Literature DB >> 28892347

Two Cooperative Glycosyltransferases Are Responsible for the Sugar Diversity of Saquayamycins Isolated from Streptomyces sp. KY 40-1.

Shaimaa M Salem1, Stevi Weidenbach1, Jürgen Rohr1.   

Abstract

Glycosyltransferases are key enzymes involved in the biosynthesis of valuable natural products providing an excellent drug-tailoring tool. Herein, we report the identification of two cooperative glycosyltransferases from the sqn gene cluster directing the biosynthesis of saquayamycins in Streptomyces sp. KY40-1: SqnG1 and SqnG2. Gene inactivation of sqnG1 leads to 50-fold decrease in saquayamycin production, while inactivation of sqnG2 leads to complete production loss, suggesting that SqnG2 acts as dual O- and C-glycosyltransferase. Gene inactivation of a third putative glycosyltransferase-encoding gene, sqnG3, does not affect saquayamycin production in a major way, suggesting that SqnG3 has no or a supportive role in glycosylation. The data indicate that SqnG1 and SqnG2 are solely and possibly cooperatively responsible for the sugar diversity observed in saquayamycins 1-7. This is the first evidence of a glycosyltransferase system showing codependence to achieve dual O- and C-glycosyltransferase activity, utilizing NDP-activated d-olivose, l-rhodinose, as well as an unusual amino sugar, presumably 3,6-dideoxy-l-idosamine.

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Year:  2017        PMID: 28892347      PMCID: PMC5886728          DOI: 10.1021/acschembio.7b00453

Source DB:  PubMed          Journal:  ACS Chem Biol        ISSN: 1554-8929            Impact factor:   5.100


  30 in total

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