Kenneth F. Bott

The Minimal Gene Complement of Mycoplasma genitalium

The complete nucleotide sequence (580,070 base pairs) of the Mycoplasma genitalium genome, the smallest known genome of any free-living organism, has been determined by whole-genome random sequencing and assembly. A total of only 470 predicted coding regions were identified that include genes required for DNA replication, transcription and translation, DNA repair, cellular transport, and energy metabolism. Comparison of this genome to that of Haemophilus influenzae suggests that differences in genome content are reflected as profound differences in physiology and metabolic capacity between these two organisms.

Nucleotide sequence of the Bacillus subtilis ribosomal RNA operon, rrnB.

The primary sequence of DNA covering a complete ribosomal RNA (rRNA) operon from Bacillus subtilis, designated rrnB has been elucidated. Following a set of tandem promoters, rrnB encodes: (i) a 16S and a 23S rRNA determinant with no tRNA spacer region in between; (ii) a 5S rRNA determinant; and (iii) 21 contiguous tRNA species; before (iv) two characteristic terminator hairpins are found. More than 7 kb are included within this operon, which maps between aroG and thr5 on the B. subtilis chromosome. This represents the first report of the entire sequence of an rRNA operon from B. subtilis or from any Gram-positive organism.

A physical map of the Mycoplasma genitalium genome

We report the construction of a physical map of the genome of the human pathogen Mycoplasma genitalium through the use of pulse‐field gel electrophoresis. The small size and relative simplicity of this genome permit the arrangement of restriction fragments without having to construct linking clones. The size of the genome has been calculated to be approximately 600 kb and several important genetic determinants have been assigned specific loci on the map.

Mycoplasma pneumoniae DNA gyrase genes

We have identified a clone from a λEMBL3 library containing a 19kb insert of Mycoplasma pneumoniae DNA which includes the genes that encode both subunits of DNA gyrase. The gyrB gene and the 5’end of the gyrA gene have been subcloned into M13. The gryB gene is 1953bp in length and overlaps the gryA gene by a single base. The nucleotide sequence of these subclones has significant homology to previously reported gyrase genes. In terms of the size of gyrB gene and its proximity to the gyrA gene, M. pneumoniae is more similar to Bacillus subtilis than to Escherichia coli.

Prevalence of novel repeat sequences in and around the P1 operon in the genome of Mycoplasma pneumoniae.

The presence of numerous different repetitive elements in the genome of Mycoplasma pneumoniae has been documented by several laboratories. One which we previously identified, denoted as SDC1, has now been further characterized, verified to be distinct from those discussed in previous publications and shown to lack homology to several other species of Mycoplasma when tested under our stringency conditions. As many as eight versions of the SDC1-type repeat, which is more than 400 bp long, are scattered throughout the genome of M. pneumoniae. The prototype for SDC1 is found within a gene encoding a putative 130-kDa membrane-binding protein lying just downstream from the gene encoding the cytadhesin protein P1. In fact, all of the reported M. pneumoniae repetitive elements have at least one representative either within or adjacent to the P1 operon; many if not all of these lie within open reading frames. The function of these repetitive elements is still unclear.

CONSTRUCTION OF AN ORDERED GENOMIC LIBRARY OF MYCOPLASMA GENITALIUM

As a first step towards sequencing the chromosome of the suspected human pathogen Mycoplasma genitalium, we attempted to clone its entire genome in a set of ordered cosmids. Cosmid libraries were established by partial digestion of M. genitalium genomic DNA with Sau3AI or EcoRI. A chromosome-walking strategy was used to identify 20 overlapping cosmid clones which contained over 99% of the genome. The final 5.1 kb could not be cloned in cosmids, and was eventually obtained from a genomic library established in a lambda vector. Correspondence of cloned and genomic EcoRI fragments indicated no detectable major deletions or rearrangements in the library. The library was oriented on established XhoI and SmaI physical maps of the chromosome with restriction sites present at the expected locations in the library. The genome contained 74 EcoRI fragments which added up to a total genome size of 578 kb. These were arranged in a partial EcoRI physical map, and those containing the MgPa major attachment protein-encoding operon and its repeat sequences were identified. The existence of this ordered genomic library, which accurately and completely encompasses the entire M. genitalium genome, should serve as a valuable tool for many future studies of this organism and facilitate our long-term goal of sequencing its genome.

Spectinomycin-resistant mutants of Bacillus subtilis with altered sporulation properties.

SummarySpecitinomycin-resistant mutants of Bacillus subtilis show three different types of alterations in sporulation ability. Class 1 mutants can both grow and sporulate in the presence of spectinomycin. Class 2 mutants can grow in the presence of spectinomycin, but are unable to sporulate in either the presence or absence of spectinomycin. Class 3 mutants have a conditional phenotype, and are able to sporulate in the absence of spectinomycin, but not in its presence. The ability of these strains to produce alkaline phosphatase, a biochemical marker for early sporulation events, is correlated with the ability to sporulate in the presence or absence of antibiotic. All of the spectinomycin-resistance mutations could be genetically linked to the cysA marker, and a mutational alteration of a protein of the 30S ribosomal subunit has been identified in one of the Class 3 strains (Spc1–11). Fine-structure mapping of the spectinomycin resistance mutation of strain Spc 1–11 confirmed its location in the cluster of genes for ribosomal components on the B. subtilis genetic map. Genetic analysis indicated that the properties of the Class 1 and Class 2 mutants result from more than one mutation. The spectinomycin-resistance and altered sporulation properties of the two Class 3 mutants probably result from a single genetic lesion.

A limited number of Bacillus subtilis strains carry a tetracycline-resistance determinant at a site close to the origin of replication

Several strains of Bacillus subtilis, e.g., 168 derivatives and R, were found to carry a single copy of a tetracycline-resistance (TcR) determinant (named tetBS908) at a site close to the origin of replication on the chromosome. This gene is highly homologous (80% identical) to the TcR determinant of plasmids widely dispersed among aerobic spore-forming bacilli. B. subtilis RM125 (168 strain) transformants which carry a varying number of tetBS908 sequences in a tandem array on the chromosome were constructed and examined for their TcR level. A nearly proportional relationship between the TcR level and copy number of tetBS908 existed.

Antibiotic-resistant mutants of Bacillus subtilis conditional for sporulation.

SummaryAmong spontaneously occurring antibiotic-resistant mutants of Bacillus subtilis 168 we have identified a sub-class that is conditionally sporulative. Mutants in this sub-class are resistant to antibiotic during vegetative growth but are sensitive during sporulation. Mutants conditionally-resistant to erythromycin, kanamycin, spectinomycin, and streptomycin have been isolated and characterized by phase contrast microscopy and with respect to their ability to synthesize heat-resistant endospores or the sporulation-associated enzyme alkaline phosphatase. The results suggest that several entirely different genetic lesions may result in this single phenotype. This group includes mutants whose properties suggest that both the 30S and 50S ribosomal subunits may be altered concomitant with early spore specific metabolism. The blockage imposed by antibiotic may be at or near Stage 2 of sporulation.

CHARACTERIZATION OF GENES ENCODING TOPOISOMERASE IV OF MYCOPLASMA GENITALIUM

A type-II toposiomerase (Topo-IV) encoded by the parC and parE genes in Escherichia coli and Salmonella typhimurium is thought to be involved in cell septation and in the decatenation of newly replicated chromosomes. We have identified parC and parE homologs in the pleomorphic, wall-less organism Mycoplasma genitalium. Since the mechanics of cell septation in conventional eubacterial species is believed to be mediated by cell-wall constituents, there is no clear understanding of what coordinates that process in wall-less species. The presence of par genes in this bacterium, which has the smallest genome of any free-living organism, suggests that Topo-IV has been evolutionarily conserved because of an essential role in mediating cell division.