Isolation and Synthetic Diversification of Jadomycin 4-Amino-l-phenylalanine | Zendy

Camilo F. MartinezFarina | Zendy; Andrew Robertson | Zendy; H. Yin | Zendy; Susan Monro | Zendy; Sherri A. McFarland | Zendy; Raymond T. Syvitski | Zendy; David L. Jakeman | Zendy

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Isolation and Synthetic Diversification of Jadomycin 4-Amino-l-phenylalanine

Author(s) -

Camilo F. MartinezFarina,

Andrew Robertson,

H. Yin,

Susan Monro,

Sherri A. McFarland,

Raymond T. Syvitski,

David L. Jakeman

Publication year - 2015

Publication title -

journal of natural products

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.976

H-Index - 139

eISSN - 1520-6025

pISSN - 0163-3864

DOI - 10.1021/np5009398

Subject(s) - phenylalanine , oxazolone , derivatization , chemistry , stereochemistry , bacteria , amino acid , amide , yield (engineering) , enantiomer , biochemistry , biology , organic chemistry , high performance liquid chromatography , materials science , metallurgy , genetics

Streptomyces venezuelae ISP5230 was grown in the presence of phenylalanine analogues to observe whether they could be incorporated into novel jadomycin structures. It was found that the bacteria successfully produced jadomycins incorporating 4-aminophenylalanine enantiomers. Upon isolation and characterization of jadomycin 4-amino-l-phenylalanine (1), it was synthetically derivatized, using activated succinimidyl esters, to yield a small jadomycin amide library. These are the first examples of oxazolone-ring-containing jadomycins that have incorporated an amino functionality subsequently used for derivatization.

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