Molecular analysis of the Escherichia coli ruvC gene, which encodes a Holliday junction-specific endonuclease.

The Escherichia coli ruvC gene is involved in DNA repair and recombination and encodes an endonuclease that resolves Holliday structure in vitro. The 2.8-kb chromosomal DNA fragment that encompasses the ruvC gene and its flanking regions was cloned and sequenced. Four open reading frames were identified in the order orf17-orf26-ruvC-orf23 immediately upstream of the ruvAB operon, and their orientations are the same as the ruvAB operon, except for orf23. Proteins encoded by orf17, orf26, and ruvC (orf19) were identified by the maxicell method, and their sizes agreed with those predicted from the DNA sequences. Among the open reading frames in this region, only ruvC is involved in the repair of UV-damaged DNA. ruvC appeared to be regulated by at least two promoters, but, in contrast to the ruvAB operon, ruvC is not regulated by the SOS system as demonstrated by operon fusions.     

Cloning and nucleotide sequence of the Enterobacter aerogenes signal peptidase II (lsp) gene.

In Escherichia coli, prolipoprotein signal peptidase is encoded by the lsp gene, which is organized into an operon consisting of ileS, lsp, and three open reading frames, designated genes x, orf-149, and orf-316. The Enterobacter aerogenes lsp gene was cloned and expressed in E. coli. The nucleotide sequence of the Enterobacter aerogenes lsp gene and a part of its flanking sequences were determined. A high degree of homology was found between the E. coli ileS-lsp operon and the corresponding genes in Enterobacter aerogenes. Furthermore, the same five genes which constitute an operon in E. coli were found in Enterobacter aerogenes in the same order.     

Recombination is essential for viability of an Escherichia coli dam (DNA adenine methyltransferase) mutant

Double mutants of Escherichia coli dam (DNA adenine methyltransferase) strains with ruvA, ruvB, or ruvC could not be constructed, whereas dam derivatives with recD, recF, recJ, and recR were viable. The ruv gene products are required for Holliday junction translocation and resolution of recombination intermediates. A dam recG (Holliday junction translocation) mutant strain was isolated but at a very much lower frequency than expected. The inviability of a dam lexA (Ind(-)) host was abrogated by the simultaneous presence of plasmids encoding both recA and ruvAB. This result indicates that of more than 20 SOS genes, only recA and ruvAB need to be derepressed to allow for dam mutant survival. The presence of mutS or mutL mutations allowed the construction of dam lexA (Ind(-)) derivatives. The requirement for recA, recB, recC, ruvA, ruvB, ruvC, and possibly recG gene expression indicates that recombination is essential for viability of dam bacteria probably to repair DNA double-strand breaks. The effect of mutS and mutL mutations indicates that DNA mismatch repair is the ultimate source of most of these DNA breaks. The requirement for recombination also suggests an explanation for the sensitivity of dam cells to certain DNA-damaging agents.     

First committed step of lipid A biosynthesis in Escherichia coli: sequence of the lpxA gene.

The min 4 region of the Escherichia coli genome contains genes (lpxA and lpxB) that encode proteins involved in lipid A biosynthesis. We have determined the sequence of 1,350 base pairs of DNA upstream of the lpxB gene. This fragment of DNA contains the complete coding sequence for the 28.0-kilodalton lpxA gene product and an upstream open reading frame capable of encoding a 17-kilodalton protein (ORF17). In addition there appears to be an additional open reading frame (ORF?) immediately upstream of ORF17. The initiation codon for lpxA is a GUG codon, and the start codon for ORF17 is apparently a UUG codon. The start and stop codons overlap between ORF? and ORF17, ORF17 and lpxA, and lpxA and lpxB. This overlap is suggestive of translational coupling and argues that the genes are cotranscribed. Crowell et al. (D.N. Crowell, W.S. Reznikoff, and C.R.H. Raetz, J. Bacteriol. 169:5727-5734, 1987) and Tomasiewicz and McHenry (H.G. Tomasiewicz and C.S. McHenry, J. Bacteriol. 169:5735-5744, 1987) have demonstrated that there are three similarly overlapping coding regions downstream of lpxB including dnaE, suggesting the existence of a complex operon of at least seven genes: 5'-ORF?-ORF17-lpxA-lpxB-ORF23-dnaE-ORF37-3 '.     

Genetic requirements of phage lambda red-mediated gene replacement in Escherichia coli K-12

Recombination between short linear double-stranded DNA molecules and Escherichia coli chromosomes bearing the red genes of bacteriophage lambda in place of recBCD was tested in strains bearing mutations in genes known to affect recombination in other cellular pathways. The linear DNA was a 4-kb fragment containing the cat gene, with flanking lac sequences, released from an infecting phage chromosome by restriction enzyme cleavage in the cell; formation of Lac(-) chloramphenicol-resistant bacterial progeny was measured. Recombinant formation was found to be reduced in ruvAB and recQ strains. In this genetic background, mutations in recF, recO, and recR had large effects on both cell viability and on recombination. In these cases, deletion of the sulA gene improved viability and strain stability, without improving recombination ability. Expression of a gene(s) from the nin region of phage lambda partially complemented both the viability and recombination defects of the recF, recO, and recR mutants and the recombination defect of ruvC but not of ruvAB or recQ mutants.     

Identification of sbcD mutations as cosuppressors of recBC that allow propagation of DNA palindromes in Escherichia coli K-12.

The function of an open reading frame (orf-45) located upstream of the sbcC gene of Escherichia coli was investigated. Mutations that inactivate sbcC improve the ability to propagate lambda red gam phage that carry a palindromic sequence in their DNA. They also act with sbcB mutations as cosuppressors of the defects in recombination, DNA repair, and cell viability associated with recBC mutations. A 1,282-bp cassette encoding resistance to kanamycin was used to disrupt orf-45. The mutation, which has a polar effect on the expression of sbcC, allowed stable propagation of palindromic lambda phage even when the sbcC gene product was provided in trans. Additional nonpolar mutations in orf-45 were isolated on the basis of their ability to improve the growth of recBC sbcB strains. These mutations also confer resistance to mitomycin C, allow efficient recombination in Hfr crosses, and facilitate stable propagation of palindromic phage. It is concluded that the products of orf-45 and sbcC are functionally related. The orf-45 gene is therefore renamed sbcD.     

Nucleotide sequence of the Escherichia coli gene for lipid A disaccharide synthase.

The lpxB gene of Escherichia coli, believed to be the structural gene for lipid A disaccharide synthase, is located in the min 4 region of the chromosome. It is adjacent to and clockwise of the lpxA gene, which is thought to encode UDP-N-acetylglucosamine acyltransferase. Preliminary evidence suggests that lpxA and lpxB are cotranscribed in the clockwise direction and thus constitute part of a previously unknown operon (D. N. Crowell, M. S. Anderson, and C. R. H. Raetz, J. Bacteriol. 168:152-159, 1986). We now report the complete nucleotide sequence of a 1,522-base-pair PvuII-HincII fragment known to carry the lpxB gene. This sequence contained an open reading frame of 1,149 base pairs, in agreement with the predicted size, location, and orientation of lpxB. There was a second open reading frame 5' to, and in the same orientation as, lpxB that corresponded to lpxA. The ochre codon terminating lpxA was shown to overlap the methionine codon identified as the initiation codon for lpxB, suggesting that these genes are cotranscribed and translationally coupled. A third open reading frame was also shown to begin at the 3' end of lpxB with analogous overlap between the opal codon terminating lpxB and the methionine codon that putatively initiates translation downstream of lpxB in the clockwise direction. These results argue that at least three genes constitute a translationally coupled operon in the min 4 region of the E. coli chromosome. The accompanying paper by Tomasiewicz and McHenry (J. Bacteriol. 169:5735-5744, 1987) presents 4.35 kilobases of DNA sequence, beginning at the 3' end of lpxB, and argues that dnaE and several other open reading frames may be members of this operon.     

A gene (ccmA) required for carboxysome formation in the cyanobacterium Synechocystis sp. strain PCC6803.

A high-CO2-requiring mutant, G7, of Synechocystis sp. strain PCC6803 capable of inorganic carbon transport but unable to utilize the intracellular inorganic carbon pool for photosynthesis was isolated. Transmission electron micrographs of the mutant indicated that the mutant does not have any carboxysomes. A clone (pHPG7) with a 7.5-kbp DNA insert that transforms the G7 mutant to the wild-type phenotype was isolated from a genomic library of wild-type Synechocystis sp. strain PCC6803. Complementation tests with subclones identified the mutation site in G7 within 208 bp. Sequencing of nucleotides in this region elucidated an open reading frame, designated ccmA, encoding a protein of 302 amino acids. Cloning and sequence analysis of the respective G7 gene revealed an A-to-G substitution that results in an Asp-to-Gly substitution in the deduced amino acid. The result indicated that the ccmA gene encodes a protein essential for the formation of carboxysomes. An open reading frame encoding a proline-rich protein of 271 amino acids was found downstream of the ccmA gene, but no ccm-like genes or rbc operon was found in this region.     

Modulation of DNA repair and recombination by the bacteriophage lambda Orf function in Escherichia coli K-12

The orf gene of bacteriophage lambda, fused to a promoter, was placed in the galK locus of Escherichia coli K-12. Orf was found to suppress the recombination deficiency and sensitivity to UV radiation of mutants, in a Delta(recC ptr recB recD)::P(tac) gam bet exo pae cI DeltarecG background, lacking recF, recO, recR, ruvAB, and ruvC functions. It also suppressed defects of these mutants in establishing replication of a pSC101-related plasmid. Compared to orf, the recA803 allele had only small effects on recF, recO, and recR mutant phenotypes and no effect on a ruvAB mutant. In a fully wild-type background with respect to known recombination and repair functions, orf partially suppressed the UV sensitivity of ruvAB and ruvC mutants.     

Molecular characterization, nucleotide sequence, and expression of the fliO, fliP, fliQ, and fliR genes of Escherichia coli.

The fliL operon of Escherichia coli contains seven genes that are involved in the biosynthesis and functioning of the flagellar organelle. DNA sequences for the first three genes of this operon have been reported previously. A 2.2-kb PstI restriction fragment was shown to complement known mutant alleles of the fliO, fliP, fliQ, and fliR genes, the four remaining genes of the fliL operon. Four open reading frames were identified by DNA sequence analysis and correlated to their corresponding genes by complementation analysis. These genes were found to encode very hydrophobic polypeptides with molecular masses of 11.1, 26.9, 9.6, and 28.5 kDa for FliO, FliP, FliQ, and FliR, respectively. Analysis of recombinant plasmids in a T7 promoter-polymerase expression system enabled us to identify three of the four gene products. On the basis of DNA sequence analysis and in vivo protein expression, it appears that the fliP gene product is synthesized as a precursor protein with an N-terminal signal peptide of 21 amino acids. The FliP protein was homologous to proteins encoded by a DNA sequence upstream of the flaA gene of Rhizobium meliloti, to a gene involved in pathogenicity in Xanthomonas campestris pv. glycines, and to the spa24 gene of the Shigella flexneri. The latter two genes encode proteins that appear to be involved in protein translocation, suggesting that the FliP protein may have a similar function.     

An open reading frame upstream from the nifH gene of Klebsiella pneumoniae

An open reading frame upstream from nifHDK operon of Klebsiella pneumoniae had been described. The orientation of this open reading frame is opposite to that of nifHDK and sequence homology was found between the open reading frame promoter and the promoter of nifHDK operon. A recombinant plasmid carrying the promoter region of the open reading frame fused to the beta-galactosidase gene was constructed. Strains of E.coli were transformed with the plasmid containing this open reading frame promoter-lacZ fusion or co-transformed with it and a plasmid carrying the nifA gene. An appreciable activity of beta-galactosidase was found in strains which received both plasmids, indicating that the promoter of the open reading frame can be activated by the product of nifA gene. Thus, the open reading frame found between nifHDK operon and nifJ behaves just like other nif genes of K.pneumoniae in requiring the product of nifA as the positive effector for expression.     

Molecular cloning and sequencing of a gene from alkaliphilic Bacillus firmus OF4 that functionally complements an Escherichia coli strain carrying a deletion in the nhaA Na+/H+ antiporter gene.

A gene has been cloned from a DNA library from alkaliphilic Bacillus firmus OF4 that functionally complements a mutant strain of Escherichia coli, NM81, that carries a deletion for one of that strain's Na+/H+ antiporter genes (delta nhaA). The cloned alkaliphile gene restored to NM81 the ability to grow at pH 7.5 in the presence of 0.6 M NaCl and on 100 mM Li+ in the presence of melibiose, and concomitantly led to an increase in the membrane associated Na+/H+ antiport activity. The biologically active alkaliphile DNA was identified as an incomplete open reading frame, the sequence of which would encode a hydrophobic protein. The insert was used to isolate clones containing the complete open reading frame, which would be predicted to encode a protein with a molecular weight of 42,960 and multiple membrane spanning regions. When the open reading frame was expressed under the control of the T7 promoter, the gene product was localized in the membrane. Southern analysis indicated no homology between the alkaliphile gene, which we propose to call nhaC, and the nhaA gene of Escherichia coli, nor with other genes in digests of DNA from E. coli, Bacillus subtilis, or Bacillus alcalophilus. Although there was also no significant similarity between the deduced protein products of the alkaliphile gene and the nhaA gene of E. coli, there was a small region of significant similarity between the deduced alkaliphile gene product and the protein encoded by a human Na+/H+ antiporter gene (Sardet, C., Franchi, A., and Pouyssegur, J. (1989) Cell 56, 271-280).     

Molecular characterization of genes involved in the production of the bacteriocin leucocin A from Leuconostoc gelidum.

Leucocin A is a small heat-stable bacteriocin produced by Leuconostoc gelidum UAL187. A 2.9-kb fragment of plasmid DNA that contains the leucocin structural gene and a second open reading frame (ORF) in an operon was previously cloned (J. W. Hastings, M. Sailer, K. Johnson, K. L. Roy, J. C. Vederas, and M. E. Stiles, J. Bacteriol. 173:7491-7500, 1991). When a 1-kb DraI-HpaI fragment containing this operon was introduced into a bacteriocin-negative variant (UAL187-13), immunity but no leucocin production was detected. Leucocin production was observed when an 8-kb SacI-HindIII fragment of the leucocin plasmid was introduced into L. gelidum UAL187-13 and Lactococcus lactis IL1403. Nucleotide sequence analysis of this 8-kb fragment revealed the presence of three ORFs in an operon upstream of and on the strand opposite from the leucocin structural gene. The first ORF (lcaE) encodes a putative protein of 149 amino acids with no apparent function in leucocin A production. The second ORF (lcaC) contains 717 codons that encode a protein homologous to members of the HlyB family of ATP-binding cassette transporters. The third ORF (lcaD) contains 457 codons that encode a protein with marked similarity to LcnD, a protein essential for the expression of the lactococcal bacteriocin lactococcin A. Deletion mutations in lcaC and lcaD resulted in loss of leucocin production, indicating that LcaC and LcaD are involved in production and translocation of leucocin A. The secretion apparatus for lactococcin A did not complement mutations in the lcaCD genes to express leucocin A in L. lactis.(ABSTRACT TRUNCATED AT 250 WORDS)     

The end of the cob operon: evidence that the last gene (cobT) catalyzes synthesis of the lower ligand of vitamin B12, dimethylbenzimidazole.

The cob operon of Salmonella typhimurium includes 20 genes devoted to the synthesis of adenosyl-cobalamin (coenzyme B12). Mutants with lesions in the promoter-distal end of the operon synthesize vitamin B12 only if provided with 5,6-dimethylbenzimidazole (DMB), the lower ligand of vitamin B12. In the hope of identifying a gene(s) involved in synthesis of DMB, the DNA base sequence of the end of the operon has been determined; this completes the sequence of the cob operon. The cobT gene is the last gene in the operon. Four CobII (DMB-) mutations mapping to different deletion intervals of the CobII region were sequenced; all affect the cobT open reading frame. Both the CobT protein of S. typhimurium and its Pseudomonas homolog have been shown in vitro to catalyze the transfer of ribose phosphate from nicotinate mononucleotide to DMB. This reaction does not contribute to DMB synthesis but rather is the first step in joining DMB to the corrin ring compound cobinamide. Thus, the phenotype of Salmonella cobT mutants conflicts with the reported activity of the affected enzyme, while Pseudomonas mutants have the expected phenotype. J. R. Trzebiatowski, G. A. O'Toole, and J. C. Escalante Semerena have suggested (J. Bacteriol. 176:3568-3575, 1994) that S. typhimurium possesses a second phosphoribosyltransferase activity (CobB) that requires a high concentration of DMB for its activity. We support that suggestion and, in addition, provide evidence that the CobT protein catalyzes both the synthesis of DMB and transfer of ribose phosphate. Some cobT mutants appear defective only in DMB synthesis, since they grow on low levels of DMB and retain their CobII phenotype in the presence of a cobB mutation. Other mutants including those with deletions, appear defective in transferase, since they require a high level of DMB (to activate CobB) and, in combination with a cobB mutation, they eliminate the ability to join DMB and cobinamide. Immediately downstream of the cob operon is a gene (called ORF in this study) of unknown function whose mutants have no detected phenotype. Just counterclockwise of ORF is an asparagine tRNA gene (probably asnU). Farther counterclockwise, a serine tRNA gene (serU or supD) is weakly cotransducible with the cobT gene.     

Isolation and analysis of the genes for cytochrome c oxidase in Paracoccus denitrificans

Synthetic oligonucleotide probes were used to clone two loci from the chromosomal DNA of Paracoccus denitrificans that contain the genes for cytochrome c oxidase (cytochrome aa₃). One locus seems to contain four or five genes probably forming an operon. Two of these code for the oxidase subunits II and III. Three open reading frames are found between the COII and COIII genes. The other locus codes for the subunit I. A short open reading frame is found upstream of this gene. All three subunits of the Paracoccus enzyme show remarkable homology to the corresponding subunits of the mitochondrial cytochrome oxidase. Possible protein products of the open reading frames have not yet been identified.     

Spectinomycin operon ofMicrococcus luteus: Evolutionary implications of organization and novel codon usage

Summary The complete DNA sequence of theMicrococcus luteus spectinomycin (spc) operon and its adjacent regions has been determined. The sequence has revealed the presence of genes that are homologous to those of theEscherichia coli ribosomal and related proteins, L14, L24, L5, S8, L6, L18, S5, L30, L15, and secretion protein Y (secY), and the gene for adenylate kinase (adk). The gene arrangement in the spc operon is essentially the same as that ofE. coli except for the absence in theM. luteus spc operon of the genes for S14 and X protein that exist in theE. coli spc operon.SecY andadk seem to be composed of another operon (adk operon) with at least an open reading frame. The deduced amino acid sequences for these ribosomal proteins are well conserved among the two species (40–65% identity). Reflecting the high genomic guanine and cytosine (GC) content ofM. luteus (74%), the codon usage of the genes is extremely biased toward use of G and C, about 94% of the codon third positions being G or C. Seven codons, AUA, AAA, AGA, UUA, GUA, CUA, and CAA, all of which have A at the codon third positions, are completely absent in theM. luteus genes examined. Out of 11 genes in theM. luteus spc and adk operons, 5 (10) use GUG (UGA) and 6 (1) use AUG (UAA) as an initiation (termination) codon.