SOS induction in mycobacteria: analysis of the DNA-binding activity of a LexA-like repressor and its role in DNA damage induction of the recA gene from Mycobacterium smegmatis

The protein encoded by the lexA gene from Mycobacterium leprae was overproduced in Escherichia coli . The recombinant protein bound to the promoter regions of the M. leprae lexA , M. leprae recA and M. smegmatis recA genes at sites with the sequences 5'-GAACACATGTTT and 5'-GAACAGGTGTTC, which belong to the 'Cheo box' family of binding sites recognized by the SOS repressor from Bacillus subtilis . Gel mobility shift assays were used to confirm that proteins with the same site specificity of DNA binding are also present in Mycobacterium tuberculosis and M. smegmatis . Complex formation was impaired by mutagenic disruption of the dyad symmetry of the M. smegmatis recA Cheo box. LexA binding was also inhibited by preincubation of the M. smegmatis and M. tuberculosis extracts with anti- M. leprae LexA antibodies, suggesting that the mycobacterial LexA proteins are functionally conserved at the level of DNA binding. Finally, exposure of M. smegmatis to DNA-damaging agents resulted in induction of the M. smegmatis recA promoter with concomitant loss of DNA binding of LexA to its Cheo box, confirming that this organism possesses the key regulatory elements of a functional SOS induction system.     

Characterization of the promoter of the Rhizobium etli recA gene.

The promoter of the Rhizobium etli recA gene has been identified by primer extension and by making deletions affecting several regions located upstream of its coding region. A gel mobility shift assay carried out with crude extracts of cells of R. etli has been used to show that a DNA-protein complex is formed in the R. etli recA promoter region in vitro. Analysis of the minimal region of the recA promoter giving rise to this DNA-protein complex revealed the presence of an imperfect palindrome corresponding to the sequence TTGN11CAA. Site-directed mutation of both halves of this palindrome indicated that both motifs, TTG and CAA, are necessary for both normal DNA-protein complex formation in vitro and full DNA damage-mediated inducibility of the recA gene in vivo. However, the TTG motif seems to be more dispensable than the CAA one. The presence of this same palindrome upstream of the recA genes of Rhizobium meliloti and Agrobacterium tumefaciens, whose expression is also regulated in R. etli cells, suggests that this TTGN11CAA sequence may be the SOS box of at least these three members of the Rhizobiaceae.     

The use of radiation-induced bacterial promoters in anaerobic conditions: a means to control gene expression in clostridium-mediated therapy for cancer

Nuyts, S., Van Mellaert, L., Theys, J., Landuyt, W., Lambin, P. and Anné, J. The Use of Radiation-Induced Bacterial Promoters in Anaerobic Conditions: A Means to Control Gene Expression in Clostridium-Mediated Therapy for Cancer. Radiat. Res. 155, 716-723 (2001). Apathogenic clostridia, which have been genetically engineered to express therapeutic genes, will specifically target hypoxic and necrotic regions in tumors. This specificity can be improved further if the expression of these genes is controlled by a radiation-induced promoter, leading to spatial and temporal control of gene expression. We isolated two radiation-inducible genes of the SOS repair system of Clostridium. Northern blot experiments confirmed radiation activation of the recA and recN genes at a dose of 2 Gy. The promoter region of these genes was isolated and used to regulate expression of the lacZ gene under anaerobic conditions. For the recA promoter, a significant increase of beta-galactosidase activity of 20-30% was seen after 2 Gy irradiation. The recN promoter did not show a significant induction and had a 50-100 times lower basal expression. Treatment of the recombinant clostridial cultures with the cytostatic agent mitomycin C also resulted in a significant increase of beta-galactosidase activity that was under the control of recA or recN promoter. Oxygen does not appear to be necessary in the activation of the SOS repair system by irradiation as tested with Escherichia coli since recA-deficient and recA-containing strains showed similar survival after treatment with UV and ionizing radiation in the presence or absence of oxygen.     

Characterization of the Streptomyces violaceoruber SANK95570 plasmids pSV1 and pSV2

The gene coding for recA in the oral pathogen Actinobacillus actinomycetemcomitans SUNY 465 was cloned and sequenced. The DNA sequence coded for a 352-amino acid protein that was homologous to RecA of a variety of bacterial species. A derivative of a non-replicating mobilizable plasmid was constructed for directed mutagenesis in A. actinomycetemcomitans. A recA-deficient strain of A. actinomycetemcomitans was developed by homologous recombination of an internal recA fragment contained on the mobilizable suicide vector. The recA mutant strain was more sensitive to UV radiation and showed a reduced recombinatorial proficiency than the isogenic parent strain. These data suggest that recA of A. actinomycetemcomitans SUNY 465 is involved in the repair of DNA damage caused by UV irradiation and homologous recombination as determined for other bacteria.     

Expression of the Escherichia coli recA gene in the yeast Saccharomyces cerevisiae

The isolation of the protein coding region of the recA gene from Escherichia coli by extensive Bal31 digestion is described. The structural recA gene was ligated into an extrachromosomally replicating yeast expression vector, downstream of the yeast alcohol-dehydrogenase gene promoter region, to produce pADHrecA plasmid. The pADHrecA plasmid was transformed into the wild-type and the repair deficient strains of Saccharomyces cerevisiae. The crude protein samples were extracted from the individual yeast transformants. A 38 kDa protein was present in all transformants containing the recA gene on plasmid. Thus the recA gene from E coli was successfully expressed in cells from a lower eukaryote.     

Inducible and constitutive promoters for genetic systems in Sulfolobus acidocaldarius

Central to genetic work in any organism are the availability of a range of inducible and constitutive promoters. In this work we studied several promoters for use in the hyperthermophilic archaeon Sulfolobus acidocaldarius. The promoters were tested with the aid of an E. coli–Sulfolobus shuttle vector in reporter gene experiments. As the most suitable inducible promoter a maltose inducible promoter was identified. It comprises 266 bp of the sequence upstream of the gene coding for the maltose/maltotriose binding protein (mbp, Saci_1165). Induction is feasible with either maltose or dextrin at concentrations of 0.2–0.4%. The highest increase in expression (up to 17-fold) was observed in late exponential and stationary phase around 30–50 h after addition of dextrin. Whereas in the presence of glucose and xylose higher basal activity and reduced inducibility with maltose is observed, sucrose can be used in the growth medium additionally without affecting the basal activity or the inducibility. The minimal promoter region necessary could be narrowed down to 169 bp of the upstream sequence. The ABCE1 protein from S. solfataricus was successfully expressed under control of the inducible promoter with the shuttle vector pC and purified from the S. acidocaldarius culture with a yield of about 1 mg L⁻¹ culture. In addition we also determined the promoter strength of several constitutive promoters.     

耐辐射奇球菌recA基因的克隆、表达及其对recA缺损大肠杆菌辐射抗性的影响

将耐辐射奇球菌(Deinococcus radiodurans)recA基因克隆到表达质粒pET15b中,并在Escherichia coli HMS中高效表达了可溶性的RecA重组蛋白。同时将recA基因通过穿梭质粒pRADZ3导入recA缺损E.coli TG2细胞中,Western印迹实验显示RecA蛋白能够在不需要诱导剂IPTG的条件下稳定表达。辐射抗性实验表明,D.radiodurans的recA基因在E.coli细胞中的表达能够完全补偿recA缺损E.coli辐射抗性能力。     

Stable Escherichia coli-Clostridium acetobutylicum shuttle vector for secretion of murine tumor necrosis factor alpha.

Recombinant plasmids were constructed to secrete mouse tumor necrosis factor alpha (mTNF-alpha) from Clostridium acetobutylicum. The shuttle plasmids contained the clostridial endo-beta1, 4-glucanase (eglA) promoter and signal sequence that was fused in frame to the mTNF-alpha cDNA. The construction was first tested in Escherichia coli and then introduced in C. acetobutylicum DSM792 by electroporation. Controls confirmed the presence and stability of the recombinant plasmids in this organism. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis and an in vitro cytotoxic assay were used to monitor expression and secretion of mTNF-alpha during growth. Significant levels of biologically active mTNF-alpha were measured in both lysates and supernatants. The present report deals with investigations on the elaboration of a gene transfer system for cancer treatment using anaerobic bacteria.