2015
DOI: 10.1021/acschembio.5b00658
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Identification of Thiotetronic Acid Antibiotic Biosynthetic Pathways by Target-directed Genome Mining

Abstract: Recent genome sequencing efforts have led to the rapid accumulation of uncharacterized or “orphaned” secondary metabolic biosynthesis gene clusters (BGCs) in public databases. This increase in DNA-sequenced big data has given rise to significant challenges in the applied field of natural product genome mining, including (i) how to prioritize the characterization of orphan BGCs, and (ii) how to rapidly connect genes to biosynthesized small molecules. Here we show that by correlating putative antibiotic resistan… Show more

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Cited by 225 publications
(241 citation statements)
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“…A recently developed method, therefore, combines the search for biosynthesis genes with detecting potential resistance genes. This so‐called target‐directed genome mining (Tang et al ., 2015) is based on the observation that antibiotic‐producing bacteria need to be resistant against the producing compound themselves to avoid suicide. In some cases, a resistant second copy of the target gene is encoded within the biosynthetic gene cluster of the antibiotic allowing a more targeted search for antibiotic compounds with interesting targets.…”
Section: Novel Approaches For Drug Discoverymentioning
confidence: 99%
“…A recently developed method, therefore, combines the search for biosynthesis genes with detecting potential resistance genes. This so‐called target‐directed genome mining (Tang et al ., 2015) is based on the observation that antibiotic‐producing bacteria need to be resistant against the producing compound themselves to avoid suicide. In some cases, a resistant second copy of the target gene is encoded within the biosynthetic gene cluster of the antibiotic allowing a more targeted search for antibiotic compounds with interesting targets.…”
Section: Novel Approaches For Drug Discoverymentioning
confidence: 99%
“…As bioinformatic tools for assessing bacterial secondary metabolite biosynthesis advance, the power in genome mining amplifies, allowing for de-replication of known products, compound class identification, structural predictions and, in some cases, target identification Tang et al, 2015). Likewise, advances in heterologous expression and regulation manipulation allow increased access to silent natural product biosynthetic pathways (Tang et al, 2015;Yamanaka et al, 2014).…”
Section: Introductionmentioning
confidence: 99%
“…After further refinement for direct capture of gene clusters and discovery of taromycin A in Streptomyces coelicolor [34 •• ], Moore and coworkers successfully extended this method to the heterologous expression of BGCs in Bacillus subtilis and Escherichia coli (Figure 3) [35,36]. Moreover, by coupling with a target-directed genome mining process, a distinct group of thiotetronic acid natural products was discovered [37]. …”
Section: Activation Of Silent Bgcs In Heterologous Hostsmentioning
confidence: 99%