Intergeneric Conjugation Escherichia coli–Streptomyces globisporus1912 Using Integrative Plasmid pSET152 and Its Derivatives

Streptomyces globisporus1912 produces a novel angucycline antitumor antibiotic landomycin E (LE). To study the LE biosynthetic gene cluster in detail, a system for the conjugal transfer of the integrative plasmid pSET152 fromEscherichia coliinto S. globisporus1912 has been developed. It was shown that this plasmid integrates into two sites of the S. globisporuschromosome and is stably inherited under nonselective conditions. pSET152⁺exconjugants of the strain 1912 are characterized by a significant decrease in LE synthesis (by 50–90%). A negative effect of pSET152 integration on antibiotic production was observed even upon the use of the recipient strain with increased LE synthesis, although in this case, the level of LE production in exconjugants was 120–150% of that in the original strain 1912. Based on pSET152, a vector system for gene knockouts in S. globisporuswas developed. The effectivity of this system was shown in the example of disruption of the lndAgene encoding the key enzyme of LE synthesis (-ketoacylsynthase). Inactivation of this gene was shown to lead to the cessation of LE biosynthesis.     

Binding of ArsR,the repressor of the Staphylococcus xylosus (pSX267) arsenic resistance operon to a sequence with dyad symmetry within the ars promoter

arsR, the first gene of the Staphylococcus xylosus (pSX267) arsenic/antimonite resistance (rs) operon encodes a negative regulatory protein, ArsR, which mediates inducibility of the resistances by arsenic and antimony compounds. ArsR, which has no obvious DNA-binding motif in its primary structure, was purified from an ArsR-overproducing Escherichia coli strain and identified as a DNA-binding protein by its behaviour in gel mobility shift assays. ArsR had a specific affinity for a 312 by DNA restriction fragment carrying the ars promoter; the minimum sequence complexed by ArsR was a 75 by polymerase chain reaction (PCR) fragment, which mainly comprised the ?35 and ?10 regions of the promoter. The effect of inducers on the DNA-binding activity of ArsR was examined by in vitro induction assays; only arsenite inhibited DNA-binding of the repressor. DNase I footprinting revealed two protected regions within the promoter region, spanning 23 and 9 nucleotides, respectively. Furthermore, a new cleavage site for DNase I between the protected regions was made accessible by binding of the repressor. The footprints cover a region of three inverted repeats located between the ?35 and ?10 motifs of the ars promoter. By high resolution footprinting with the hydroxy radical, five sites of close contact between the protein and DNA were identified.     

Extracellular enzyme production and fungal mycelia degradation of antagonistic Streptomyces induced by fungal mycelia preparation of cucurbit plant pathogens

Streptomyces are beneficial soil microorganisms and potential candidates for biocontrol agents against soilborne pathogenic fungi of cucurbit plants. Extracellular enzymes such as cellulase, chitinase and glucanase produced by Streptomyces are important components of actinomycete-fungus antagonism. This study aimed to investigate the influence on extracellular enzymes production and fungal mycelia degradation by antagonistic Streptomyces of mycelia preparation of pathogenic fungi (MPPF) of cucurbit plants. The results showed that the antagonistic Streptomyces displayed high extracellular enzyme activities to varying degrees when MPPF was used as the sole carbon source. The MPPF from Fusarium proliferatum, Fusarium oxysporum f. sp. niveum and Alternaria tenuissima were the most effective carbon sources in enhancing the cellulase activity of Streptomyces globisporus C7, Streptomyces globisporus subsp. globisporus C28 and Streptomyces kanamyceticus C49, respectively. S. globisporus subsp. globisporus C28, Streptomyces pactum A12 and S. kanamyceticus C49 cultured in the medium containing MPPF from Fusarium equiseti showed the highest chitinase activity (12.35, 12.50 and 15.06 U, respectively) of all the MPPF treatments. Glucanase activity of Streptomyces carnosus A11 was enhanced greatly (9.26 U) when MPPF from A. tenuissima was used as the sole carbon source. A hyphal intertwining and degradation phenomenon was observed when the antagonistic Streptomyces came across the pathogenic fungal mycelia, which was due to a synergistic effect of the extracellular enzymes produced by the antagonistic Streptomyces.     

Cumate-Inducible Gene Expression System for Sphingomonads and Other Alphaproteobacteria

Tunable promoters represent a pivotal genetic tool for a wide range of applications. Here we present such a system for sphingomonads, a phylogenetically diverse group of bacteria that have gained much interest for their potential in bioremediation and their use in industry and for which no dedicated inducible gene expression system has been described so far. A strong, constitutive synthetic promoter was first identified through a genetic screen and subsequently combined with the repressor and the operator sites of the Pseudomonas putida F1 cym/cmt system. The resulting promoter, termed P_Q5, responds rapidly to the inducer cumate and shows a maximal induction ratio of 2 to 3 orders of magnitude in the different sphingomonads tested. Moreover, it was also functional in other Alphaproteobacteria, such as the model organisms Caulobacter crescentus, Paracoccus denitrificans, and Methylobacterium extorquens. In the noninduced state, expression from P_Q5 is low enough to allow gene depletion analysis, as demonstrated with the essential gene phyP of Sphingomonas sp. strain Fr1. A set of P_Q5-based plasmids has been constructed allowing fusions to affinity tags or fluorescent proteins.     

Functional domains of theEscherichia coli ferric uptake regulator protein (Fur)

The functions of N- and C-terminal domains of the Fur repressor ofEscherichia coli in promoter recognition and dimerization were studied. We investigated the ability of fusion proteins containing the N- or C-terminal domain of Fur to dimerize and to repress a Fur-regulatedlacZ fusion gene. The N-terminal domain, when fused to the C-terminal domain of the repressor C1857, repressed a Fur-regulatedlacZ fusion. However, the Fur-CI857 fusion was unable to complement the growth defect of anE. coli fur mutant on fumarate and succinate. The C-terminal domain of Fur, when fused to the N-terminus of CI857, repressed a λP, -regulatedlacZ fusion, indicating dimerization of the chimeric protein, which is a prerequisite for Cl activity. Both fusion proteins were fully active under both iron-rich and iron-poor growth conditions. We conclude that the N-terminal domain of Fur is involved in recognition of the Fur-responsive promoter and the C-terminus mediates oligomerization of the repressor.     

Proton-dependent transporter gene <Emphasis Type="Italic">lndJ</Emphasis> confers resistance to landomycin E in <Emphasis Type="Italic">Streptomyces globisporus</Emphasis> 1912

Sequence analysis of 2 kb BamHI-SmaI fragment of landomycin E (LaE) gene cluster in Streptomyces globisporus 1912 revealed one complete ORF marked as lndJ. Analysis of putative lndJ aminoacid sequence allowed us to suppose that it is proton-dependent antiporter which could be involved in resistance to LaE in the producing strain. Although disruption of lndJ had no significant influence on LaE production and resistance, its overexpression in wild type and LaE overproducing strains led to qualitative changes in landomycins biosynthesis and increased resistance to LaE. These data support the hypothesis about involvement of lndJ gene in landomycins export. The text was submitted by the authors in English.     

New Integrative Method To Generate Bacillus subtilis Recombinant Strains Free of Selection Markers

The novel method described in this paper combines the use of blaI, which encodes a repressor involved in Bacillus licheniformis BlaP β-lactamase regulation, an antibiotic resistance gene, and a B. subtilis strain (BS1541) that is conditionally auxotrophic for lysine. We constructed a BlaI cassette containing blaI and the spectinomycin resistance genes and two short direct repeat DNA sequences, one at each extremity of the cassette. The BS1541 strain was obtained by replacing the B. subtilis P_lysA promoter with that of the P_blaP β-lactamase promoter. In the resulting strain, the cloning of the blaI repressor gene confers lysine auxotrophy to BS1541. After integration of the BlaI cassette into the chromosome of a conditionally lys-auxotrophic (BS1541) strain by homologous recombination and positive selection for spectinomycin resistance, the eviction of the BlaI cassette was achieved by single crossover between the two short direct repeat sequences. This strategy was successfully used to inactivate a single gene and to introduce a gene of interest in the Bacillus chromosome. In both cases the resulting strains are free of selection marker. This allows the use of the BlaI cassette to repeatedly further modify the Bacillus chromosome.     

Expression,purification and functional characterization of AmiA of acetamidase operon of Mycobacterium smegmatis

Regulation of gene expression is one of the mechanisms of virulence in pathogenic organisms. In this context, we would like to understand the gene regulation of acetamidase enzyme of Mycobacterium smegmatis, which is the first reported inducible enzyme in mycobacteria. The acetamidase is highly inducible and the expression of this enzyme is increased 100-fold when the substrate acetamide is added. The acetamidase structural gene (amiE) is found immediately downstream of three predicted open reading frames (ORFs). Three of these genes along with a divergently expressed ORF are predicted to form an operon and involved in the regulation of acetamidase enzyme. Here we report expression, purification and functional characterization of AmiA which is one of these predicted ORFs. Electrophoretic mobility shift assays showed that AmiA binds to the region between the amiA and amiD near the predicted promoter (P2). Over-expression of AmiA significantly lowered the expression of acetamidase compared to the wild type as demonstrated by qRT-PCR and SDS-PAGE. We conclude that AmiA binds near P2 promoter and acts as a repressor in the regulation of acetamidase operon. The described work is a further step forward toward broadening the knowledge on understanding of the complex gene regulatory mechanism of Mycobacterium sp.