spoVG sequence of Bacillus megaterium and Bacillus subtilis.

We have sequenced the stage V sporulation specific gene spoVG in both Bacillus megaterium and Bacillus subtilis. The open reading frames encode polypeptides of 96 and 97 residues, respectively, and have an 88.6% amino acid identity. Both genes have putative rho-independent terminators. No significant amino acid or nucleotide homology of either gene was found when compared with sequences contained in either the Genbank or EMBL data bases.

Nonsense motility mutants in Salmonella typhimurium.

Of 313 motility-deficient mutants isolated from an LT2 his(amber) strain fixed in phase 1 by gene vh2(-), 25 regained motility when amber or ochre suppressors were introduced, in F' factors or by transduction. The fla mutants (23 amber, 1 ochre) fell in complementation groups A, B, C, F, K, a new group, M, and at least one further new group; the hypothesis of a fla gene which specifies only an RNA structural component of a flagellum-synthesizing basal apparatus is disproven for the corresponding genes. Hfr and transductional crosses confirmed gene assignments from complementation and indicated that flaM and another new fla locus map near H1. A small minority of motile bacteria were detectable in many of the amber fla mutants. In groups A and F some pairs of amber fla mutants complemented each other, and perhaps each of these groups corresponds to more than one structural gene. The suppressed derivatives of a mutant with an amber mutation in H1 made flagella morphologically and serologically indistinguishable from wild-type flagella. A slow-spreading but flagellate mutant showed mainly non-translational motility in broth, and in a viscous medium the bacteria reversed very frequently; its amber mutation, probably near H1, is inferred to cause a defect in chemotaxis, so that the bacteria give the avoidance reaction continuously.

Gene dosage effect on the expression of the delta-endotoxin genes of Bacillus thuringiensis subsp. kurstaki in Bacillus subtilis and Bacillus megaterium.

Significant differences in expression of the delta-endotoxin genes cryA1 and cryA2 of Bacillus thuringiensis subsp. kurstaki were observed in B. subtilis and B. megaterium. The cryA1 gene was expressed when present on a high-copy-number (hcn) vector in B. megaterium but not in B. subtilis. The cryA2 gene was expressed in both hosts, but at a higher level in B. megaterium. Expression of the cryA2 gene in B. megaterium was better from a hcn vector than from a low copy number vector. Inhibition of sporulation was observed when the toxin genes were present on hcn plasmids in B. subtilis while no such effect was evident in B. megaterium. In addition, there was a significant reduction in copy numbers in both B. subtilis and B. megaterium when delta-endotoxin genes or a spoVG promoter-containing fragment of DNA were cloned into hcn plasmids.

Cloning and sequencing of the Bacillus megaterium spoIIA operon.

The spoIIA operon of Bacillus megaterium has been cloned and the nucleotide sequence determined. The spoIIA sequence contains three open reading frames coding for putative proteins of 116 aa, 147 aa, and 253 aa; the first and the third genes are preceded by a ribosomal binding site. The genes are in the same order as those of B subtilis and B licheniformis. The deduced amino acid sequences of these three open reading frames show 78-92% homology with SpoIIAA, SpoIIAB and SpoIIAC of B subtilis and B licheniformis. Northern hybridization revealed that B megaterium also has two spoIIA transcripts, 1.77 kb and 2.92 kb, attaining maximum expression at t1 and t3, respectively. In addition, homology to a possible penicillin binding protein gene upstream and the first part of a spoVA operon downstream has been identified on the 3.34-kb fragment. The spoIIA and the downstream spoVA promoter regions are highly conserved among these three species. Sequence analysis of the spoVA promoter revealed a region upstream to the -35 that is highly conserved across Bacillus species.

Prime time for Bacillus megaterium.

It is evident that B. megaterium is an intriguing organism because of its biochemical versatility, its wide distribution ecologically, its ability to undergo sporulation, and its usefulness as an industrial production strain and expression host. With the progress in genetics and the availability of molecular tools such as new transposons, vectors and efficient transformation, an understanding of some of the organization and regulation of many genes is increasing rapidly. Such recent discoveries as the ability of oxetanocin to combat some medically significant, recalcitrant viruses further demonstrates that there is much to be learned and much to benefit from continued study of B. megaterium.

Host-range and partial characterization of several new bacteriophages for Bacillus megaterium QM b1551.

Several phages infecting Bacillus megaterium QM B1551 have been isolated from the soil and partially characterized. These phages, designated MP9 to MP50, were tested for host-range on several strains of B. megaterium and 13 other Bacillus species. All the phages only infected B. megaterium and on the basis of host-range patterns, 23 groups could be distinguished. The phage patterns also distinguished subgroups of B. megaterium strains within the species and should be useful in phage typing. The phages have varying sensitivities to heat, salts and organic solvents and are all double-stranded DNA phages. Thirty-two have been examined by electron microscopy and are Bradley types A, B and C. This is the first large collection of B. megaterium phages that has been characterized.

Genetic analysis of fusion recombinants and presence of noncomplementing diploids in Bacillus megaterium.

We have attempted to undertake genetic analysis in Bacillus megaterium using the technique of protoplast fusion that has been successfully applied in Staphylococcus and Streptomyces. Efficient production of protoplasts, fusion and regeneration techniques have been established. However, variability in numbers and types of recombinants using two-, three-, and four-factor crosses was observed throughout these studies. No linkages were detected, even between loci known to be linked by cotransduction with bacteriophage MP13. These results were similar to those reported by Alföldi and coworkers using B. megaterium strain 216, even though the experimental design was significantly changed. During initial subculturing, segregants were observed in a 1:2:2 ratio of noncomplementing diploids:parental-1:parental-2. The ratio changed dramatically after seven subcultures. Double recombinants appeared after nine subcultures. These results corroborate those reported in B. subtilis and suggest that there is a locus-inactivation phenomenon present in Bacillus which is not evident in Streptomyces or Staphylococcus. Until the mechanism is elucidated, protoplast fusion should not be used for chromosomal mapping in B. megaterium. However, it can be used to transfer plasmids among the bacilli at a frequency of 10(-5)-10(-6) per regenerated protoplast.

Isolation of recombination-defective and UV-sensitive mutants of Bacillus megaterium.

Mutants of Bacillus megaterium QMB1551 sensitive to mitomycin C or methyl methanesulfonate were isolated and characterized phenotypically. Cell survival after UV-light and gamma-ray exposure was determined, as was transductional recombination. Of the mutants tested, three were sensitive to UV but remained recombination proficient. The UV-sensitive mutants were also reduced in host cell reactivation. At least three mutants had undetectable transduction frequencies, i.e., less than 0.3 to 1.3% of the parental strain frequencies, and so appear to be recombination deficient. Sensitivities of these mutant strains to UV light and gamma radiation were compared with those of parental B. megaterium as well as parental, recE4, recA1, uvrA19, and uvrB109 strains of Bacillus subtilis. In each case, the strains of B. megaterium, including the parental strains, showed a higher percentage of cell survival than B. subtilis.

Transposition of Tn917 in Bacillus megaterium.

Transposon Tn917, carried on plasmid pTV1, was introduced into Bacillus megaterium and transposed efficiently and apparently randomly. Insertional mutations included at least eight different auxotrophic loci, two carbon source loci, and sporulation loci. One trp::Tn917 mutation was further verified as an insertion by both reversion and transduction.

Cell yields of bacteria grown on methane.

Several mixed cultures of methane-oxidizing bacteria have been isolated. Among them, culture HR (consisting of two gram-negative rods, one 0.5 x 1.0 mu, the other 0.8 x 2 to 3 mu) was found to be the fastest-growing and to give the highest yields. Optimal conditions for rapid growth and high cell yields from methane were found to be: 30 C, NH(4) as nitrogen source, and pH 6.5. Requirements for CO(2) and Cu were observed. Under these conditions, generation times of approximately 3 hr and cell yields from methane between 65 and 70% could be attained. Culture HR can utilize methane, methanol, ethyl alcohol, 1-propanol, n-butyl alcohol, and glucose, but not propane, for growth. Yeast and beef extracts are inhibitory. Carbon balances demonstrate that few if any products other than cells and CO(2) are produced from methane under the growth conditions used. Cell analyses for carbon, hydrogen, nitrogen, and amino acid content of culture HR were also made.

Plasmids for efficient single-copy gene cloning into gdh2 and trpC of Bacillus megaterium DSM319 and QM B1551.

We constructed integrative plasmids to place xylA-lacZ indicator gene fusions into two different loci of the Bacillus megaterium chromosome, gdh2 and trpC, in lac mutants of strains DSM 319 and QM B1551, which differ markedly. Single-crossover integration was achieved in all cases while double crossovers occurred only in gdh2 of DSM 319 and QM B1551 and in trpC of QM B1551. Neither of the loci affected regulation of the xylA-lacZ fusions. These results confirm the suitability of the two gene loci for single-copy cloning.

Isolation and characterization of a unique division mutant of Bacillus megaterium.

A filamentous division mutant, PV302, of Bacillus megaterium QM B1551 was isolated while screening for sporulation-defective mutants after nitrosoguanidine mutagenesis. Both phase-contrast and electron microscopy revealed that the mutant produced small spherical cells as well as filaments. It also accumulated large amounts of poly-beta-hydroxybutyrate. Poly-beta-hydroxybutyrate accounted for 16% of the dry weight of the mutant strain even after 28 h growth. In comparison to the parental strain, the division mutant also showed both an inability to sporulate and a reduced growth rate. All these phenotypes transduced together. Revertants gained the ability to sporulate, divide, and grow normally. Transductional mapping of the mutation, designated div-1, established a new linkage group for B. megaterium consisting of div-1 and the pyrimidine biosynthesis genes pyrD BCF. The spherical cells were separated from filaments by sucrose gradients and were tested for nucleic acid content and viability. The purified spherical cell fraction contained one-fifth the amount of DNA per mg protein as compared with the filamentous cell fraction and was shown to contain both non-viable minicells and some cells capable of growing after a lag of about 4 h. This suggests that the mutation not only causes defects in septum placement and sporulation, but may possibly affect DNA partitioning.

Genetics of leucine biosynthesis in Bacillus megaterium QM B1551.

Genes involved in the biosynthesis of leucine have been mapped in Bacillus megaterium QM B1551, using transducing phage MP13. Mutations were designated leuA, leuB, or leuC on the basis of enzyme assays. Two mutant strains were deficient in the enzyme activities of leuA (alpha-isopropylmalate synthase) and leuC (beta-isopropylmalate dehydrogenase) and so may contain polar mutations. Fine-structure transduction mapping established the gene order leuC-leuB-leuA-ilv-hem-phe. The orientation of the leu genes to the ilv gene is the same as in Bacillus subtilis, but the relationship in respect to two other linked markers, hem and phe, differs.

Integration and mapping of Bacillus megaterium genes which code for small, acid-soluble spore proteins and their protease.

Four genes (ssp genes) coding for small, acid-soluble spore proteins of Bacillus megaterium and the gene for the protease that cleaves them during germination were cloned in the integratable plasmid pJH101. Each plasmid was integrated into the B. megaterium chromosome by a Campbell-type mechanism, allowing mapping of all five genes. The gene for the small, acid-soluble spore protein-specific protease (gpr) mapped near rib, and the sspA gene mapped between argA and hisA. The three other genes of the spp gene family (sspB, -D, and -F) all mapped near metC/D, with the order: sspF-sspD-metC/D-hemA-argO-sspB. While neither gpr nor sspF has been mapped in B. subtilis, the positions of the sspA, -B, and -D loci are similar in B. megaterium and B. subtilis, suggesting that the members of this multigene family have not recently undergone significant movement on the chromosome. It appears that more gene rearrangement has occurred in the flanking genes than has occurred in the ssp family of genes producing the small, acid-soluble spore proteins.

Cotransductional mapping of the trp-his region of Bacillus megaterium.

Eight trp mutations (four trpE, two trpB, one trpC, and one trpD) have been mapped in Bacillus megaterium QM B1551 and were found to be linked to two hisH mutations and unlinked to several other his mutations.

MP13, a generalized transducing bacteriophage for Bacillus megaterium.

The first generalized transducing bacteriophage reported for Bacillus megaterium has been characterized. Optimum conditions for lysate production and transduction procedures were established so that transducing frequencies of 8 x 10(-6) and higher are now possible. The phage, MP13, has a head diameter of 97 nm and a contractile tail (202 by 17 nm) and adsorbs to the periphery of the cell. MP13 was inactivated rapidly at 60 degrees C, but not at 55 degrees C, and was sensitive to toluene, ether, and chloroform. When centrifuged in a neutral CsCl gradient, two bands were observed, a major band of 1.490 g cm-3 and a minor band of 1.482 g cm-3 buoyant density. The major band contained only infective particles, whereas the minor band contained both infective and transducing particles. Phage DNA was resistant to several restriction endonucleases, but yielded 9 fragments with MboI, more than 34 with HindIII, and 7 with BstEII. The molecular weights for the fragments from MboI-BstEII double digests total 97 x 10(9).

Characterization of a theta plasmid replicon with homology to all four large plasmids of Bacillus megaterium QM B1551.

A replicon from one of an array of seven indigenous compatible plasmids of Bacillus megaterium QM B1551 has been cloned and sequenced. The replicon hybridized with all four of the large plasmids (165, 108, 71, and 47 kb) of strain QM B1551. The cloned 2374-bp HindIII fragment was sequenced and contained two upstream palindromes and a large (>419-amino-acid) open reading frame (ORF) truncated at the 3' end. Unlike most plasmid origins, a region of four tandem 12-bp direct repeats was located within the ORF. The direct repeats alone were incompatible with the replicon, suggesting that they are iterons and that the plasmid probably replicates by theta replication. The ORF product was shown to act in trans. A small region with similarity to the B. subtilis chromosomal origin membrane binding region was detected as were possible binding sites for DnaA and IHF proteins. Deletion analysis showed the minimal replicon to be a 1675-bp fragment containing the incomplete ORF plus 536 bp upstream. The predicted ORF protein of >48 kDa was basic and rich in glutamate + glutamine (16%). There was no significant amino acid similarity to any gene, nor were there any obvious motifs present in the ORF. The data suggest that this is a theta replicon with an expressed rep gene required for replication. The replicon contains its iterons within the gene and has no homology to reported replicons. It is the first characterization of a B. megaterium replicon.

Analysis of the replicon region and identification of an rRNA operon on pBM400 of Bacillus megaterium QM B1551.

An 18 633 bp region containing the replicon from the approximately 53 kb pBM400 plasmid of Bacillus megaterium QM B1551 has been sequenced and characterized. This region contained a complete rRNA operon plus 10 other potential open reading frames (ORFs). The replicon consisted of an upstream promoter and three contiguous genes (repM400, orfB and orfC) that could encode putative proteins of 428, 251 and 289 amino acids respectively. A 1.6 kb minimal replicon was defined and contained most of repM400. OrfB was shown to be required for stability. Three 12 bp identical tandem repeats were located within the coding region of repM400, and their presence on another plasmid caused incompatibility with their own cognate replicon. Nonsense, frameshift and deletion mutations in repM400 prevented replication, but each mutation could be complemented in trans. RepM400 had no significant similarity to sequences in the GenBank database, whereas five other ORFs had some similarity to gene products from other plasmids and the Bacillus genome. An rRNA operon was located upstream of the replication region and is the first rRNA operon to be sequenced from B. megaterium. Its unusual location on non-essential plasmid DNA has implications for systematics and evolutionary biology.

Trans activation of the Escherichia coli ato structural genes by a regulatory protein from Bacillus megaterium: potential use in polyhydroxyalkanoate production.

A Bacillus megaterium genomic fragment, which encoded an activator homologous to sigma 54 regulators and which was capable of activating Escherichia coli ato genes in trans, was detected in a gene library of B. megaterium screened for beta-ketothiolase activity. The fragment presented only one complete open reading frame (ORF1), which encoded a protein of 398 amino acids. The recombinant plasmid complemented mutations in the Escherichia coli atoC regulatory gene. The constitutive expression of the E. coli ato operon mediated by ORF1 could be useful for the synthesis of polyhydroxyalkanoates with different flexibility properties by recombinant E. coli strains.