A new synthetic biology system for investigating the biosynthesis of antibiotics and other secondary metabolites in streptomycetes.

We have created a novel synthetic biology expression system allowing easy refactoring of biosynthetic gene clusters (BGCs) as monocistronic transcriptional units. The system is based on a set of plasmids containing a strong kasOp* promoter, RBS and terminators. It allows the cloning of biosynthetic genes into transcriptional units kasOp*-gene(s)-terminator flanked by several rare restriction cloning sites that can be sequentially combined into the artificial BGC in three compatible Streptomyces integration vectors.

Multiple SigB homologues govern the transcription of the ssgBp promoter in the sporulation-specific ssgB gene in Streptomyces coelicolor A3(2).

Unlike Bacillus subtilis, Streptomyces coelicolor contains nine SigB homologues of the stress-response sigma factor SigB. By using a two-plasmid system, we previously identified promoters recognized by these sigma factors. Almost all promoters were recognized by several SigB homologues.

Enhanced protein secretion in reduced genome strains of Streptomyces lividans.

Background: S. lividans TK24 is a popular host for the production of small molecules and the secretion of heterologous protein. Within its large genome, twenty-nine non-essential clusters direct the biosynthesis of secondary metabolites.

Investigating the initial steps of auricin biosynthesis using synthetic biology.

Streptomyces lavendulae subsp. lavendulae CCM 3239 (formerly Streptomyces aureofaciens CCM 3239) contains a type II polyketide synthase (PKS) biosynthetic gene cluster (BGC) aur1 whose genes were highly similar to angucycline BGCs. However, its product auricin is structurally different from all known angucyclines.

Cloning and Expression of Metagenomic DNA in Streptomyces lividans and Its Subsequent Fermentation for Optimized Production.

The choice of an expression system for the metagenomic DNA of interest is of vital importance for the detection of any particular gene or gene cluster. Most of the screens to date have used the Gram-negative bacterium Escherichia coli as a host for metagenomic gene libraries. However, the use of E.

A stable vector for efficient production of heterologous proteins and secondary metabolites in streptomycetes.

The bacteria of the genus Streptomyces are important producers of a large number of biologically active natural products. Examination of their genomes has revealed great biosynthetic potential for the production of new products, but many of them are silent under laboratory conditions. One of the promising avenues for harnessing this biosynthetic potential is the refactoring and heterologous expression of relevant biosynthetic gene clusters (BGCs) in suitable optimized chassis strains.

Bacterial Regulatory Proteins.

The regulation of gene expression in bacteria occurs predominantly at the level of transcription, which is controlled by RNA polymerase [...

A New Family of Transcriptional Regulators Activating Biosynthetic Gene Clusters for Secondary Metabolites.

We previously identified the biosynthetic gene cluster (BGC) in subsp. CCM 3239 (formerly CCM 3239), which is responsible for the production of the unusual angucycline-like antibiotic auricin. Auricin is produced in a narrow interval of the growth phase after entering the stationary phase, after which it is degraded due to its instability at the high pH values reached after the production phase.

The linear plasmid pSA3239 is essential for the replication of the Streptomyces lavendulae subsp. lavendulae CCM 3239 chromosome.

We previously reported the complete genome of Streptomyces lavendulae subsp. lavendulae CCM 3239, containing the linear chromosome and the large linear plasmid pSA3239. Although the chromosome exhibited replication features characteristic for the archetypal end-patching replication, it lacked the tap/tpg gene pair for two proteins essential for this process.

Cross-Recognition of Promoters by the Nine SigB Homologues Present in A3(2).

In contrast to , A3(2) contains nine homologues of stress response sigma factor SigB with a major role in differentiation and osmotic stress response. The aim of this study was to further characterize these SigB homologues. We previously established a two-plasmid system to identify promoters recognized by sigma factors and used it to identify promoters recognized by the three SigB homologues, SigF, SigG, and SigH from A3(2).

Screening Systems for Stable Markerless Genomic Deletions/Integrations in Streptomyces Species.

Bacteria of the genus Streptomyces are one of the most important producers of biologically active natural products. Recent robust genomic sequencing of Streptomyces strains has shown enormous genetic potential for new natural products. However, many biosynthetic gene clusters are silent.

An efficient system for stable markerless integration of large biosynthetic gene clusters into Streptomyces chromosomes.

The bacteria of the genus Streptomyces are among the most important producers of biologically active secondary metabolites. Moreover, recent genomic sequence data have shown their enormous genetic potential for new natural products, although many new biosynthetic gene clusters (BGCs) are silent. Therefore, efficient and stable genome modification techniques are needed to activate their production or to manipulate their biosynthesis towards increased production or improved properties.

The antitumor antibiotic mithramycin: new advanced approaches in modification and production.

The aureolic acid-type polyketide mithramycin (MTM) has a remarkable cytotoxicity against a variety of human tumors and has been used for the treatment of several types of cancer, including chronic and acute myeloid leukemia, testicular carcinoma, hypercalcemia, and Paget's disease. However, its clinical use is quite limited due to its toxicity. Recently, interest in MTM has been renewed after its identification as a top candidate for the inhibition of the aberrant fusion transcription factor EWS-FLI1, associated with malignant transformation and progression of Ewing sarcoma tumor family.

Pleiotropic anti-anti-sigma factor BldG is phosphorylated by several anti-sigma factor kinases in the process of activating multiple sigma factors in Streptomyces coelicolor A3(2).

The anti-anti-sigma factor BldG has a pleiotropic function in Streptomyces coelicolor A3(2), regulating both morphological and physiological differentiation. Together with the anti-sigma factor UshX, it participates in a partner-switching activation of the sigma factor σ, which has a dual role in the osmotic stress response and morphological differentiation in S. coelicolor A3(2).

A Structural Analysis of the Angucycline-Like Antibiotic Auricin from Subsp. CCM 3239 Revealed Its High Similarity to Griseusins.

We previously identified the gene cluster in subsp. CCM 3239 (formerly CCM 3239), which is responsible for the production of the angucycline-like antibiotic auricin (). Preliminary characterization of revealed that it possesses an aminodeoxyhexose d-forosamine and is active against Gram-positive bacteria.

Recent achievements in the generation of stable genome alterations/mutations in species of the genus Streptomyces.

The bacteria of the genus Streptomyces are the most valuable source of natural products of industrial and medical importance. A recent explosion of Streptomyces genome sequence data has revealed the enormous genetic potential of new biologically active compounds, although many of them are silent under laboratory conditions. Efficient and stable manipulation of the genome is necessary to induce their production.

Monitoring Protein Secretion in Using Fluorescent Proteins.

Fluorescent proteins are a major cell biology tool to analyze protein sub-cellular topology. Here we have applied this technology to study protein secretion in the Gram-positive bacterium TK24, a widely used host for heterologous protein secretion biotechnology. Green and monomeric red fluorescent proteins were fused behind Sec (SP) or Tat (SP) signal peptides to direct them through the respective export pathway.

Secretome Dynamics in a Gram-Positive Bacterial Model.

Protein secretion is a central biological process in all organisms. Most studies dissecting bacterial secretion mechanisms have focused on Gram-negative cell envelopes such as that of However, proteomics analyses in Gram negatives is hampered by their outer membrane. Here we studied protein secretion in the Gram-positive bacterium TK24, in which most of the secretome is released in the growth medium.

An efficient blue-white screening system for markerless deletions and stable integrations in Streptomyces chromosomes based on the blue pigment indigoidine biosynthetic gene bpsA.

We previously developed an efficient deletion system for streptomycetes based on the positive selection of double-crossover events using bpsA, a gene for producing the blue pigment indigoidine. Using this system, we removed interfering secondary metabolite clusters from Streptomyces lividans TK24, resulting in RedStrep strains with dramatically increased heterologous production of mithramycin A (up to 3-g/l culture). This system, however, required a time-consuming step to remove the resistance marker genes.

Rapid identification of Streptomyces tetracycline producers by MALDI-TOF mass spectrometry.

The main objective of this study was using matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF MS) for assembling of DSM (German Collection of Microorganisms) Streptomyces spectral database and identification of wild Streptomyces cultures, which were clustered by MALDI-TOF Biotyper OC software as well as for teracycline detection by observing of obtained spectra using flexAnalysis software. Production of tetracycline was confirmed by thin-layer chromatography. Presence of tetracycline mass spectrum was verified by several tetracycline producers (Streptomyces aureofaciens LMG 5968, S.

Complete Genome Sequence of subsp. CCM 3239 (Formerly " CCM 3239"), a Producer of the Angucycline-Type Antibiotic Auricin.

subsp. CCM 3239 produces the angucycline antibiotic auricin and was thought to be the type strain of We report the complete genome sequence of this strain, which consists of a linear chromosome and the linear plasmid pSA3239, and demonstrate it to be subsp. .

Correction to: Increased heterologous production of the antitumoral polyketide mithramycin a by engineered Streptomyces lividans TK24 strains.

The original publication contains error error in the Materials and Methods section and in the acknowledgement section.

Increased heterologous production of the antitumoral polyketide mithramycin A by engineered Streptomyces lividans TK24 strains.

Mithramycin A is an antitumor compound used for treatment of several types of cancer including chronic and acute myeloid leukemia, testicular carcinoma, hypercalcemia and Paget's disease. Selective modifications of this molecule by combinatorial biosynthesis and biocatalysis opened the possibility to produce mithramycin analogues with improved properties that are currently under preclinical development. The mithramycin A biosynthetic gene cluster from Streptomyces argillaceus ATCC12956 was cloned by transformation assisted recombination in Saccharomyces cerevisiae and heterologous expression in Streptomyces lividans TK24 was evaluated.

Unusual features of the large linear plasmid pSA3239 from Streptomyces aureofaciens CCM 3239.

We previously identified the aur1 gene cluster, responsible for the production of the angucycline antibiotic auricin in Streptomyces aureofaciens CCM 3239. Pulse-field gel electrophoresis showed a single, 241kb linear plasmid, pSA3239, in this strain, and several approaches confirmed the presence of the aur1 cluster in this plasmid. We report here the nucleotide sequence of this 241,076-bp plasmid.

Development of a Biosensor Concept to Detect the Production of Cluster-Specific Secondary Metabolites.

Genome mining of actinomycete bacteria aims at the discovery of novel bioactive secondary metabolites that can be developed into drugs. A new repressor-based biosensor to detect activated secondary metabolite biosynthesis gene clusters in Streptomyces was developed. Biosynthetic gene clusters for undecylprodigiosin and coelimycin in the genome of Streptomyces lividans TK24, which encoded TetR-like repressors and appeared to be almost "silent" based on the RNA-seq data, were chosen for the proof-of-principle studies.