Modification of length, hydrophobic properties and electric charge of Bacillus subtilis alpha-amylase signal peptide and their different effects on the production of secretory proteins in B. subtilis and Escherichia coli cells

Summary Bacillus subtilis -amylase signal peptide, which consists of 33 amino acids, is functional in Escherichia coli cells.Lysine, glutamic acid, leucine, leucyl-leucine, or leucyl-leucyl-leucine was inserted between positions 28 and 29 of the -amylase signal peptide using site directed mutagenesis. DNAs encoding the wild-type and modified signal peptides were then fused in-frame to DNAs encoding the mature regions of the -lactamase of pBR322 and a thermostable -amylase. The secretion of -lactamase in E. coli cells was more inhibited by the modified signal peptides than that in B. subtilis cells, although the degree of inhibition varied and the inhibitory effect of each signal peptide was found to be similar in the two strains. In contrast, the difference in the inhibitory effect of each modified signal peptide was no longer detected in the case of the production of thermostable -amylase, except for the insertion of glutamic acid. Nearly 50% of thermostable -amylase in the precursor form was accumulated in the intracellular fraction of E. coli cells containing the DNAs for the modified signal peptides. The insertion of glutamic acid inhibited the secretion of the two enzymes in both B. subtilis and E. coli cells.     

The influence of pH and external H+ concentration on caesium toxicity and accumulation inEscherichia coli andBacillus subtilis

Summary Toxicity screening ofEscherichia coli NCIB 9484 andBacillus subtilis 007, NCIB 168 and NCIB 1650 has shown Cs⁺ to be the most toxic Group 1 metal cation. However, toxicity and accumulation of Cs⁺ by the bacteria was affected by two main external factors; pH and the presence of other monovalent cations, particularly K⁺. Over the pH range 6–9 bothE. coli andB. subtilis showed increasing sensitivity towards caesium as the pH was raised. The presence of K⁺ and Na⁺ in the laboratory media used lowered caesium toxicity and lowered acumulation of the metal. In order to assess accurately Cs⁺ toxicity towards the bacterial strains it was therefore necessary to define the K⁺:Cs⁺ ratio in the external medium. The minimum inhibitory K⁺:Cs⁺ concentration ratio for theBacillus strains tested was in the range 12–13 whileE. coli had a minimum inhibitory K⁺:Cs⁺ concentration ratio of 16.     

Effects of antibiotics in soil on the population dynamics of transposon Tn5 carrying Pseudomonas fluorescens

The effects of kanamycin and streptomycin added to soil on the survival of transposon Tn5 modified Pseudomonas fluorescens strain R2f were investigated. Kanamycin in high (180 g g^-1 dry soil) or low (18 g g^-1) concentration or streptomycin in low concentration in Ede loamy sand soil had no noticeable effect on inoculant population dynamics in soil and wheat rhizosphere, whereas streptomycin in high concentration had a consistent significant stimulatory effect, in particular in the wheat rhizosphere. Streptomycin exerted its effect by selecting P. fluorescens with Tn5 insertion whilst suppressing the unmodified sensitive parent strain, as evidenced by comparing the behaviour of these two strains in separate and mixed inoculation studies.Soil textural type influenced the effect of streptomycin on the Tn5 carrying inoculant; the effect was consistently detected in rhizosphere and rhizoplane samples of wheat grown in Ede loamy sand after 7 and 14 days incubation, whereas it was only apparent after 7 days in rhizoplane or rhizosphere (and bulk soil) samples of wheat grown in two silt loam soils. Modification of soil pH by the addition of CaCO₃ or bentonite clay resulted in an enhancement of the selective effect of streptomycin by CaCO₃ and its abolishment by bentonite clay.The addition to soil of malic acid or wheat root exudate, but not of glucose, enhanced the streptomycin selective effect on the Tn5-modified P. fluorescens strain. Neither the streptomycin producer Streptomyces griseus nor two non-inhibiting mutants obtained following UV irradiation affected the dynamics of P. fluorescens (chr::Tn5) in soil and wheat rhizosphere.The effect of streptomycin in soil on inoculant Tn5 carrying bacteria depends on conditions such as soil type, the presence of (wheat) root exudates and the type of available substrate.     

Translational coupling in a penP-lacZ gene fusion in Bacillus subtilis and Escherichia coli: Use of AUA as a restart codon

Summary An out-of-frame fusion between the penicillinase gene (penP) of Bacillus licheniformis and the -galactosidase gene (lacZ) of Escherichia coli was shown to direct the synthesis of an active -galactosidase with the same electrophoretic mobility as the wild-type protein, both in B. subtilis and E. coli. This synthesis was dependent on translation of the truncated penP gene and appeared to result from translational coupling. The fusion point between penP and lacZ contained the sequence AUAG, in which the UAG and AUA codons were in-frame with the penP and lacZ reading units, respectively. N-terminal amino acid sequence analysis of the -galactosidase protein suggested that, both in B. subtilis and E. coli, reinitiation of translation occurred at the AUA codon present at the gene fusion point.     

Characterization of the levanase gene of Bacillus subtilis which shows homology to yeast invertase

Summary The structural gene for the enzyme levanase of Bacillus subtilis (SacC) was cloned in Escherichia coli. The cloned gene was mapped by PBS1 transduction near the sacL locus on the B. subtilis chromosome, between leu4 and aroD. Expression of the enzyme was demonstrated both in B. subtilis and in E. coli. The presence of sacC allowed E. coli to grow on sucrose as the sole carbon source. The complete nucleotide sequence of sacC was determined. It includes an open reading frame of 2,031 bp, coding for a protein with calculated molecular weight of 75,866 Da, including a putative signal peptide similar to precursors of secreted proteins found in Bacilli. The apparent molecular weight of purified levanase is 73 kDa. The sacC gene product was characterized in an in vitro system and in a minicellproducing strain of E. coli, confirming the existence of a precursor form of levanase of about 75 kDa. Comparison of the predicted aminoacid sequence of levanase with those of the two other known -D-fructofuranosidases of B. subtilis indicated a homology with sucrase, but not with levansucrase. A stronger homology was detected with the N-terminal region of yeast invertase, suggesting the existence of a common ancestor.     

Cloning and nucleotide sequence of the ptsG gene of Bacillus subtilis

Summary The ptsG gene of Bacillus subtilis encodes Enzyme II^G1c of the phosphoenolpyruvate: glucose phosphotransferase system. The 3 end of the gene was previously cloned and the encoded polypeptide found to resemble the Enzymes III^Glc of Escherichia coli and Salmonella typhimurium. We report here cloning of the complete ptsG gene of B. subtilis and determination of the nucleotide sequence of the 5 end. These results, combined with the sequence of the 3 end of the gene, revealed that ptsG encodes a protein consisting of 699 amino acids and which is similar to other Enzymes II. The N-terminal domain contains two small additional fragments, which share no similarities with the closely related Enzymes II^Glc and II^Nag of E. coli but which are present in the II^G1c-like protein encoded by the E. coli malX gene.     

The Bacillus subtilis small cytoplasmic RNA gene and ''dnaX'' map near the chromosomal replication origin.

Summary TheBacillus subtilis small cytoplasmic RNA (scRNA) has an important, although not yet defined function in protein biosynthesis. Here we describe the mapping of the single copy scRNA gene and the flanking homolog todnaZX ofEscherichia coli, termed dnaX. The scRNA gene region of aB. subtilis wild-type strain was marked with acat gene and mapped by scoring chromosomal co-transformation rates of various mutant strains to chloramphenicol resistance and loss of the mutant phenotypes, respectively. This analysis, together with anEcoRI map comparison, places the scRNA gene anddnaX in the vicinity ofrecM near the replication origin region ofB. subtilis.     

Overproduction and secretion of Bacillus circulans endo-β-1,3-1,4-glucanase gene (bglBC1) in B. subtilis and B. megaterium

A gene coding for endo--1,3-1,4-glucanase (lichenase) containing a recombinant plasmid, pLL200K, was transferred from Bacillus circulans into a new shuttle plasmid, pLLS920, by ligating linearized DNAs of pLL200K and pUB110. B. subtilis RM125 and B. megaterium ATCC14945 transformed with pLLS920 produced the endo--1,3-1,4-glucanase. The enzyme was produced during active growth with maximum activity. The B. subtilis (pLLS920) enzyme was 83 times (8522 mU ml^–1) more active than that of the gene donor cells (103 mU ml^–1). The B. megaterium (pLLS920) enzyme was 7 times (735 mU ml^–1) more active than that of the gene donor cells. While E. coli secreted only about 10% of the produced enzyme, B. subtilis excreted the enzyme completely into the medium and B. megaterium by about 98%. The plasmid pLLS920 was stable in B. megaterium (98%), and in B. subtilis (51%) but not in E. coli (29%).     

Conditions that influence bacterial luminescence in the presence of blood serum

Conditions that influence the luminescence of natural and recombinant luminescent bacteria in the presence of blood serum were studied. In general, blood serum quenched the luminescence of the marine Photobacterium phosphoreum and the recombinant Escherichia coli strains harboring the luminescent system genes of Photobacterium leiognathi, but enhanced the luminescence of the soil bacterium Photorhabdus luminescens Zm1 and the recombinant E. coli strain harboring the lux operon of P. luminescens Zm1. The quenching effect of blood serum increased with its concentration and the time and temperature of incubation. The components of blood serum that determine the degree and specificity of its action on bacterial luminescence were identified.__________Translated from Mikrobiologiya, Vol. 74, No. 2, 2005, pp. 191–197.Original Russian Text Copyright © 2005 by Deryabin, Polyakov.     

Quantitative criteria for estimating the effectiveness of bioluminescence expression in natural and transgenic luminescent bacteria

Computational coefficients for estimating the effectiveness of bioluminescence expression in natural luminescent bacteria Photobacterium leiognathi 54 and transgenic strain E. coli Z905/pPHL7 bearing lux-operon in a multicopy plasmid are suggested and their use at molecular, cell, and population levels was considered. It was shown that at the population level, all transgenic variants have an advantage over natural variants of P. leiognathi 54 irrespective of the type of lux-operon regulation. At the cell level, the effectiveness of bioluminescence expression in the bright and dim variants of the transgenic strain increased by several orders. At the level of one lux-operon, the effectiveness of expression in the bright variant of the transgenic strain is substantially higher than in the natural bright variant; in dim variants, the efficiency values are similar; the effectiveness of bioluminescence expression in the dark variant of E. coli Z905-2/pPHL7 is by two orders of magnitude lower than in the dark variant of P. leiognathi 54.     

Cloning and characterization of a secY homolog from Chlamydia trachomatis

Characterization of the genes involved in the process of protein translocation is important in understanding their structure-function relationships. However, little is known about the signals that govern chlamydial gene expression and translocation. We have cloned a 1.7 kb HindIII-PstI fragment containing the secY gene of Chlamydia trachomatis. The complete nucleotide sequence reveals three open reading frames. The amino acid sequence shows highest homology with Escherichia coli proteins L15, SecY and S13, corresponding to the spc- ribosomal protein operons. The product of the C. trachomatis secY gene is composed of 457 amino acids with a calculated molecular mass of 50 195 Daltons. Its amino acid sequence shows 27.4% and 35.7% identity to E. coli and Bacillus subtilis SecY proteins, respectively. The distribution of hydrophobic amino acids in the C. trachomatis secY gene product is suggestive of it being an integral membrane protein with ten transmembrane segments, the second, third and seventh membrane segments sharing > 45% identity with E. coli SceY. Our results suggest that despite evolutionary differences, eubacteria share a similar protein export apparatus.     

Electroporation of Bradyrhizobium japonicum

Summary Electroporation offers a fast, efficient and reproducible way to introduce DNA into bacteria. We have successfully used this technique to transform two commercially important strains of Bradyrhizobium japonicum, the nitrogen-fixing soybean symbiont. Initially, electroporation conditions were optimized using plasmid DNA which had been prepared from the same B. japonicum strain into which the{imDNA was to b}e transformed. Efficiencies of 10⁵-10⁶ transformants/g DNA were obtained for strains USDA 110 and 61A152 with ready-to-use frozen cells. Successful electroporation of B. japonicum with plasmid DNA prepared from Escherichia coli varied with the E. coli strain from which the plasmid was purified. The highest transformation efficiencies (10⁴ transformants/g DNA) were obtained using DNA prepared from a dcm ^– dam ^– strain of E. coli. This suggests that routine isolation of DNA from an E. coli strain incapable of DNA modification should help in increasing transformation efficiencies for other strains of bacteria where DNA restriction appears to be a significant obstacle to successful transformation. We have also monitored the rate of spontaneous mutation in electroporated cells and saw no significant difference in the frequency of streptomycin resistance for electroporated cells compared to control cells.     

The Effects of Regulatory Proteins RcsA and RcsB on the Expression of the Vibrio fischeri lux Operon in Escherichia coli

A study was made of the effect of RcsA and RcsB on the Vibrio fischeri lux expression in Escherichia coli. RcsA suppressed the LuxR activity and thereby inhibited expression of the lux genes coding for luciferase and reductase. In osmotic shock, RcsA–RcsB activated lux expression and, consequently, the bioluminescence of E. coli cells in the early log phase.     

Synthesis of unique proteins at the onset of carbon starvation inEscherichia coli

Summary Escherichia coli bulk protein synthesis continued during the first 3–4 h of carbon starvation at 50–75% that of non-starved (growing) cells. Two-dimensional gel electrophoresis analysis of in vivo pulse-labelled proteins resolved at least 30 polypeptides with new or increased synthesis, relative to total protein synthesis, during this time. Among these polypeptides were several that were also synthesized by ethanol-treatedE. coli (heat-shock proteins). In addition, a number of unique polypeptides were synthesized by carbon-starved cells. These starvation proteins may be involved in survival of the starving bacteria.     

Introduction of genes for leucine biosynthesis from Clostridium pasteurianum into C. acetobutylicum by cointegrate conjugal transfer

Summary A Clostridium pasteurianum gene bank was constructed in Escherichia coli, using plasmid pAT153, and several chromosomal fragments found which complemented both leuB and leuC mutations in auxotrophic E. coli K12 strains. No fragments capable of complementing leuA or leuD mutations were identified. Conjugal transfer of the LeuB/leuC genes from Bacillus subtilis into two different Leu^- C. acetobutylicum auxotrophic strains was elicited by their incorporation into a large plasmid cointegrate composed of the conjugal plasmid pAM1 and a specially constructed gram-positive, replication-deficient plasmid, pMTL21 EC. Inheritance of the cointegrate plasmid restored one of the auxotrophic C. acetobutylicum strains to prototrophy. The second strain remained Leu^-.     

Secretory expression in Escherichia coli and Bacillus subtilis of human interferon alpha genes directed by staphylokinase signals

Summary A DNA segment covering the signal sequence coding region, the ribosome binding site, and the promoter of the staphylokinase (sak) 42D gene (Behnke and Gerlach 1987) was cloned into pUC19 to form a portable expression-secretion unit (ESU). Fusion of human interferon α₁ (hIFNα₁) and hybrid hIFNα_1/2 genes to thissak ESU resulted in secretory expression of the two gene products in bothEscherichia coli andBacillus subtilis. While most of the IFNα was exported to the periplasmic space ofE. coli, about 99% was secreted to the culture medium by recombinantB. subtilis strains. The total yield inE. coli was 1.2×10⁵ IU/ml. This level of expression and export led to instability of the recombinant strains that was spontaneously relieved in vivo by inactivation of thesak ESU through insertion of an IS1 element. No such instability was observed withB. subtilis although expression and secretion levels reached even 3×10⁶ IU/ml. Proteolytic degradation of IFNα by extracellular proteases was avoided by a combination of constitutive expression and secretion during the logarithmic growth phase and the use of exoprotease-reduced host strains. The IFNα₁ protein purified fromB. subtilis culture supernatant was correctly processed, carried the expected 11 amino acid N-terminal elongation that resulted from DNA manipulations and proved to be homogenous in Western blotting experiments. The same recombinant plasmid that directed efficient secretion of hIFNα₁ inB. subtilis gave poor yields when introduced intoStreptococcus sanguis.     

The type III secretion system is involved in Escherichia coli K1 interactions with Acanthamoeba

The type III secretion system among Gram-negative bacteria is known to deliver effectors into host cell to interfere with host cellular processes. The type III secretion system in Yersina, Pseudomonas and Enterohemorrhagic Escherichia coli have been well documented to be involved in the bacterial pathogenicity. The existence of type III secretion system has been demonstrated in neuropathogenic E. coli K1 strains. Here, it is observed that the deletion mutant of type III secretion system in E. coli strain EC10 exhibited defects in the invasion and intracellular survival in Acanthamoeba castellanii (a keratitis isolate) compared to its parent strain. Next, it was determined whether type III secretion system plays a role in E. coli K1 survival inside Acanthamoeba during the encystment process. Using encystment assays, our findings revealed that the type III secretion system-deletion mutant exhibited significantly reduced survival inside Acanthamoeba cysts compared with its parent strain, EC10 (P < 0.01). This is the first demonstration that the type III secretion system plays an important role in E. coli interactions with Acanthamoeba. A complete understanding of how amoebae harbor bacterial pathogens will help design strategies against E. coli transmission to the susceptible hosts.