Structural basis for operator and antirepressor recognition by Myxococcus xanthus CarA repressor

Blue light induces carotenogenesis in Myxococcus xanthus. The carB operon encodes all but one of the structural genes involved, and its expression is regulated by the CarA-CarS repressor-antirepressor pair. In the dark, CarA-operator binding represses carB. CarS, produced on illumination, interacts physically with CarA to dismantle the CarA-operator complex and activate carB. Both operator and CarS bind to the autonomously folded N-terminal domain of CarA, CarA(Nter), which in excess represses carB. Here, we report the NMR structure of CarA(Nter), and map residues that interact with operator and CarS by NMR chemical shift perturbations, and in vivo and in vitro analyses of site-directed mutants. We show CarA(Nter) adopts the winged-helix topology of MerR-family DNA-binding domains, and conserves the majority of the helix-turn-helix and wing contacts with DNA. Tellingly, helix alpha2 in CarA, a key element in operator DNA recognition, is also critical for interaction with CarS, implying that the CarA-CarS protein-protein and the CarA-operator protein-DNA interfaces overlap. Thus, binding of CarA to operator and to antirepressor are mutually exclusive, and CarA may discern structural features in the acidic CarS protein that resemble operator DNA. Repressor inactivation by occluding the DNA-binding region may be a recurrent mechanism of action for acidic antirepressors.     

The N terminus of Myxococcus xanthus CarA repressor is an autonomously folding domain that mediates physical and functional interactions with both operator DNA and antirepressor protein

Expression of the Myxococcus xanthus carB operon, which encodes the majority of the enzymes involved in light-induced carotenogenesis, is down-regulated in the dark by the CarA repressor binding to its bipartite operator. CarS, produced on illumination, relieves repression of carB by physically interacting with CarA to dis-mantle CarA-DNA complexes. Here, we demonstrate that the N- and C-terminal portions of CarA are organized as distinct structural and functional domains. Specifically, we show that the 78 N-terminal residues of CarA, CarA(Nter), form a monomeric, highly helical, autonomously folding unit with significant structural stability. Significantly, CarA(Nter) houses both the operator and CarS binding specificity determinants of CarA. CarA(Nter) binds operator with a lower affinity than whole CarA, and the CarA(Nter)-CarS complex has a 1:1 stoichiometry. In vitro, sufficiently high concentrations of CarA(Nter) block M. xanthus RNA polymerase-promoter binding, and this is relieved by CarS. In vivo, substitution of the gene carA by that for CarA(Nter) results in constitutive expression of carB just as in a carA-deleted background. However, re-engineering the latter strain to overexpress CarA(Nter) restores repression of carB. Thus, the 78-residue N-terminal portion of CarA is an autonomously folded, dual function domain that orchestrates specific DNA-protein and protein-protein interactions and, when overexpressed, can be functionally competent in vivo.     

Light-induced carotenogenesis in Myxococcus xanthus: evidence that CarS acts as an anti-repressor of CarA

In the bacterium Myxococcus xanthus, carotenoids are produced in response to illumination, as a result of expression of the crt carotenoid biosynthesis genes. The majority of crt genes are clustered in the crtEBDC operon, which is repressed in the dark by CarA. Genetic data suggest that, in the light, CarS is synthesized and achieves activation of the crtEBDC operon by removing the repressive action of CarA. As CarS contains no known DNA-binding motif, the relief of CarA-mediated repression was postulated to result from a direct interaction between these two proteins. Use of the yeast two-hybrid system demonstrated direct interaction between CarA and CarS. The two-hybrid system also implied that CarA and, possibly, CarS are capable of homodimerization. Direct evidence for CarS anti-repressor action was provided in vitro. A glutathione S-transferase (GST)-CarA protein fusion was shown to bind specifically to a palindromic operator sequence within the crtEBDC promoter. CarA was prevented from binding to its operator, and prebound CarA was removed by the addition of purified CarS. CarS is therefore an anti-repressor.     

Comparison of the sequences of the nagE operons from Klebsiella pneumoniae and Escherichia coli K12: enhanced variability of the enzyme IIN-acetylglucosamine in regions connecting functional domains.

Summary The nagE operon, encoding the enzyme II specific for N-acetylglucosamine (EII^Nag), and adjacent DNA from the chromosome of Klebsiella pneumoniae were sequenced and compared with the corresponding sequence from Escherichia colt K12. The deduced EII^Nag sequences differ in 72 out of 651 amino acids, the K. pneumoniae sequence being three residues longer. The amino acid differences were distributed unevenly, and were most frequent in regions connecting the three functional domains of the protein. In the nagE-nagB intergenic region, two promoter, two operator, and one CAP consensus sequence with regulatory functions were highly conserved. The nag structural genes from both species were very similar (83% DNA similarity; 89% amino acid similarity) except for frequent AT to GC exchanges in the wobble base of codons in K. pneumoniae DNA relative to the E. coli DNA.     

Lac repressor–operator interaction: N-terminal peptide backbone 1H and 15N chemical shifts upon complex formation with DNA

When the lac repressor tetramer is bound to its DNA operator, methylation protection shows the nearly symmetric operator half-sites are contacted asymmetrically. This asymmetric binding results from the DNA sequence/structure. The reported structure of lac repressor N-terminal fragment and an 11 base-pair operator left half-site provides no information concerning the effect of asymmetric binding, from left operator half-site to right half-site, upon the polypeptide backbone. We isolated uniformly ¹⁵N labeled 56 amino acid wild-type (HP56WT) and 64 residue mutant [Pro3>Tyr3] (HP64tyr3) lac repressor N-terminal DNA binding fragments for ¹H/¹⁵N NMR studies with the left and right operators separately. Spectral coincidence of these longer fragments, indicating structural similarity with a protease derived 51 amino acid fragment for which the amide correlations are assigned, allows for assignment of the common amide resonances. For both HP56WT and HP64tyr3, spectral overlap of the amide correlation peaks reveals the polypeptide backbones of the uncomplexed polypeptides are structurally similar. Likewise the complexes of the peptides to the 11 base-pair lac left operator half-site are similar. On the other hand, complexes of HP56WT and the left compared to the right lac operator half-site show different residues of the polypeptide are affected by binding different half-sites of the operator. Thus, the DNA sequence/structure transmits asymmetry to the polypeptide backbone of the interacting protein.     

Interaction of the trp repressor with trp operator DNA fragments

The interaction of the trp repressor with several trp operator DNA fragments has been examined by DNA gel retardation assays and by circular dichroism, in the absence and presence of the corepressor l-tryptophan. The holorepressor binds stoichiometrically to both the trpO and aroH operators, forming 1:1 complexes. In the presence of excess protein, additional complexes are formed with these operator fragments. The relative electrophoretic mobilities of the 1:1 complexes differ significantly for trp and aroH operators, indicating that they differ substantially in gross structure. A mutant trp operator, trpO ^c, has low affinity for the holorepressor, and forms only complexes with stoichiometries of 2:1 (repressor: DNA) or higher, which have a very low electrophoretic mobility. Specific binding is also accompanied by a large increase in the intensity of the near ultraviolet circular dichroism, with only a small blue shift, which is consistent with significant changes in the conformation of the DNA. Large changes in the chemical shifts of three resonances in the ³¹P NMR spectrum of both the trp operator and the aroH operator occur on adding repressor only in the presence of L-tryptophan, consistent with localised changes in the backbone conformation of the DNA.Abbreviations CD circular dichroism - trpO, trpR aroH trp operator fragments - trpO ^c trpMH mutant trp operator fragments     

Coenzyme B12-dependent and independent photoregulation of carotenogenesis across Myxococcales

Light-induced carotenogenesis in Myxococcus xanthus is controlled by the B₁₂-based CarH repressor and photoreceptor, and by a separate intricate pathway involving singlet oxygen, the B₁₂-independent CarH paralogue CarA and various other proteins, some eukaryotic-like. Whether other myxobacteria conserve these pathways and undergo photoregulated carotenogenesis is unknown. Here, comparative analyses across 27 Myxococcales genomes identified carotenogenic genes, albeit arranged differently, with carH often in their genomic vicinity, in all three Myxococcales suborders. However, CarA and its associated factors were found exclusively in suborder Cystobacterineae, with carA-carH invariably in tandem in a syntenic carotenogenic operon, except for Cystobacter/Melittangium, which lack CarA but retain all other factors. We experimentally show B₁₂-mediated photoregulated carotenogenesis in representative myxobacteria, and a remarkably plastic CarH operator design and DNA binding across Myxococcales. Unlike the two characterized CarH from other phyla, which are tetrameric, Cystobacter CarH (the first myxobacterial homologue amenable to analysis in vitro) is a dimer that combines direct CarH-like B₁₂-based photoregulation with CarA-like DNA binding and inhibition by an antirepressor. This study provides new molecular insights into B₁₂-dependent photoreceptors. It further establishes the B₁₂-dependent pathway for photoregulated carotenogenesis as broadly prevalent across myxobacteria and its evolution, exclusively in one suborder, into a parallel complex B₁₂-independent circuit.     

Inducible nickel resistance in a river isolate of India phylogenetically ascertained as a novel strain of Acinetobacter junii

Summary A gram negative, motile, short rod-shaped, and nickel resistant (tolerating 6.5 mM Ni²⁺) bacterium, strain BB1A, was isolated from the waters of the River Torsa in Hashimara, Jalpaiguri district, West Bengal, India. The isolate BB1A was identified as a strain of Acinetobacter junii following detailed analysis of morphological, physio-biochemical and 16S rRNA gene sequence. The expression of nickel resistance in BB1A was inducible by exposure to nickel chloride at a concentration as low as 50 μM Ni²⁺. The other metal ions, Cu²⁺, Zn²⁺, or Pb²⁺ at a concentration range of 20–30 μM, also induced the nickel resistance system in this bacterium. Southern hybridizations of BB1A genomic DNA with digoxigenin-dUTP labeled DNA probes specific for well known nickel resistance determinants, cnr, ncc or nre, resulted in no detectable signal, but nir specific probe yielded weak hybridization signal with restricted genomic DNA of BB1A. The isolate BB1A, therefore, carries out a novel induction phenomenon of nickel resistance and presumably with a nickel resistance genetic system different from that previously characterized in other bacteria.     

Comparison of the cell surface barrier and enzymatic modification system inBrevibacterium flavum andB. lactofermentum

To investigate impediments to plasmid transformation inBrevibacterium flavum BF4 andB. lactofermentum BL1, cell surface barriers were determined by measuring growth inhibition whilst enzymatic barriers were determined by comparing DNA methylation properties.B. lactofermentum was more sensitive to growth inhibition by glycine thanB. flavum. Release of cellular proteins during sonication was more rapid forB. lactofermentum than forB. flavum. Plasmid DNA (pCSL17) isolated fromB. flavum transformed recipient McrBC⁺ strains ofEscherichia coli with lower efficiency than McrBC⁻.McrBC digestion of this DNA confirmed thatB. flavum contain methylated cytidines in the target sequence ofMcrBC sequences butB. lactofermentum contained a different methylation pattern. DNA derived from theB. lactofermentum transformed recipient EcoKR⁺ strains ofE. coli with lower efficiency than EcoKR⁻, indicating the presence of methylated adenosines in the target sequence of EcoK sequences. The present data describe the differences in the physical and enzymatic barriers between two species of corynebacteria and also provide some insight into the successful foreign gene expression in corynebacteria.     

Genetic and molecular events in transformation ofHaemophilus influenzae with plasmid RSF 0885 carrying cloned segments of chromosomal DNA

InHaemophilus influenzae genetic transformation for a plasmid marker is significantly increased when recombinant plasmid RSF 0885 DNA carrying chromosomal DNA segments is used instead of the plasmid DNA alone. Chromosomal DNA by itself, added even a few minutes after the addition of plasmid DNA to competent cells, stopped further uptake of the plasmid DNA. These observations are consistent with the idea that plasmid RSF 0885 contains a ‘degenerate’ version of the required eleven base-pair ‘uptake sequence’ inHaemophilus. The transformation activity of the recombinant plasmid DNA is recoverable after its entry into cells, although the specific biological activity of the re-isolated plasmid DNA is less than that of the parental recombinant plasmid DNA. Therec 1 gene function of the host is necessary for obtaining higher transformation frequencies with recombinant DNA from five different clones. The reduced transformation frequencies seen inrec 1 ^- strain is not all due to a permanent damage to the donor DNA since the recovered recombinant plasmid DNA from such cells can increase the transformation efficiency onrec 1 ⁺ strain.     

<Emphasis Type="Italic">Marinobacter zhanjiangensis</Emphasis> sp. nov., a marine bacterium isolated from sea water of a tidal flat of the South China Sea

A novel Gram-negative, catalase- and oxidase-positive, non-sporulating, rod-shaped, aerobic bacterium, designated strain JSM 078120^T, was isolated from sea water collected from a tidal flat of Naozhou Island, South China Sea. Growth occurred with 1–15% (w/v) total salts (optimum, 2–4%), at pH 6.0–10.0 (optimum, pH 7.5) and at 4–35°C (optimum, 25–30°C). The major cellular fatty acids were C_18:1 ω9c, C_16:0, C_12:0 3-OH and C_16:1 ω7c. The predominant respiratory quinone was ubiquinone Q-9, and the genomic DNA G + C content was 60.6 mol%. Phylogenetic analysis based on 16S rRNA gene sequences indicated that strain JSM 078120^T should be assigned to the genus Marinobacter, being related most closely to the type strains of Marinobacter segnicrescens (sequence similarity 98.2%), Marinobacter bryozoorum (97.9%) and Marinobacter gudaonensis (97.6%). The sequence similarities between the novel isolate and the type strains of other recognized Marinobacter species ranged from 96.7 (with Marinobacter salsuginis) to 93.3% (with Marinobacter litoralis). The levels of DNA–DNA relatedness between strain JSM 078120^T and the type strains of M. segnicrescens, M. bryozoorum and M. gudaonensis were 25.3, 20.6 and 18.8%, respectively. The combination of phylogenetic analysis, DNA–DNA relatedness, phenotypic characteristics and chemotaxonomic data supported the view that strain JSM 078120^T represents a novel species of the genus Marinobacter, for which the name Marinobacter zhanjiangensis sp. nov. is proposed. The type strain is JSM 078120^T (= CCTCC AB 208029^T = DSM 21077^T = KCTC 22280^T). The GenBank/EMBL/DDBJ accession number for the 16S rRNA gene sequence of strain JSM 078120^T is FJ425903.     

Identification and characterization of a novel nitrilase from <Emphasis Type="Italic">Pseudomonas fluorescens</Emphasis> Pf-5

Nitrile groups are catabolized to the corresponding acid and ammonia through one-step reaction involving a nitrilase. Here, we report the use of bioinformatic and biochemical tools to identify and characterize the nitrilase (NitPf5) from Pseudomonas fluorescens Pf-5. The nitPf5 gene was identified via sequence analysis of the whole genome of P. fluorescens Pf-5 and subsequently cloned and overexpressed in Escherichia coli. DNA sequence analysis revealed an open-reading frame of 921 bp, capable of encoding a polypeptide of 307 amino acids residues with a calculated isoelectric point of pH 5.4. The enzyme had an optimal pH and temperature of 7.0°C and 45°C, respectively, with a specific activity of 1.7 and 1.9 μmol min⁻¹ mg protein⁻¹ for succinonitrile and fumaronitrile, respectively. The molecular weight of the nitrilase as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and gel filtration chromatography was 33,000 and 138,000 Da, respectively, suggesting that the enzyme is homotetrameric. Among various nitriles, dinitriles were the preferred substrate of NitPf5 with a K _m = 17.9 mM and k _cat/K _m = 0.5 mM⁻¹ s⁻¹ for succinonitrile. Homology modeling and docking studies of dinitrile and mononitrile substrate into the active site of NitPf5 shed light on the substrate specificity of NitPf5. Although nitrilases have been characterized from several other sources, P. fluorescens Pf-5 nitrilase NitPf5 is distinguished from other nitrilases by its high specific activity toward dinitriles, which make P. fluorescens NitPf5 useful for industrial applications, including enzymatic synthesis of various cyanocarboxylic acids.     

Preliminary characterization of a thermostable DNA polymerase I from a mesophilic Bacillus sphaericus strain C3-41

A thermostable DNA polymerase I from a mesophilic Bacillus sphaericus strain C3-41 was characterized in this study. The polI was cloned, sequenced and over-expressed in Escherichia coli. The expressed 110 kDa fusion protein of PolI was stable at 70°C for 1 h. Compared with DNA polymerase I of E. coli (TaKaRa), the relative polymerase activity of this PolI was 3.33 ± 0.1 RFU μl⁻¹ at 37°C using fluorescent quantitative analysis. It showed higher polymerase activity than E. coli PolI at higher temperature, with a relative activity of 3.75 ± 0.1 RFU μl⁻¹ at 70°C. The polI sequence analysis and the protein structure prediction indicated that this protein had a high similarly to other PolI from thermophilic micro-organisms. This information is of importance for future study for evolution of the house-keeping gene polI in entomopathogenic bacterium B. sphaericus.     

<Emphasis Type="Italic">Halobacillus naozhouensis</Emphasis> sp. nov., a moderately halophilic bacterium isolated from a sea anemone

A moderately halophilic, Gram-positive, catalase- and oxidase-positive, rod-shaped, aerobic bacterium, designated strain JSM 071068^T, was isolated from a sea anemone (Anthopleura xanthogrammica) collected from the Naozhou Island on the Leizhou Bay in the South China Sea. Cells were motile by means of peritrichous flagella and formed ellipsoidal endospores lying in subterminal swollen sporangia. Strain JSM 071068^T was able to grow with 1–20% (w/v) total salts (optimum, 6–9%), at pH values of 6.0–10.0 (optimum, pH 7.5) and a temperature range of 10–35°C (optimum, 25°C). meso-Diaminopimelic acid was present in the cell-wall peptidoglycan. The predominant menaquinone was MK-7 and the major cellular fatty acids were anteiso-C_15:0, anteiso-C_17:0 and iso-C_15:0. The genomic DNA G + C content was 42.8 mol%. Phylogenetic analysis based on 16S rRNA gene sequence comparisons revealed that strain JSM 071068^T belonged to the genus Halobacillus. The 16S rRNA gene sequence similarities between strain JSM 071068^T and the type strains of the recognized Halobacillus species ranged from 97.9% (with Halobacillus alkaliphilus) to 95.3% (with Halobacillus kuroshimensis). The levels of DNA–DNA relatedness between the new isolate and the type strains of H. alkaliphilus, Halobacillus campisalis, Halobacillus halophilus and Halobacillus seohaensis were 25.6, 22.1, 10.8 and 13.2%, respectively. The combination of phylogenetic analysis, DNA–DNA relatedness, phenotypic characteristics and chemotaxonomic data supported the view that strain JSM 071068^T represents a new species of the genus Halobacillus, for which the name Halobacillus naozhouensis sp. nov. is proposed, with JSM 071068^T (=DSM 21183^T =KCTC 13234^T) as the type strain. The GenBank/EMBL/DDBJ accession number for the 16S rRNA gene sequence of strain JSM 071068^T is EU925615.