Identification of the product of dnaB gene in Bacillus subtilis

In order to detect the product of dnaB gene in B. subtilis, a gene which is involved in the initiation of DNA replication and the formation of the DNA-membrane complex, we synthesized an origopeptide of 15 amino acids which corresponds to a region near the carboxyl-terminal of the gene product, and raised antibody against the synthetic peptide. We have also employed a filter binding assay to measure the predicted DNA binding activity of the product of the dnaB gene, using the plasmid pUB110. The binding activity was detected after fractionation of cell lysates of B. subtilis on sucrose-density gradients. When the active fraction was prepared from a mutant which was temperature-sensitive for the dnaB gene, the DNA binding activity in the fraction showed significant thermolability. Furthermore, the binding activity was inhibited by the purified antibody raised against the synthetic peptide. These results suggest that the product of the dnaB gene does indeed have DNA binding activity, and that the filter binding assay and the antibody can be used for the detection and characterization of the gene product.     

Sequence analysis and expression of the aspartokinase and aspartate semialdehyde dehydrogenase operon from rifamycin SV-producing amycolatopsis mediterranei.

A approximately 4.8 kb KpnI fragment, from the upstream region of the methylmalonyl-CoA mutase gene (mutAB) of rifamycin SV-producing Amycolatopsis mediterranei, was cloned and partially sequenced. Codon preference analysis showed three complete ORFs. ORF2 is internal to ORF1, and encodes a polypeptide corresponding to 172 amino acids, whereas ORF1 encodes a polypeptide of 421 amino acids. They were identified as the encoding genes of aspartokinase alpha- and beta-subunits by comparing the amino acid sequences with those in the database. The downstream ORF3, whose start codon was overlapped with the stop codon of both ORF1 and ORF2 by 1 bp, was identified as the aspartate semialdehyde dehydrogenase gene (asd), encoding a polypeptide of 346 amino acids. Subclones containing either the ask gene or the asd gene were constructed, in which the genes could be expressed under Lac promoters. Two subclones could transform E. coli CGSC 5074 (ask-) and E. coli X6118 (asd-) to prototrophy, supporting the functional assignments. Southern hybridisation indicated that the approximately 4.8 kb sequenced region represented a continuous segment in the A. mediterranei chromosome. It is concluded that ask and asd genes are present in an operon in A. mediterranei, and therefore that organisation of these two genes is the same as in most gram-positive bacteria, such as Mycobacteria, Corynebacterium glutamicum and Bacillus subtilis, but is different from Streptomyces akiyoshiensis.     

Molecular cloning, expression, and characterization of endo-beta-1,4-glucanase genes from Bacillus polymyxa and Bacillus circulans.

Endo-beta-1,4-glucanase genes from Bacillus circulans and from B. polymyxa were cloned by direct expression by using bacteriophage M13mp9 as the vector. The enzymatic activity of the gene products was detected by using either the Congo red assay or hydroxyethyl cellulose dyed with Ostazin Brilliant Red H-3B. The B. circulans and B. subtilis PAP115 endo-beta-1,4-glucanase genes were shown to be homologous by the use of restriction endonuclease site mapping, DNA-DNA hybridization, S1 nuclease digestion after heteroduplex formation, and sodium dodecyl sulfate-polyacrylamide gel electrophoresis of the protein products. Analysis of the nucleotide sequence of 3.1 kilobase pairs of cloned B. polymyxa DNA revealed two convergently transcribed open reading frames (ORFs) consisting of 398 codons (endoglucanase) and 187 codons (ORF2) and separated by 374 nucleotides. The coding region of the B. polymyxa endoglucanase gene would theoretically produce a 44-kilodalton preprotein. Expression of the B. polymyxa endoglucanase in Escherichia coli was due to a fusion of the endoglucanase gene at codon 30 with codon 9 of the lacZ alpha-peptide gene. The B. polymyxa endoglucanase has 34% amino acid similarity to the Clostridium thermocellum celB endoglucanase sequence but very little similarity to endoglucanases from other Bacillus species. ORF2 has 28% amino acid similarity to the NH2-terminal half of the E. coli lac repressor protein, which is responsible for DNA binding.     

Identification and nucleotide sequence of the minimal replicon of the low-copy-number plasmid pBS2

The plasmid pBS2 has a low copy number and is endogenous to Bacillus subtilis. The replication of this plasmid depends on the function of most of the host's dna genes including dnaB, which is unique to B. subtilis and is required for both the initiation of chromosome replication and the DNA-membrane association. We have identified the region that is essential for the replication of pBS2 and determined the complete 2279-bp nucleotide sequence of this region. In this region, there are two stretches of sequence homologous to the 18-bp consensus sequence which commonly appears at the origin of replication of plasmids pUB110 and pC194. The entire region contains six sizable open reading frames. Two of them are probably translated. One open reading frame, designated ORF A, coding for 269 amino acids, has significant homology, in terms of amino acid sequence, with the open reading frame of the gene for the Rep U protein of plasmid pUB110. The similarities between pBS2 and other plasmids suggest that the pBS2 may also replicate as a rolling circle, which appears to be the salient feature of a mechanism of replication that is common to small plasmids in gram-positive bacteria.     

Three Surface Layer Homology Domains at the N Terminus of the Clostridium cellulovorans Major Cellulosomal Subunit EngE

The gene engE, coding for endoglucanase E, one of the three major subunits of the Clostridium cellulovorans cellulosome, has been isolated and sequenced. engE is comprised of an open reading frame (ORF) of 3,090 bp and encodes a protein of 1,030 amino acids with a molecular weight of 111,796. The amino acid sequence derived from engE revealed a structure consisting of catalytic and noncatalytic domains. The N-terminal-half region of EngE consisted of a signal peptide of 31 amino acid residues and three repeated surface layer homology (SLH) domains, which were highly conserved and homologous to an S-layer protein from the gram-negative bacterium Caulobacter crescentus. The C-terminal-half region, which is necessary for the enzymatic function of EngE and for binding of EngE to the scaffolding protein CbpA, consisted of a catalytic domain homologous to that of family 5 of the glycosyl hydrolases, a domain of unknown function, and a duplicated sequence (DS or dockerin) at its C terminus. engE is located downstream of an ORF, ORF1, that is homologous to the Bacillus subtilis phosphomethylpyrimidine kinase (pmk) gene. The unique presence of three SLH domains and a DS suggests that EngE is capable of binding both to CbpA to form a CbpA-EngE cellulosome complex and to the surface layer of C. cellulovorans.     

TmrB protein, responsible for tunicamycin resistance of Bacillus subtilis, is a novel ATP-binding membrane protein.

tmrB is the gene responsible for tunicamycin resistance in Bacillus subtilis. It is predicted that an increase in tmrB gene expression makes B. subtilis tunicamycin resistant. To examine the tmrB gene product, we produced the tmrB gene product in Escherichia coli by using the tac promoter. TmrB protein was found not only in the cytoplasm fraction but also in the membrane fraction. Although TmrB protein is entirely hydrophilic and has no hydrophobic stretch of amino acids sufficient to span the membrane, its C-terminal 18 amino acids could form an amphiphilic alpha-helix. Breaking this potential alpha-helix by introducing proline residues or a stop codon into this region caused the release of this membrane-bound protein into the cytoplasmic fraction, indicating that the C-terminal 18 residues were essential for membrane binding. On the other hand, TmrB protein has an ATP-binding consensus sequence in the N-terminal region. We have tested whether this sequence actually has the ability to bind ATP by photoaffinity cross-linking with azido-[alpha-32P]ATP. Wild-type protein bound azido-ATP well, but mutants with substitutions in the consensus amino acids were unable to bind azido-ATP. These C-terminal or N-terminal mutant genes were unable to confer tunicamycin resistance on B. subtilis in a multicopy state. It is concluded that TmrB protein is a novel ATP-binding protein which is anchored to the membrane with its C-terminal amphiphilic alpha-helix.     

Characterization of a second gene involved in bacterio-opsin gene expression in a halophilic archaebacterium.

Southern blot analysis and nucleotide sequencing of DNA from three bacterio-opsin-deficient mutants of the archaebacterium Halobacterium halobium (M86, W105, and W109) revealed that they each contain an alteration in a region 2,000 to 3,800 base pairs (bp) upstream of the bacterio-opsin gene (bop). Nucleotide sequence analysis of this region, which is also located downstream of the previously characterized brp gene, revealed that it contains an open reading frame (ORF) of 2,022 bp. This 2,022-bp ORF has a start codon which overlaps the stop codon of the brp gene and is read in the same direction. The ORF could encode an acidic protein of 73,334 daltons (674 amino acids) with a predicted secondary structure typical of a soluble protein. Bop mutant M86 contains a 1,883-bp deletion extending from bp 351 of the ORF, to 197 bp beyond the stop codon. Mutant W105 has an ISH2 element integrated at bp 1239 of the ORF, and mutant W109 has an ISH26 element integrated at bp 1889. Our results suggest that the ORF is a gene (designated bat for bacterio-opsin activator gene) involved in bop gene expression.     

Effects of temperature-sensitive variants of the Bacillus subtilis dnaB gene on the replication of a low-copy-number plasmid.

The dnaB gene of Bacillus subtilis is involved in the initiation of DNA replication and also in the binding of the chromosomal origin to the bacterial membrane. We studied the effect of temperature-sensitive dnaB mutants (dnaB1 and dnaB19) on the replication and on the DNA-membrane binding of the plasmid pKW1, which was derived from the low-copy-number plasmid pBS2. In the dnaB19 mutant, pKW1 was not able to replicate at the restrictive temperature. In the dnaB1 mutant, however, the dimeric form of pKW1 DNA was preferentially produced as the restrictive temperature, but the replication of the monomeric form was totally blocked. We also examined the effects of the dnaB(Ts) gene on the DNA-membrane binding of both the double-stranded and single-stranded DNA from pKW1. The single-stranded DNA from pKW1 was prepared from the DNA of the phage M13 mp19, which contained the origin of replication of pKW1. In the dnaB1 mutant, pKW1 DNA in both the double-stranded and single-stranded form was released from the membrane at the restrictive temperature. On the other hand, in the dnaB19 mutant, only double-stranded DNA, and not single-stranded DNA, was released from the membrane at the restrictive temperature. These results suggest that the product of the dnaB gene has at least two domains which influence the replication of DNA and the binding of DNA to the cell membrane in separate ways.     

Cloning, sequencing and genetic mapping of a Bacillus subtilis cell wall hydrolase gene

We have cloned DNA fragments from Bacillus subtilis 168S into Escherichia coli, which produced a lytic zone on an agar medium containing B. subtilis cell wall. Sequencing of the fragments showed the presence of an open reading frame (ORF) which encodes a polypeptide of 272 amino acids with a molecular mass of 29919 Da. The deduced amino acid sequence showed considerable homology with that of the cell wall hydrolase gene of Bacillus sp. (Potvin, C., Leclerc, D., Tremblay, G., Asselin, A. & Bellemare, G. (1988). Molecular and General Genetics 214, 241-248). Accordingly, the gene was designated cwlA, for cell wall lysis. The N-terminal amino acid sequence of cwlA gene product prepared from a E. coli clone was AIKVVKNLVSKSKYGLKCPN, which is consistent with that of the deduced sequence starting from Ala at second position from the initiation codon of the cwlA gene. A presumed sigma A promoter and a rho-independent terminator were found upstream and downstream of the ORF, respectively. A chloramphenicol-resistance determinant integrated into the ORF was mapped by PBS1 transduction, which indicated the gene sequence dnaE-aroD-cwlA.     

The nucleotide sequence of pUB110: some salient features in relation to replication and its regulation

For the study of DNA-membrane interaction and the regulation of replication initiation we have determined the total nucleotide sequence of pUB110. As previously reported, this plasmid replicates in B. subtilis at a copy number of 30-50 per cell, with a majority of plasmids (60-80%) bound to the membrane (type-I binding). The type-I membrane binding is apparently necessary for pUB110 initiation of replication in vivo, but the membrane binding site is not known. Furthermore, four areas of the plasmid specifically bind to Bacillus subtilis membrane in an in vitro binding reaction (type II binding). These two types of membrane binding of pUB110 are different in that the in vivo binding (type-I) requires one (dnaBI) of the host initiation genes and is high-salt resistant, whereas the in vitro binding (type-II) does not require the dnaBI gene product and is high-salt sensitive. 7-mer double-strand sequence, TCAGCAA/AGTCGTT, or one-base derivatives of this sequence are frequently (17 of 23 of the 7-mer sequences) found in or close to the type-II binding areas. One of them is found at a restriction enzyme recognition site of a binding area that destroys the type-II membrane binding. These sequences may or may not have significance in type-II membrane binding. In addition to the neomycin resistance gene, the sequence data indicate two sizable open reading frames, ORF alpha and ORF beta, and two small ORF, gamma, and delta. All of these reading frames are in the same direction, which coincides with the direction of the replication. The open reading frame alpha (ORF alpha) corresponding to 334 amino acids close to the replication origin may be essential for the initiation of replication of PUB110. The putative protein alpha corresponding to this open reading frame contains a consensus sequence of the DNA binding sites which are found in a number of known DNA-binding proteins. The consensus DNA binding site of protein alpha is flanked by two hydrophobic areas. These two observations suggest that the corresponding protein may have both an affinity to a specific site in pUB110, and an affinity to the membrane.     

Cloning and characterization of the Bacillus subtilis birA gene encoding a repressor of the biotin operon.

The Bacillus subtilis birA gene, which regulates biotin biosynthesis, has been cloned and characterized. The birA gene maps at 202 degrees on the B. subtilis chromosome and encodes a 36,200-Da protein that is 27% identical to Escherichia coli BirA protein. Three independent mutations in birA that lead to deregulation of biotin synthesis alter single amino acids in the amino-terminal end of the protein. The amino-terminal region that is affected by these three birA mutations shows sequence similarity to the helix-turn-helix DNA binding motif previously identified in E. coli BirA protein. B. subtilis BirA protein also possesses biotin-protein ligase activity, as judged by its ability to complement a conditional lethal birA mutant of E. coli.