Toshikatsu Okuno

Quinochalcones and Flavonoids from Fresh Florets in Different Cultivars of Carthamus tinctorius L.

The flavonoid constituents in fresh florets of the three distinctive cultivars of Carthamus tinctorius L. were purified and identified to investigate flavonoid biosynthesis in the petals. From the orange flower of cv. Ken-ba (K.), four new compounds, anhydrosafflor yellow B (1), two kaempferols, 9 and 13, and a quercetin, 17, were isolated, as well as the twelve known compounds, and their structures were determined by spectral data, chemical reactions, and molecular mechanics calculations. From the yellow flower of cv. Ogon-hanagasa (O.), two flavonols and two quinochalcones, and from the white flower of cv. Shiro-bana (S.), three flavonols were isolated. These compounds were the same as those contained in cv. K. To compare the flavonoid constituents among the three cultivars, crude extracts were analyzed by a LC/PDA/MS system. In cv. K., six quinochalcones and eleven flavonols were identified. In cv. O., three quinochalcones and nine flavonols were identified, but the red pigment, carthamin (4), and its precursor, precarthamin (3), were not detected. In cv. S., four flavonols without a 6-hydroxyl group were identified. On the basis of a comparative study on the constituents among these three cultivars, a possible biosynthetic pathway to form quinochalcones via the intermediate, pentahydroxychalcone (19), is proposed.

Structure of antifungal and phytotoxic pigments produced by alternaria sps.

Abstract New antifungal hydroxyhydroperylenediones have been isolated from Alternaria sps. and their structures have been shown to be 1 and 2 .

Antifungal Cyclodepsipeptides, W493 A and B, from Fusarium sp.: Isolation and Structural Determination

W493 A and B, which showed strong antifungal activity, were isolated from a culture broth of Fusarium sp. The structure of W493 B was determined to be that of a cyclodepsipeptide, cyclo(3S,4R-HMTA-D-allo-Thr-L-Ala-D-Ala-L-Gln-D-Tyr-L-Ile) (1) by MS and NMR data, an amino acid analysis, and synthesis of the component. HMTA represents 3-hydroxy-4-methyltetradecanoic acid. W493 A (2) had a similar structure, except that L-Ile in 1 was replaced by L-Val. The absolute configuration of each amino acid was determined by chiral HPLC, and the sequence of the components was determined by HMBC experiments. The sequence of the two alanines was determined to be a L-Ala-D-Ala by a chiral HPLC analysis of the peptide fragment containing only one Ala residue. The absolute configuration of HMTA obtained from the hydrolysis of W493 B was determined to be 3S and 4R by comparing with four isomers prepared by enantioselective synthesis via Sharpless asymmetric epoxidation.

Isolation and Properties of Two Antifungal Substances from Fusarium solani

An antagonistic fungus to Valsa ceratosperma was isolated from soil, and identified as Fusarium solani. The fungus was found to produce at least two antifungal substances in stationary culture. These two substances were isolated from their culture filtrate as chromatographically homogeneous, amorphous solids. Their examined physico-chemical properties appeared to be identical with cyclosporin A and C, obtained from the fermentation broth of Trichoderma polysporum, and they showed a pronounced inhibitory effect on growth of V. ceratosperma.

Termination of the structural confusion between plipastatin A1 and fengycin IX.

Plipastatin A1 and fengycin IX were experimentally proven to be identical compounds, while these had been considered as diastereomers due to the permutation of the enantiomeric pair of Tyr in most papers. The (1)H NMR spectrum changed to become quite similar to that of plipastatin A1, when the sample which provided resembled spectrum of fengycin IX was treated with KOAc followed by LH-20 gel filtration. Our structural investigations disclosed that the structures of these molecules should be settled into that of plipastatin A1 by Umezawa (L-Tyr4 and D-Tyr10).

Expression, purification, and analyses of glycosylation and disulfide bonds of Stereum purpureum endopolygalacturonase I in Pichia pastoris.

We have succeeded in the expression of Stereum purpureum endopolygalacturonase I (EndoPG I) using the Pichia expression system and in purification of the three kinds of recombinant EndoPG I, which have one to three sugar chains by using CM52 column chromatography. The sugar chains which were added to EndoPG I were the M8, M9, and/or M10 high-mannose type. The results of LC-MS analysis showed that recombinant EndoPG Is were randomly glycosylated at four N-glycosylation sites. From the thermal denaturation curves of the recombinant enzymes, it was suggested that EndoPG I differing in thermal stability was included in the sample after purification. Therefore, we investigated the disulfide bonds of recombinant EndoPG I by LC-MS analysis. As a result, peptides without a second or third disulfide bond were detected. This result is the first indicating that there are incomplete enzymes in terms of disulfide bonds in the Pichia expression system.

Crystallization and preliminary X-ray study of endopolygalacturonase from the pathogenic fungus Stereum purpureum

Crystals of endopolygalacturonase I from Stereum purpureum have been obtained by the vapour-diffusion method. Prior to crystallization work, endopolygalacturonase I was deglycosylated with endo-beta-N-acetylglucosaminidase H. The crystal diffracts to ultrahigh (0.96 A) resolution using synchrotron radiation and belongs to space group P1, with unit-cell parameters a = 37.26, b = 46.34, c = 52.05 A, alpha = 67.17, beta = 72.44, gamma = 68.90 degrees.

Characterization of an endopolygalacturonase Gene cppg1 from Phytopathogenic Fungus Chondrostereum purpureum

Chondrostereum purpureum,a phytopathogenic fungus, produces endopolygalacturonase (endoPG) which has been suggested to have a causal role in the silver-leaf symptom of apple trees. In this paper, we detected C. purpureurn-derived endoPG at the infection sites using ELISA with a polyclonal antibody against endoPG I. A gene encoding endoPG I and its homolog were also isolated from the C. purpureum genome. The endoPG I gene was designated as cppg1. The cppg1 gene is the first fungal endoPG gene reported in the Basidiomycetes.

Pummerer rearrangement of 1-deoxy-5-thioglucopyranose oxides; novel synthesis of 5-thioglucopyranose derivatives

The Pummerer rearrangement of 3,4-O-isopropylidene-1-deoxy-5-thiopyranose oxide derivatives took place at the C1 position regioselectively to give the corresponding 5-thiopyranoses. The reaction mechanism of this reaction is also discussed.

Total Synthesis of Both Enantiomers of Dictyochromenol and their (Z)-Isomers

Total syntheses of both enantiomers of dictyochromenol (1) and its (Z)-stereoisomer (2) were achieved with high enantiomeric purity. The results of this study reveal the relationship between the optical rotation of the resolved 1 enantiomers.