Physical and genetic map of the Methanococcus voltae chromosome

Insertional Mutations in the Hydrogenase vhc and frc Operons Encoding Selenium-Free Hydrogenases in Methanococcus voltae

Methanococcus voltae, which contains four different gene groups that encode [NiFe]-hydrogenases, was transformed with integration vectors to achieve polar inactivation of two of the four hydrogenase operons that encode the selenium-free enzymes Vhc and Frc. Transformants which were selected by their acquired puromycin resistance showed site-specific insertions in either the vhc or frc operon by single crossover events. Southern hybridization revealed tandem integrations of whole vectors in the vhc operon, whereas only one vector copy was found in the frc operon. Northern (RNA) hybridizations showed a pac transcript of defined size, indicating strong termination in front of the hydrogenase genes downstream. In spite of the apparent abolition of expression of selenium-free hydrogenases through these polar insertions, they were not lethal to cells upon growth in selenium-deprived minimal medium, which we had previously shown to strongly induce transcription of the respective operons in M. voltae. Instead, like wild-type control cultures, transformants responded to selenium deprivation only with a reduction in growth rate. We conclude that loss of the potential to express a selenium-free hydrogenase can nevertheless be balanced by very small amounts of selenium hydrogenases under laboratory conditions in which the hydrogen supply is not likely to be a limiting growth factor.

Analysis of methanogen diversity in a hypereutrophic lake using PCR-RFLP analysis of mcr sequences

The incidence and diversity of methanogens in Priest Pot, a dynamic and active lake, were monitored by analysing mcrA gene sequences generated from total DNA samples obtained at different times of the year and amplified using the polymerase chain reaction. A number of mcrA clones were analysed by developing an RFLP-based protocol to generate a number of restriction patterns that were assigned to a number of classes. The RFLP patterns for each class were compared with published sequence information for mcrA from cultured methanogens as well as with those from other experimental studies. They could be used to assign tentative identification for some of the Priest Pot clones and also revealed the presence of a number of clones that could not be affiliated to any known methanogens. The limitations of using RFLP profiles of mcrA gene sequences for studying methanogen ecology are discussed.

Transduction-like gene transfer in the methanogen Methanococcus voltae

Strain PS of Methanococcus voltae (a methanogenic, anaerobic archaebacterium) was shown to generate spontaneously 4.4-kbp chromosomal DNA fragments that are fully protected from DNase and that, upon contact with a cell, transform it genetically. This activity, here called VTA (voltae transfer agent), affects all markers tested: three different auxotrophies (histidine, purine, and cobalamin) and resistance to BES (2-bromoethanesulfonate, an inhibitor of methanogenesis). VTA was most effectively prepared by culture filtration. This process disrupted a fraction of the M. voltae cells (which have only an S-layer covering their cytoplasmic membrane). VTA was rapidly inactivated upon storage. VTA particles were present in cultures at concentrations of approximately two per cell. Gene transfer activity varied from a minimum of 2 x 10(-5) (BES resistance) to a maximum of 10(-3) (histidine independence) per donor cell. Very little VTA was found free in culture supernatants. The phenomenon is functionally similar to generalized transduction, but there is no evidence, for the time being, of intrinsically viral (i.e., containing a complete viral genome) particles. Consideration of VTA DNA size makes the existence of such viral particles unlikely. If they exist, they must be relatively few in number;perhaps they differ from VTA particles in size and other properties and thus escaped detection. Digestion of VTA DNA with the AluI restriction enzyme suggests that it is a random sample of the bacterial DNA, except for a 0.9-kbp sequence which is amplified relative to the rest of the bacterial chromosome. A VTA-sized DNA fraction was demonstrated in a few other isolates of M. voltae.

Archaeon Pyrococcus kodakaraensis KOD1: application and evolution

Archaea is the third domain which is phylogenetically differentiated from the other two domains, bacteria and eucarya. Hyperthermophile within the archaea domain has evolved most slowly retaining many ancestral features of higher eukaryotes. Pyrococcus kodakaraensis KOD1, which grows at 95 degrees C optimally, is a newly isolated hyperthermophilc archaeon. The KOD1 strain possesses a circular genome, whose size is estimated to be approximately 2,036 kb. KOD1 enzymes involved in the genetic information processing system, such as DNA polymerase, Rec protein, aspartyl tRNA synthetase and molecular chaperonin, share features of eukaryotic enzymes. Rapid and accurate PCR method by KOD1 DNA polymerase and enzyme stabilization system by KOD1 chaperonin are also introduced in this article.

Bacterial artificial chromosome (BAC) library as a tool for physical mapping of the archaeon Methanosarcina thermophila TM-1

We have used a variety of methods to characterize the genome of the archaeon Methanosarcina thermophila TM-1. Pulsed-field gel analysis indicates a genome size of 2.8 Mb. We have constructed a bacterial artificial chromosome (BAC) library of M. thermophila and have used it to generate physical maps for this organism. The library is made up of 384 clones with an average insert size of 58 kb representing 8.0 genome equivalents. The utility of the library for low-resolution physical mapping was shown by identifying NotI linking clones and using these to order the NotI macrorestriction fragments of M. thermophila into a 2.8 Mb map. Hybridization of nine single copy genes and a 16S rRNA sequence to these macrorestriction fragments forms the basis for the first genetic map in this organism. High-resolution physical maps, consisting of overlapping clones, have been created using HindIII fingerprints of BAC clones. In this way, we identified a minimal path of five clones that span a 270 kb NotI fragment. The ease of manipulating BAC clones makes the BAC system an excellent choice for the construction of low-resolution and high-resolution physical and genetic maps of archaeal genomes. It also provides a substrate for future genome-sequencing efforts.

The world of archaea: genome analysis, evolution and thermostable enzymes

Pyrococcus sp. KOD1 is a newly isolated hyperthermophilic archaeon from a solfatara at a wharf on Kodakara Island, Kagoshima, Japan. A physical map of the KOD1 chromosome was constructed using pulsed-field gel electrophoresis of restriction fragments generated by AscI, PacI and PmeI. The order of the AscI fragments was deduced from Southern hybridization using the AscI, PmeI and PacI fragments as a probe. The derived physical map indicates that KOD1 possesses a circular-form genome and its size was estimated to be 2036 kb. Several cloned genes were hybridized to restriction fragments to locate their positions on the physical map. Some genes involved in the central dogma were located on the restricted segment of the genome. Novel characteristics of KOD1 enzymes are also introduced in this article.

Purification, properties and primary structure of H2-forming N5 ,N10 -methylenetetrahydromethanopterin dehydrogenase from Methanococcus thermolithotrophicus

H2-Forming N5,N10 -methylenetetrahydromethanopterin dehydrogenase (Hmd) is a novel type of hydrogenase found in methanogenic Achaea that contains neither nickel nor iron-sulfur clusters. The enzyme has previously been characterized from Methanobacterium thermoautotrophicum and from Methanopyrus kandleri. We report here on the purification and properties of the enzyme from Methanococcus thermolithotrophicus. The hmd gene was cloned and sequenced. The results indicate that the enzyme from Mc. thermolithotrophicus is functionally and structurally closely related to the H2-forming methylene tetrahydromethanopterin dehydrogenase from Mb. thermoautotrophicum and Mp. kandleri. From amino acid sequence comparisons of the three enzymes, a phylogenetic tree was deduced that shows branching orders similar to those derived from sequence comparisons of the 16S rRNA of the orders Methanococcales, Methanobacteriales, and Methanopyrales.

Archaebacterial genomes: eubacterial form and eukaryotic content

Since the recognition of the uniqueness and coherence of the archaebacteria (sometimes called Archaea), our perception of their role in early evolution has been modified repeatedly. The deluge of sequence data and rapidly improving molecular systematic methods have combined with a better understanding of archaebacterial molecular biology to describe a group that in some ways appears to be very similar to the eubacteria, though in others is more like the eukaryotes. The structure and contents of archaebacterial genomes are examined here, with an eye to their meaning in terms of the evolution of cell structure and function.

Bacterial genomics

During the last decade, great advances have been made in the study of bacterial genomes which is perhaps better described by the term bacterial genomics. The application of powerful techniques, such as pulsed-field gel electrophoresis of macro-restriction fragments of genomic DNA, has freed the characterisation of the chromosomes of many bacteria from the constraints imposed by classical genetic analysis. It is now possible to analyse the genome of virtually every microorganism by direct molecular methods and to construct detailed physical and gene maps. In this review, the various practical approaches are compared and contrasted, and some of the emerging themes of bacterial genomics, such as the size, shape, number and organisation of chromosomes are discussed.

Fibrillarin-like proteins occur in the domain Archaea

Fibrillarin is found in the nucleolus of Eucarya and associated with small nucleolar RNAs. It is involved in the processing of precursor rRNA. Two genes, encoding fibrillarin-like proteins from Methanococcus voltae and Methanococcus vannielii, have been isolated. The genes were named flpA (fibrillarin-like protein).

Selenium is involved in the negative regulation of the expression of selenium-free [NiFe] hydrogenases in Methanococcus voltae

Competitive polymerase chain reactions (PCR) were used to analyze quantitatively the transcription patterns of the four different gene groups encoding [NiFe] hydrogenases in Methanococcus voltae. In cells growing in the presence of selenium, transcripts of only two of the hydrogenase transcription units could be detected in quantities above background levels. The missing transcripts encode the selenium-free F420-non-reducing and F420-reducing hydrogenases. In cells grown without selenium these transcripts are detectable, indicating the involvement of selenium in their transcriptional regulation.

mRNAs in the methanogenic archaeon Methanococcus vannielii: numbers, half-lives and processing

Cells from the early exponential growth phase of cultures of the methanogenic archaeon Methanococcus vannielii have been shown to contain c. 180 transcripts of the mcrBDCGA (mcr) operon, c. 100 transcripts of the MvaL1,L10,L12 (Mva) operon, c. 8 transcripts of the argG gene and c. 1 transcript of the secY gene. These values decreased to c. 50 mcr transcripts, c. 30 Mva transcripts, c. 3 argG transcripts and < 1 secY transcript per cell as the cultures entered the stationary phase of growth. Addition of bromo-ethanesulphonate (BES) or removal of H2 inhibited growth and RNA synthesis in vivo and, at 37 degrees C in the presence of BES, the half-lives of the mcr, Mva, argG and secY transcripts were found to be 15 min, 30 min, 57 min and 7 min, respectively. Addition of puromycin, pseudomonic acid or virginiamycin also inhibited growth but did not inhibit transcription. In the presence of puromycin the half-lives of the mcr and Mva transcripts increased c. 4.6-fold and c. 3.5-fold, respectively, and there was a net accumulation of the Mva transcript. Addition of pseudomonic acid or virginiamycin also increased the half-life of the Mva transcript and also resulted in the accumulation of a second, shorter Mva transcript but did not increase the half-life of the mcr transcript. Transcription of the mcr operon was not stimulated by partial inhibition of methanogenesis.

Field alternation gel electrophoresis--status quo

Since the description of the original technique of field alternation gel electrophoresis (FAGE) about ten years ago there have been significant developments in the area. Between 1983 and early 1987 dramatic improvements in the technique and apparatus resulted in a 500- to 600-fold increase in the functional separation capacity of conventional agarose gel electrophoresis. Details of the improvements in technique and equipment was the subject of an earlier review [H. J. S. Dawkins, J. Chromatogr., 492 (1989) 615]. This review concentrates on the application of FAGE technology. The FAGE technique is no longer restricted to simply separating large DNA fragments. This method is presently being used for electrophoretic karyotyping, long-range genomic mapping, cloning of large DNA fragments into new vectors, the study of pathogenic chromosomal alterations and the structural analysis of chromosomes. The applications of FAGE in molecular biology and genetics is constantly expanding, with the full potential of this technique still to be realised.

A physical map of the sulfur-dependent archaebacterium Sulfolobus acidocaldarius 7 chromosome

A chromosomal map of the sulfur-dependent thermoacidophilic archaebacterium Sulfolobus acidocaldarius 7 was constructed with four restriction enzymes: NotI, BssHII, RsrII, and EagI. The map indicated that the chromosome is a single circular DNA of 2,760 +/- 20 kb (mean +/- standard error of the mean). rRNA genes were also mapped. They were located at one site in the genome.

Physical and genetic map of the chromosome of Lactococcus lactis subsp. lactis IL1403

A combined physical and genetic map of the chromosome of Lactococcus lactis subsp. lactis IL1403 was determined. We constructed a restriction map for the NotI, ApaI, and SmaI enzymes. The order of the restriction fragments was determined by using the randomly integrative plasmid pRL1 and by performing indirect end-labeling experiments. The strain IL1403 chromosome was found to be circular and 2,420 kb in size. A total of 24 chromosomal markers were mapped on the chromosome by performing hybridization experiments with gene probes for L. lactis and various other bacteria. Integration of pRC1-derived plasmids via homologous recombination allowed more precise location of some lactococcal genes and allowed us to determine the orientation of these genes on the chromosome. Recurrent sequences, such as insertion elements and rRNA gene (rrn) clusters, were also mapped. At least seven copies of IS1076 were present and were located on 50% of the chromosome. In contrast, no copy of ISS1RS was detected. Six ribosomal operons were found on the strain IL1403 chromosome; five were located on 16% of the chromosome and were transcribed in the same direction. A comparison of the physical maps of L. lactis subsp. lactis IL1403 and DL11 showed that these two strains are closely related and that the variable regions are located mainly near the rrn gene clusters. In contrast, despite major restriction pattern dissimilarities between L. lactis IL1403 and MG1363, the overall genetic organization of the genome seems to be conserved between these two strains.

Physical map of the Methanobacterium thermoautotrophicum Marburg chromosome

A physical map of the Methanobacterium thermoautotrophicum Marburg chromosome was constructed by using pulsed-field gel electrophoresis of restriction fragments generated by NotI, PmeI, and NheI. The order of the fragments was deduced from Southern blot hybridization of NotI fragment probes to various restriction digests and from partial digests. The derived map is circular, and the genome size was estimated to be 1,623 kb. Several cloned genes were hybridized to restriction fragments to locate their positions on the map. Genes coding for proteins involved in the methanogenic pathway were located on the same segment of the circular chromosome. In addition, the genomes of a variety of thermophilic Methanobacterium strains were treated with restriction enzymes and analyzed by pulsed-field gel electrophoresis. The sums of the fragment sizes varied from 1,600 to 1,728 kb among the strains, and widely different macrorestriction patterns were observed.

Construction of an EcoRI restriction map of Mycoplasma pneumoniae and localization of selected genes

A restriction map of the genome of Mycoplasma pneumoniae, a small human pathogenic bacterium, was constructed by means of an ordered cosmid library which spans the complete bacterial chromosome. The positions of 143 endonuclease EcoRI restriction fragments were determined and aligned with the physical map. In addition, restriction sites for the rare-cutting enzymes XhoI (25 sites), ApaI (13 sites), NotI (2 sites), and SfiI (2 sites) were included. The resulting map consists of 185 restriction sites, has a mean resolution of 4.4 kbp, and predicts a genome size of 809 kbp. In addition, several genes were identified and mapped to their respective genomic EcoRI restriction fragments.

Physical genome analysis of bacteria

Pulsed-field gel electrophoresis (PFGE) is a general analytical tool to separate large DNA molecules and may therefore be applied to problems from all areas of bacteriology. The genome size of bacteria covers the range of 0.6 to 10 megabase pairs. For genome fingerprinting, the bacterial chromosome is cleaved with a restriction endonuclease that gives a resolvable and informative number of five to one hundred fragments on the PFGE gel. Restriction enzymes are chosen according to GC content, degree of methylation, and codon usage of the respective bacterial genus. Macrorestriction fingerprinting allows the identification of bacterial strains and the distinction between related and unrelated strains. If fragment patterns of several restriction digestions are quantitatively evaluated, strains can be classified according to genetic relatedness at the level of genus, species, and biovar. In particular, members of a clonal lineage can be uncovered. Hence, any problem from applied, environmental, and clinical microbiology may be addressed by PFGE restriction analysis where the spatiotemporal spread of a bacterial clone is of interest. In bacterial genomics, PFGE is employed for the top-down construction of macrorestriction maps of the chromosome which yields data about genome organization, mobile genetic elements, and the arrangement of gene loci and gene families. The genomic diversity of a bacterial species is elucidated by comparative chromosome mapping. Map positions of restriction sites and gene loci of interest serve as landmarks to assess the extent of gross chromosomal modification, namely insertions, deletions and inversions. Intra- and interspecies comparisons of genome organization provide insights into the structure and diversity of bacterial populations and the phylogeny of bacterial taxa.

Identification and isolation of the polyferredoxin from Methanobacterium thermoautotrophicum strain delta H

Sequencing the genes encoding the methyl viologen-reducing hydrogenase, cloned from Methanobacterium thermoautotrophicum strain delta H and Methanothermus fervidus, revealed the presence of tightly linked genes, designated mvhB, which were predicted to encode proteins containing six tandemly arranged bacterial ferrodoxin-like domains. A lacZ-mvhB gene fusion has been constructed and expressed in Escherichia coli. Rabbit antibodies raised against the fusion polypeptide purified from E. coli have been used to identify and isolate the polyferrodoxin from Mb. thermoautotrophicum strain delta H. The polyferredoxin accumulates in cells of the methanogen during exponential growth but decreases rapidly on entry into stationary phase. It is not processed into monoferredoxins and is located primarily in the soluble fraction of cell lysates of Mb. thermoautotrophicum. Metronidazole reduction by crude extracts of Mb. thermoautotrophicum strain delta H cells, dependent on the presence of hydrogen and the heterodisulfide CoM-S-S-HTP [formed from the two coenzymes 2-mercaptoethanesulfonic acid (coenzyme M, HS-CoM) and N-(7-mercaptoheptanoyl)threonine O3-phosphate (HS-HTP)], was not inhibited by the antibodies raised against the LacZ-MvhB fusion polypeptide.

A BlnI restriction map of the Salmonella typhimurium LT2 genome

BlnI or AvrII (5'-CCTAGG) sites are very rare in the Salmonella typhimurium LT2 genome. BlnI was used to construct a physical map which was correlated with the genetic map by using three methods. First, Tn10 carries BlnI sites, and the extra restriction sites produced by 34 genetically mapped Tn10 insertions were physically mapped by using pulsed-field gel electrophoresis. Second, six genetically mapped Mud-P22 prophage insertions were used to assign BlnI fragments. Integration of Mud-P22 introduces 30 kb of DNA that can easily be detected by a "shift up" in all but the largest BlnI fragments. Finally, induced Mud-P22 insertions package more than 100 kb of genomic DNA adjacent to one side of the insertion. Some of the smaller BlnI fragments were localized by hybridization to a dot blot array of 52 lysates from induced Mud-P22 insertions. Of the 10 BlnI sites mapped, 6 probably occur in or near the 16S rRNA genes at about 55, 71, 83, 86, 88.5, and 89.5 min. There is one BlnI site in the 90-kb pSLT plasmid. Two additional BlnI fragments of about 7 and 4 kb have not been localized. The size of the genome was estimated as 4.78 Mb (+/- 0.1 Mb) excluding pSLT but including prophages Fels-1 and Fels-2. One BlnI fragment that maps between 55 and 59 min showed a 40-kb reduction in size in a strain cured of the approximately 40-kb Fels-2 prophage.

Localizing genes on the map of the genome of Haloferax volcanii, one of the Archaea

We have assigned genetic markers to locations on the physical map of the genome of the archaeon Haloferax volcanii, using both a physical method (hybridization) and a more specific genetic technique (transformation with cosmids). Hybridizations were against restriction digests of each of 151 cosmids making up a minimally overlapping set and covering 96% of the genome. Results with a cloned insertion sequence and a tRNA probe indicated that transposable elements are concentrated on two of the four plasmids of this species, whereas regions complementary to tRNA are largely chromosomal. For a genetic analysis of genes involved in the biosynthesis of amino acids, purines, and pyrimidines, we used cosmid transformation to assign 139 of 243 ethyl methanesulfonate-induced auxotrophic mutations, generated and characterized for this study, to single cosmids or pairs of cosmids from the minimal set. Mutations affecting the biosynthesis of uracil, adenine, guanine, and 14 amino acids have been mapped in this way. All mutations mapped to the 2920-kilobase-pair chromosome of Hf. volcanii and seemed uniformly distributed around this circular replicon. In some cases, many mutations affecting a single pathway map to the same or overlapping cosmids, as would be expected were genes for the pathway linked. For other biosynthetic pathways, several unlinked genetic loci can be identified.

Detailed physical map and set of overlapping clones covering the genome of the archaebacterium Haloferax volcanii DS2

An integrated approach of "bottom up" and "top down" mapping has produced a minimal set of overlapping cosmid clones covering 96% of the 4140 kilobase-pairs (kbp) Haloferax volcanii DS2 genome and a completely closed physical map. This genome is partitioned into five replicons: a 2920 kbp chromosome and four plasmids, of 690 kbp (pHV4), 442 kbp (pHV3), 86 kbp(pHV1) and 6.4 kbp (pHV2). A restriction map for six infrequently-cutting restriction enzymes was constructed, representing a total of 903 sites in the cloned DNA. We have placed the two ribosomal RNA operons, the genes for 7 S RNA and for RNaseP RNA and 22 protein-coding genes on the map. Restriction site frequencies show significant variation in different portions of the genome. The regions of high site density correspond to halobacterial satellite or FII DNA which includes two small regions of the chromosome, the plasmids pHV1 and pHV2, and half of pHV4, but not pHV3.