Significance of the Tryptophan Residue at the Low Affinity Saccharide-binding Site of Ricin E

Chemical modification of tryptophan residues in ricin E was investigated with regard to saccharide-binding. Two out of ten tryptophan residues in ricin E were modified with N- bromosuccinimide at pH 4.5 in the absence of specific saccharide accompanied by a marked decrease in the cytoagglutinating activity. Such a loss of the cytoagglutinating activity was found to be principally due to the oxidation of one tryptophan residue per B-chain. In the presence of lactose, one tryptophan residue/mol was protected from the modification with retention of a fairly high cytoagglutinating activity. However, G a IN Ac did not show such a protective effect. The binding of lactose to ricin E altered the environment of the tryptophan residue at the low affinity binding site of ricin E, leading to a blue shift of the fluorescence spectrum and an UV-difference spectrum with a maximum at 290 nm and a trough at 300 nm. The ability to generate such spectroscopic changes induced by lactose was retained in the derivative in which one tryptophan residue/mol was oxidized in the presence of lactose, but not in the derivative in which two tryptophan residues/mol were oxidized in the absence of lactose. Based on these results, it is suggested that one of the two surface-localized tryptophan residues is responsible for saccharide binding at the low affinity binding site of ricin E, which can bind lactose but lacks the ability to bind GalNAc.     

Supplemental Effects of Arginine and Methionine on Growth,and on Formations of Urea and Creatine of Adrenalectomized Rats Fed High Glycine Diets

The effects of adrenalectomy on growth, some enzyme activities in the liver and kidney, and urinary excretion of urea, creatinine and creatine were investigated in rats fed the 10% casein diets containing 7% glycine with or without l-arginine and l-methionine (10C, 10C7G and 10C7ArgMet).

Body weight gains of the intact 10C and 10C7GArgMet groups were almost same as the corresponding adrenalectomized groups. The body weight of the adrenalectomized 10C7G group was extremely decreased though that of the intact 10C7G group was maintained almost constant; but the decrease was recovered by the administration of hydrocortisone. The activities of liver arginase and carbamylphosphate synthetase were not affected by those diets. Liver serine dehydratase and ornithine δ-aminotransferase activities were increased in the intact 10C7G and 10C7GArgMet groups, but these increases were depressed by adrenalectomy. Glutamate-pyruvate transminase activities in the liver of intact 10C7G and 10C7GArgMet groups were also enhanced, but were extremely decreased in the corresponding adrenalectomized groups. Kidney transamidinase activity was not affected by adrenalectomy. The amount of urinary excreted urea was almost unchanged by adrenalectomy, but was increased by hydrocortisone administration. The amounts of excreted creatine of the adrenalectomized groups were generally larger than the corresponding intact groups, but slightly decreased by the administration of hydrocortisone. The amount of excreted creatinine was not generally affected by adrenalectomy.     

A Growth Factor for Malo-lactic Fermentation Bacteria

A growth factor (TJF) for a malo-lactic fermentation bacterium has been isolated from tomato juice, and found to be a β-glucoside. The NMR spectra of TJF and its acetate revealed that the glucosyl residue linked to the hydroxyl group at C-2′ or C-4′ of d- or l-pantothenic acid moiety. Then, 2′-O-(β-d-glucopyranosyl)-dl-pantothenic acid (I), 4′-O-(β-d-glucopyranosyl)-dl-pantothenic acid (II) and 4′-O-(β-d-glucopyranosyl)-d(R)-pantothenic acid (II-a) were synthesized, and Il-a and 4′-O-(β-d-glucopyranosyl)-l-pantothenic acid (II-b) were obtained by the optical resolution of the acetate of II. Among the above compounds, II-a was identical with natural TJF regarding to the biological activity, NMR and ORD spectra, and thin-layer chromatography.     

A New Metabolite, 6-Oxo-7-azatridecanedioic Acid,a Microbial Product from Cyclic Dimer of ε-Caprolactam

A series of partially and heterogeneously N-acylated chitosans was prepared and isolated in 50 ~ 100% yields. The structure of N-acyl groups influenced the gelation. The minimum requirement for the gelation was defined as ca. 0.4 N-lauroyl (C₁₂), ca. 0.6 N-fatty acyl (C₃–C₁₀) or ca. 0.7 N-benzoyl groups per hexosaminide residue. However, the gelation did not occur with N-high fatty acyl (C₁₄-C₁₈) groups.1)     

Insect Ecdysis Inhibitors from the East African Medicinal Plant Ajuga remota (Labiatae)

γ-Glutamy Icy steine synthetase was purified from E. coli B. The enzyme had a molecular weight of 5.5 × 10⁴ and required only magnesium ion for activity. The optimal pH and temperature for reaction were 8.5 and 45°C, respectively. The Km values for l-glutamate, l-cysteine, and ATP were 0.50, 0.09, and 0.01 mm, respectively. GTP and UTP were also used as energy sources. The enzyme activity was inhibited by phosphate anions and by various sulfhydryl reagents. Unlike the enzyme from mammalian tissues, the E. coli B enzyme was not inhibited by α-alkyl analogues of methionine. The enzyme was feedback inhibited by reduced glutathione, although oxidized glutathione had no inhibitory effect.