John C. James scite author profile

The biosynthetic origin of the carbon atoms in the chromophores of chrysomycins A and B was investigated in feeding experiments using 13C labeled acetates and propionate.A biosynthetic scheme is proposed involving the condensation and rearrangement of a decaketide intermediate which contains either propionate (chrysomycin A) or acetate (chrysomycin B) as the chain initiator.The isolation of chrysomycin was first reported in 1955 by STRELITZ and coworkers1) who were screening for antibiotics with activity against bacteriophages.Although the physico-chemical properties of this antibiotic, including a highly characteristic absorption spectrum, were published, no structure was established. Subsequently, several related antibiotics containing very similar, if not identical, chromophores were described: toromycin2), virenomycin3), gilvocarcin4) and ravidomycin5)'.The first member of this group of related antibiotics to have its structure determined was toromycin6), which was shown to consist of a substituted naphthalene chromophore with a sugar moiety attached by a carbon-carbon glycosyl bond. Structures for other members of this group quickly followed7~9), and all contained the same tetracyclic chromophore. Gilvocarcin V proved to be identical to toromycin as also did other antibiotics'10~12). Although a detailed comparison has not been possible, it seems likely that virenomycin has the same structure as chrysomycin. Both chrysomycin and gilvocarcin occur in microbial fermentations as a mixture of two analogues that differ only in having a vinyl (chrysomycin A and gilvocarcin V) or methyl (chrysomycin B and gilvocarcin M) substituent on the chromophore. In the case of ravidomycin only the vinyl analogue has been described. The structures of chrysomycin, gilvocarcin and ravidomycin are shown in Fig. 1. Although toromycin is the preferred name for 3, the only biosynthetic studies reported for this compound were done using Streptomyces gilvotauareus13), hence in this paper we refer to this antibiotic as gilvocarcin V. Recently we reported on the biosynthesis of ravidomycin14) and proposed a scheme in which a single decaketide chain initiated by propionate gave rise to the chromophore via a tetracyclic intermediate from which two carbons are lost. TAKAHASHI and TOMITA13) have published results on the biosynthesis of gilvocarcins V and M, and proposed a scheme that differs significantly from that for ravidomycin. The key difference between the two biosynthetic schemes concerns the C-8 vinyl substituent. In the case of ravidomycin, it derives from propionate, which is suggested to be a polyketide chain initiator and retains its carboxyl as part of the chromophore. Although the gilvocarcin scheme also proposes a propionate origin, it is a secondary substituent added to a pre-existing ring system with loss of its associated carboxyl group. According to this latter scheme gilvocarcin M was synthesized by substituting the chromophore with acetate rather than propionate, again with concomitant loss of the carboxyl group.

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Isolation and structures of trichilins, antifeedants against the Southern army worm

Nakatani¹,

James²,

Nakanishi³

1981

J. Am. Chem. Soc.

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Initial product studies of PdPF.THA, as well as of H2 PF.TPiv and its metal complexes have so far been hindered by incomplete resolution of isomers by HPLC.Isolation and Structures of Trichilins, Antifeedants against the Southern Army Worm Scheme I 2 (trichilin 8,l2a-OH) °' II NMR data (CDC1,), 300 MHz, in ppm (multiplicity and J values); the data arc shown in both la and I b. The 16fi-H (*) is obscured by the acetate peaks.

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A Preliminary Study of the Size Determinant in Small Group Interaction

James¹

1951

American Sociological Review

111

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John C. James

Importance-Performance Analysis

Isolation and structure of brevetoxin B from the "red tide" dinoflagellate Ptychodiscus brevis (Gymnodinium breve)

Biosynthesis of chrysomycins A and B origin of the chromophore.

Isolation and structures of trichilins, antifeedants against the Southern army worm

A Preliminary Study of the Size Determinant in Small Group Interaction

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