protein. The enzyme is sulfhydryl dependent and was inactivated by silver and mercury compounds. Analysis of the enzyme protein by atomic absorption spectrophotometry failed to detect any significant quantity of heavy metals.

Various 3β-hydroxysteroids were oxidized and the relative rates of the oxidation were cholesterol, 100; dehydro-epi-androsterone, 41; pregnenolone, 22; and β-sitosterol, 20. The oxidation product of cholesterol by the enzyme was crystallized and identified as 4-cholesten-3-one by melting point, elementary analysis, optical rotation, UV, IR and NMR spectra. The oxidation of cholesterol proceeded as follows:

The enzyme would be used for some analytical and preparative purposes in the field of steroid chemistry, e.g., microdetermination of cholesterol in serum.     

Physical and Chemical Properties of Yeast Proteinase C

A simple purification method which enables us to obtain homogeneous proteinase C from S. cerevisiae was developed. Physical and chemical properties of the purified enzyme were determined. The extinction coefficient at 280 mμ, , of yeast proteinase C was 14.8, and its isoelectric point was pH 3.60. Partial specific volume, intrinsic viscosity and the sedimentation and diffusion coefficients of homogeneous protein were , 0.71 ml/g, [η], 4.83 × 10^?2ml/g, , 4.23 S and , w, 6.1 × 10^?7 cm²/sec. From these values, molecular weights, M_[·],D, M_S,D and M_[·],S, of 60,000, 59,000 and 58,000, respectively, were obtained. The sedimentation equilibrium experiment gave a molecular weight, M_equil, of 61,000. Yeast proteinase C contained 11.9% nitrogen and was a glycoprotein with 16.7% carbohydrate: The value of β-function, 2.163×l0⁶ or 2.20×l0⁶ indicates that the molecular shape of yeast proteinase C is a plorate with an axial ratio of 4.0, assuming 35% hydration. Furthermore, yeast proteinase C may be a compact, asymmetric ellipsoidal model having semi-axes 30Å × 30Å × 130Å.     

Substrate Specificity of α-Glucosidase II in Rice Seed

The substrate specificity of rice α-glucosidase II was studied. The enzyme was active especially on nigerose, phenyl-α-maltoside and maltooligosaccharides. The actions on isomaltose and phenyl-α-glucoside were weak, and on sucrose and methyl-α-glucoside, negligible. The α-glucans, such as soluble starch, amylopectin, β-limit dextrin, glycogen and amylose, were also hydrolyzed.

The ratio of the maximum velocities for hydrolyses of maltose (G₂), nigerose (N), kojibiose (K), isomaltose (I), phenyl-α-maltoside (?M) and soluble starch (SS) was estimated to be 100: 94.4: 14.2: 7.1: 89.5: 103.1 in this order, and that for hydrolyses of malto-triose (G₃), -tetraose (G₄), -pentaose (G₅), -hexaose (G₆), -heptaose (G₇), -octaose (G₈), and amyloses ( and ), 113: 113: 113: 106: 113: 100: 106: 106. The Km values for N, K, I, ?M and SS were 2.4 mm, 0.58 mm, 20 mm, 1.6 mm and 5.0 mg/ml, respectively; those for G₂, G₃, G₄, G₅, G₆, G₇, G₈, and , 2.4 mm, 2.2 mm, 2.1 mm, 1.5 mm, 1.0 mm, 1.1 mm, 0.95 mm, 1.5 mm and 1.1 mm.

Rice α-glucosidase II is considered an enzyme with a preferential activity on maltooligosaccharides.     

Enzymatic Assay of d-Xylose Isomerase Activity

The d-xylose isomerase activity was assayed spectrophotometrically as NADH oxidation in a coupled reaction with the d-arabitol dehydrogenase. The assay system is based on the following reactions:

d-Arabitol dehydrogenase was purified from the d-sorbitol-grown cells of Agrobacterium tumefaciens. The standard assay condition is as follows: 5 μmoles of Tris-HCl buffer (pH 7.0), 0.2 μmole of MnCl₂, 2 μl of reduced glutathione (25 mg/ml), 0.05 μmole of NADH, 6 units of d-arabitol dehydrogenase, 5 μmoles of d-xylose and d-xylose isomerase in a total volume of 0.30 ml. The reaction was carried out at 30°C. With the assay system, it was confirmed that d-xylose isomerase did not produce d-xylulose from d-lyxose.     

Isolation and Characterization of Globulin from Seeds of Amaranthus hypochondriacus L.

Seeds of grain amaranths contain a high amount (about 60% of total nitrogen) of albumin and globulin and a trace amount of prolamin. From salt-soluble extracts of A. hypochondriacus seeds, a globulin (440,000 in apparent molecular weight and ) was purified by Sepharose 6B gel and DEAE-cellulose column chromatographies. The protein comprised at least four kinds of subunits whose molecular weights were 36,000, 32,000, 20,000 and 18,000, respectively. The amino acid composition of the globulin was almost similar to those of soybean and oat globulins.     

Studies on Some New Azoxy Glycosides of Cycas revoluta Thunb.

The isolation of a new glycoside, named here as neocycasin A, with use of carbon chromatography, is described. It is one of a series of aliphatic azoxy glycosides, found in the seeds of Japanese cycad together with cycasin which is β-glucosyloxyazoxymethane as reported previously. The glycoside monohydrate gives m.p. 162° ~ 163° (decomp.), ? 35.1°; its heptaacetylate, m.p. 142° ~ 143°, ? 55.5°, from which octaacetyl-β-laminaribiose is isolated. On the basis of examination of the products obtained from partial or complete hydrolysis, and spectroscopic measurements, neocycasin A is concluded to be β-laminaribiosyloxyazoxymethane, i.e. 3-O-β-d-glucopyranosylcycasin.     

Microbial Transformation of Sterols

The ability of accumulating androsta-1, 4-diene-3, 17-dione (ADD) in the digestion of cholesterol by Arthrobacter simplex IAM 1660 was examined with 167 compounds and (i) chelating agents, (ii) Ni²⁺, Co²⁺, Hg²⁺, As³⁺, Sb³⁺, Bi³⁺, Cd²⁺, , and ions, and (iii) redox dyes were found effective for ADD accumulation. Ionic state of the chelating agents was unfavorable for ADD accumulation but inactive ethylaenediamine tetraacetic acid could be turned effective with aid of surface active agents and penicilline. Lipophilic structure of the chelating agents was required probably for its penetration through the cell membrane. The target process of the ADD accumulating agents was supposed as 9α-hydroxylation and their possible mechanism of inhibiting 9α-hydroxylation is discussed.