Improvement of oxytetracycline production mediated via cooperation of resistance genes in Streptomyces rimosus

Increasing the self-resistance levels of Streptomyces is an effective strategy to improve the production of antibiotics.To increase the oxytetracycline(OTC) production in Streptomyces rimosus,we investigated the cooperative effect of three co-overexpressing OTC resistance genes:one gene encodes a ribosomal protection protein(otrA) and the other two express efflux proteins(otrB and otrC).Results indicated that combinational overexpression of otrA,otrB,and otrC(MKABC) exerted a synergetic effect.OTC production increased by 179%in the recombinant strain compared with that of the wild-type strain M4018.The resistance level to OTC was increased by approximately two-fold relative to the parental strain,thereby indicating that applying the cooperative effect of self-resistance genes is useful to improve OTC production.Furthermore,the previously identified cluster-situated activator OtcR was overexpressed in MKABC in constructing the recombinant strain MKRABC;such strain can produce OTC of approximately7.49 g L^((-1)),which represents an increase of 19%in comparison with that of the OtcR-overexpressing strain alone.Our work showed that the cooperative overexpression of self-resistance genes is a promising strategy to enhance the antibiotics production in Streptomyces.

Structural basis for prokaryotic calciummediated regulation by a Streptomyces coelicolor calcium binding protein

The important and diverse regulatory roles of Ca2+in eukaryotes are conveyed by the EF-hand containing calmodulin superfamily.However,the calcium-regulatory proteins in prokaryotes are still poorly understood.In this study,we report the three-dimensional structure of the calcium-binding protein from Streptomyces coelicolor,named CabD,which shares low sequence homology with other known helix-loop-helix EF-hand proteins.The CabD structure should provide insights into the biological role of the prokaryotic calcium-binding proteins.The unusual structural features of CabD compared with prokaryotic EF-hand proteins and eukaryotic sarcoplasmic calcium-binding proteins,including the bending conformation of the first C-terminalα-helix,unpaired ligand-binding EF-hands and the lack of the extreme Cterminal loop region,suggest it may have a distinct and significant function in calcium-mediated bacterial physiological processes,and provide a structural basis for potential calcium-mediated regulatory roles in prokaryotes.