Donald G. Smith scite author profile

13C nuclear magnetic resonance spectra of diastereomeric C-24 alkyl sterols have been assigned. Differences in the chemical shifts of side-chain carbons permitted the determination of the absolute configuration at C-24 in several sterols since these chemical shifts are insensitive to structural changes remote from the asymmetric centre. An unknown sterol from Tetraselmissuecica has been identified as (24R)-24-methylcholest-5-en-3β-ol and the configuration assigned from 1H nmr data to the sterol from Phaeodoctylumtricornutum has been confirmed. The utility and potential of this method in characterising new sterols and their biological precursors is discussed.

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The yellow pigments of Beauveria species. Structures of tenellin and bassianin

Wat¹,

McInnes²,

Smith³

et al. 1977

Can. J. Chem.

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Tenellin and bassianin are deduced from chemical and spectroscopic evidence to be the 3-[(E,E)-4,6-dimethylocta-2,4-dienoyl] and 3-[(E,E,E)-6,8-dimethyldeca-2,4,6-trienoyl] derivatives of 1,4-dihydroxy-5-(p-hydroxyphenyl)-2(1H)-pyridone. Spin–spin coupling information in the 1H and 13C nuclear magnetic resonance spectra after biosynthetic enrichment of tenellin with 13C and 15N isotopes was a valuable aid in elucidating the structure.

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New techniques in biosynthetic studies using 13C nuclear magnetic resonance spectroscopy. The biosynthesis of tenellin enriched from singly and doubly labelled precursors

McInnes¹,

Smith²,

Walter³

et al. 1974

J. Chem. Soc., Chem. Commun.

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The biosynthesis of caerulomycins in Streptomyces caeruleus. Isolation of a new caerulomycin and incorporation of picolinic acid and glycerol into caerulomycin A

Vining¹,

McInnes²,

Mcculloch³

et al. 1988

Can. J. Chem.

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Oxidation with permanganate of caerulomycin A labeled biosynthetically from [U-14C]lysine in cultures of Streptomyces caeruleus yielded picolinic acid with the same specific activity as the antibiotic. [3H]Picolinic acid was incorporated into caerulomycin A with high efficiency and the label was also found exclusively in picolinic acid after oxidation, implicating free picolinic acid as an intermediate in the pathway from lysine. The substituted pyridyl ring of caerulomycin was labeled by [2-13C, 1,3-14C]glycerol. 13C nuclear magnetic resonance analysis located the 13C predominantly at C-6, suggesting that C-5, C-6, and C-7 were derived from glycerol as an intact three-carbon precursor. Since no incorporation of [1-13C]glyceric acid was detected and [3-13C, 3-14C]methylglyoxal labeled the antibiotic only marginally, these compounds are probably not biosynthetic intermediates en route from glycerol. A new caerulomycin possessing an aldehyde in place of the aldoxime substituent at C-6 was isolated from culture broths and is postulated to be a late intermediate in the formation of caerulomycin A.

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Biosynthesis of prodiginines. ¹³C resonance assignments and enrichment patterns in nonyl-, cyclononyl-, methylcyclodecyl-, and butylcycloheptylprodiginine produced by actinomycete cultures supplemented with ¹³C-labeled acetate and ¹⁵N-labeled nitrate

Gerber¹,

McInnes²,

Smith³

et al. 1978

Can. J. Chem.

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. Can. J Chem. 56, 11 55 (1978). Resonances in the 13C nmr spectra of nonylprodiginine, cyclononylprodiginine, methylcyclodecylprodiginine, and butylcycloheptylprodiginine were assigned using information from the literature, from high resolution spectra and double irradiation experiments, and from ' 3 C -1 5 N~~~p l i n g~ observed in samples of nonylprodiginine enriched with I5N. Supplementation of cultures with sodium [I-13C]-and [1,2-13C]acetate gave I3C-enriched prodiginines and the labeling patterns were established from 13C nmr spectra. These indicated that rings A and B were formed in a similar manner to rings A and B in prodigiosin and other prodiginine pigments. Ring C and ihe C2-alkyl substituent were derived in part from acetate units that were condensed in a linear 12-or 14-carbon chain. The same pattern of acetate assembly has been found in all actinomycete prodiginines examined.

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Donald G. Smith

Identification of C-24 alkyl epimers of marine sterols by ¹³C nuclear magnetic resonance spectroscopy

The yellow pigments of Beauveria species. Structures of tenellin and bassianin

New techniques in biosynthetic studies using 13C nuclear magnetic resonance spectroscopy. The biosynthesis of tenellin enriched from singly and doubly labelled precursors

The biosynthesis of caerulomycins in Streptomyces caeruleus. Isolation of a new caerulomycin and incorporation of picolinic acid and glycerol into caerulomycin A

Biosynthesis of prodiginines. ¹³C resonance assignments and enrichment patterns in nonyl-, cyclononyl-, methylcyclodecyl-, and butylcycloheptylprodiginine produced by actinomycete cultures supplemented with ¹³C-labeled acetate and ¹⁵N-labeled nitrate

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Donald G. Smith

Identification of C-24 alkyl epimers of marine sterols by 13C nuclear magnetic resonance spectroscopy

The yellow pigments of Beauveria species. Structures of tenellin and bassianin

New techniques in biosynthetic studies using 13C nuclear magnetic resonance spectroscopy. The biosynthesis of tenellin enriched from singly and doubly labelled precursors

The biosynthesis of caerulomycins in Streptomyces caeruleus. Isolation of a new caerulomycin and incorporation of picolinic acid and glycerol into caerulomycin A

Biosynthesis of prodiginines. 13C resonance assignments and enrichment patterns in nonyl-, cyclononyl-, methylcyclodecyl-, and butylcycloheptylprodiginine produced by actinomycete cultures supplemented with 13C-labeled acetate and 15N-labeled nitrate

Contact Info

Product

Resources

About

Identification of C-24 alkyl epimers of marine sterols by ¹³C nuclear magnetic resonance spectroscopy

Biosynthesis of prodiginines. ¹³C resonance assignments and enrichment patterns in nonyl-, cyclononyl-, methylcyclodecyl-, and butylcycloheptylprodiginine produced by actinomycete cultures supplemented with ¹³C-labeled acetate and ¹⁵N-labeled nitrate