Reclassification of Streptomyces hygroscopicus subsp. glebosus and Streptomyces libani subsp. rufus as later heterotypic synonyms of Streptomyces platensis

We investigated the taxonomic relationships among Streptomyces hygroscopicus subsp. glebosus , Streptomyces libani subsp. rufus and Streptomyces platensis . The three species formed a single clade in the phylogenetic trees based on 16S rRNA gene sequence and multilocus sequence analyses. Digital DNA–DNA hybridization using whole genome sequences suggested that S. hygroscopicus subsp. glebosus , S. libani subsp. rufus and S. platensis belong to the same genomospecies. Previously reported phenotypic data also supported this synonymy. Therefore, S. hygroscopicus subsp. glebosus and S. libani subsp. rufus should be reclassified as later heterotypic synonyms of S. platensis .

Synthesis of the Tripeptide Antibiotic Resormycin

A short and efficient synthesis of resormycin, a metabolite of Streptomyces platensis MJ953-SF5 with herbicidal and antifungal activity, is described. The key step in our synthetic approach is a late-stage stereospecific dehydration of a β-hydroxy amino acid to install the Z-olefin. Because of the modular nature of the synthesis, access to analogues for biological evaluation is readily available.

Draft Genome Sequences of Three Actinobacteria Strains Presenting New Candidate Organisms with High Potentials for Specific P450 Cytochromes

ABSTRACT The three Actinobacteria strains Streptomyces platensis DSM 40041, Pseudonocardia autotrophica DSM 535, and Streptomyces fradiae DSM 40063 were described to selectively oxyfunctionalize several drugs. Here, we present their draft genomes to unravel their gene sets encoding promising cytochrome P450 monooxygenases associated with the generation of drug metabolites.

A Review on Platensimycin: A Selective FabF Inhibitor

Emerging resistance to existing antibiotics is an inevitable matter of concern in the treatment of bacterial infection. Naturally occurring unique class of natural antibiotic, platensimycin, a secondary metabolite from Streptomyces platensis, is an excellent breakthrough in recent antibiotic research with unique structural pattern and significant antibacterial activity. β-Ketoacyl-(acyl-carrier-protein (ACP)) synthase (FabF) whose Gram-positive bacteria need to biosynthesize cell membranes is the target of inhibition of platensimycin. So, isolation, retrosynthetic analysis, synthesis of platensimycin, and analogues of platensimycin synthesized till today are the objectives of this review which may be helpful to further investigate and to reveal untouched area on this molecule and to obtain a potential antibacterial lead with enhanced significant antibacterial activity.