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Query: EC:3.1.30.2 (
endonuclease
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18,621
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The DNA of the first northcentral United States human
Lyme disease
isolate, Borrellia burgdorferi NCH-1, was characterized and compared with the DNAs of nine other B. burgdorferi isolates. Strain NCH-1 was isolated in August 1989 from a human skin biopsy specimen. DNA was analyzed by pulsed-field gel electrophoresis and restriction
endonuclease
analysis. Contour-clamped homogeneous electric field pulsed-field gel electrophoresis of in situ-lysed cells was performed to compare the plasmid profiles of the various isolates. The plasmid profile of isolate NCH-1, which included five plasmids of approximately 69, 42, 38, 32, and 23 kb, could be distinguished from those of the other isolates examined. The DNA profile of NCH-1 was most similar to those of strain 297 (human cerebrospinal fluid isolate, Connecticut) and strain PAL (human erythema migrans isolate, New York) and most dissimilar from those of strain P/Gau (human erythema migrans isolate, Germany) and strain IPF (Ixodes persulcatus tick isolate, Japan). These results indicate that genetic diversity exists among B. burgdorferi strains isolated from different geographical areas.
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PMID:DNA analysis of Borrelia burgdorferi NCH-1, the first northcentral U.S. human Lyme disease isolate. 155 88
The spirochete Borrelia burgdorferi, which causes
Lyme disease
, and other members of the Borrelia genus are unique among characterized bacteria in having a linear chromosome. A restriction map of the chromosome of B. burgdorferi 212 was constructed by making extensive use of digestions in agarose blocks of restriction
endonuclease
fragments or chromosomal DNA that had been purified by pulsed-field gel electrophoresis. A total of 47 digestion sites for the enzymes SgrAI, SacII, MluI, BssHII, EagI, SmaI, NaeI, and ApaI were located. In most regions of the map, the gap between sites is 50 kbp or less, and 122 kbp is the largest distance between adjacent sites. The mapping data were consistent with previous conclusions that the B. burgdorferi chromosome is linear. The total size of the B. burgdorferi 212 chromosome was determined to be 946 kbp from the sums of the sizes of SacII, MluI, BssHII, and SmaI fragments, making it one of the smallest known bacterial chromosomes. The rRNA genes were found to be located near the center of the chromosome. One copy of the 16S rRNA gene (rrs) and two copies of the 23S rRNA gene (designated rrlA and rrlB), the latter pair in a tandem repeat, were detected. This particular complement of these two genes has not been reported for another bacterium.
...
PMID:Physical map of the linear chromosome of the bacterium Borrelia burgdorferi 212, a causative agent of Lyme disease, and localization of rRNA genes. 159 27
Genomes of several Borrelia burgdorferi isolates from North America and Europe were characterized by restriction
endonuclease
analysis and DNA hybridization using labeled B. burgdorferi whole-cell DNA (strain ATCC 35210). Several different restriction and homology patterns were observed among these isolates, indicating genotypic heterogeneity within this genus and species. It was concluded from this study that restriction
endonuclease
analysis of B. burgdorferi whole-cell DNA may be a reliable and accurate method for identifying strains or genotypes of the
Lyme disease
agent.
...
PMID:Characterization of Borrelia burgdorferi isolates by restriction endonuclease analysis and DNA hybridization. 256 22
Spirochetes were isolated from 71 subadult Ixodes dentatus removed from cottontail rabbits captured in Millbrook, N.Y., and in New York, N.Y. Spirochetes were also cultured from kidney tissues of six rabbits. While all isolates reacted with monoclonal antibody H9724, which identifies the spirochetes as borreliae, more than half did not bind with antibody H5332 and even fewer reacted with H3TS, both of which were produced to outer surface protein A of Borrelia burgdorferi. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis protein profiles of three isolates differed from one another and from all previously characterized B. burgdorferi strains from humans, ticks, and wildlife in North America. The 12 periplasmic flagella that originated subterminally from each pointed end of a rabbit Borellia isolate contrasted with the 11 or fewer flagella for B. burgdorferi reported previously from North America. Although DNA homology and restriction
endonuclease
analysis also revealed differences among a rabbit kidney isolate, an I. dentatus isolate, and B. burgdorferi B31, similarities were sufficient to lead us to conclude that the borreliae in rabbits and I. dentatus are B. burgdorferi. Enzyme-linked immunosorbent assay titers of sera from humans with diagnosed
Lyme disease
to rabbit tick B. burgdorferi were often similar to one another and to those recorded for a reference B. burgdorferi strain.
...
PMID:Antigenically variable Borrelia burgdorferi isolated from cottontail rabbits and Ixodes dentatus in rural and urban areas. 291 24
Restriction
endonuclease
digestion of linear borrelial chromosomal DNA showed that three isolates of UK
Lyme disease
spirochaetes differed markedly from each other and from published data for other isolates from North America and continental Europe. Analysis of linear plasmid bands revealed that UK isolates differed from each other in the number and sizes of the plasmids in isolates from different foci of UK
Lyme disease
. Fatty acid analysis (of fatty acid methyl ester (FAME) profiles) showed the UK isolates clustering together with the relapsing fever spirochaetes, Borrelia turicatae and Borrelia parkeri. These data are discussed in respect of current knowledge of
Lyme borreliosis
in the UK.
...
PMID:Comparison of Borrelia isolated from UK foci of Lyme disease. 764 36
We have constructed physical and genetic maps of the chromosomes of 21
Lyme disease
agent spirochetes from geographically diverse locations. All have linear chromosomes whose lengths range from 935 to 955 kbp, and all contain multiple linear plasmids in the 16- to 175-kbp size range. The locations of 11 gene clusters on the chromosomes of these different isolates are indistinguishable at the resolution achieved in this study, indicating that the members of this related group of species have highly conserved chromosomal gene orders. However, chromosomal restriction
endonuclease
cleavage site maps are unique for nearly all isolates. The 22 chromosomal maps currently available define eight classes of
Lyme disease
agents. Four of these correspond to the previously proposed species Borrelia burgdorferi, Borrelia garinii, Borrelia afzelii, and Borrelia japonica. In addition, the North American isolates 21038, DN127 c19-2, 25015, and CA55 typify four additional chromosomal types that are as phylogenetically distinct as the species listed above. These findings support the idea that comparison of restriction maps is currently the most robust and definitive method for determining overall chromosomal relationships among closely related bacteria. In the course of this work, we located on the chromosome the previously unmapped outer surface protein-encoding LA7 gene and genes homologous to the Escherichia coli priA, plsC, parE, and parC genes, and we have substantially refined the locations of the recA, fla, p22A, and flgE genes.
...
PMID:Linear chromosomes of Lyme disease agent spirochetes: genetic diversity and conservation of gene order. 775 Dec 87
Physical maps of the chromosomes of the
Lyme disease
spirochaetes Borrelia garinii and Borrelia afzelii have been elucidated for the enzymes CspI, SgrAI, I-CeuI, SmaI, EagI, BssHII, MluI and ApaI by two-dimensional pulsed-field gel electrophoresis techniques. The maps contain 42 sites for B. garinii and 32 for B. afzelii. The mapping studies showed that the two chromosomes are linear DNA molecules of 953 and 948 kbp, respectively. A comparison of the physical maps of B. garinii and B. afzelii and the published map of the other
Lyme disease
spirochaete, Borrelia burgdorferi [Davidson, B.E., MacDougall, J. & Saint Girons, I. (1992) J Bacteriol 174, 3766-3774] revealed that the three chromosomes have few
endonuclease
sites in common, apart from a cluster in rrl (encoding 23S rRNA) and rrs (encoding 16S rRNA). Cloned borrelial genes were used as specific hybridization probes to construct genetic maps, using the physical maps as a basis. The resulting maps contain 41 genetic loci for B. burgdorferi, 39 for B. garinii, and 33 for B. afzelii. In contrast to the physical maps, the three genetic maps are closely related, with no detectable differences in gene order along the entire length of the chromosome. It is concluded that the chromosomes of these three borrelial species have undergone no major rearrangements, deletions or insertions during their evolution from a common ancestor. Detailed mapping of the region of the B. garinii and B. afzelii chromosomes that encodes rRNA revealed that each chromosome contains one copy of rrs separated by 5 kbp from two copies each of rrl and rrf (encoding 5S rRNA). (ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Conservation of gene arrangement and an unusual organization of rRNA genes in the linear chromosomes of the Lyme disease spirochaetes Borrelia burgdorferi, B. garinii and B. afzelii. 781 34
We have characterized seven different 32-kb circular plasmids carried by Borrelia burgdorferi isolate B31. Restriction
endonuclease
recognition site mapping and partial sequencing of these plasmids indicated that all seven are probably closely related to each other throughout their lengths and have substantial relationships to cp8.3, an 8.3-kb circular plasmid of B. burgdorferi sensu lato isolate Ip21. With the addition of the seven 32-kb plasmids, this bacterial strain is known to carry at least 10 linear and 9 circular plasmids. Variant cultures of B. burgdorferi B31 lacking one or more of the 32-kb circular plasmids are viable and, at least in some cases, infectious. We have examined a number of different natural isolates of
Lyme disease
borreliae and found that all of the B. burgdorferi sensu stricto isolates and most of the B. burgdorferi sensu lato isolates tested appear to carry multiple 32-kb circular plasmids related to those of B. burgdorferi B31. The ubiquity of these plasmids suggests that they may be important in the natural life cycle of these organisms. They may be highly conjugative plasmids or prophage genomes, which could prove to be useful in genetically manipulating B. burgdorferi.
...
PMID:Homology throughout the multiple 32-kilobase circular plasmids present in Lyme disease spirochetes. 898 1
Holliday junction resolvases (HJRs) are key enzymes of DNA recombination. A detailed computer analysis of the structural and evolutionary relationships of HJRs and related nucleases suggests that the HJR function has evolved independently from at least four distinct structural folds, namely RNase H,
endonuclease
, endonuclease VII-colicin E and RusA. The
endonuclease
fold, whose structural prototypes are the phage lambda exonuclease, the very short patch repair nuclease (Vsr) and type II restriction enzymes, is shown to encompass by far a greater diversity of nucleases than previously suspected. This fold unifies archaeal HJRs, repair nucleases such as RecB and Vsr, restriction enzymes and a variety of predicted nucleases whose specific activities remain to be determined. Within the RNase H fold a new family of predicted HJRs, which is nearly ubiquitous in bacteria, was discovered, in addition to the previously characterized RuvC family. The proteins of this family, typified by Escherichia coli YqgF, are likely to function as an alternative to RuvC in most bacteria, but could be the principal HJRs in low-GC Gram-positive bacteria and AQUIFEX: Endonuclease VII of phage T4 is shown to serve as a structural template for many nucleases, including MCR:A and other type II restriction enzymes. Together with colicin E7, endonuclease VII defines a distinct metal-dependent nuclease fold. As a result of this analysis, the principal HJRs are now known or confidently predicted for all bacteria and archaea whose genomes have been completely sequenced, with many species encoding multiple potential HJRs. Horizontal gene transfer, lineage-specific gene loss and gene family expansion, and non-orthologous gene displacement seem to have been major forces in the evolution of HJRs and related nucleases. A remarkable case of displacement is seen in the
Lyme disease
spirochete Borrelia burgdorferi, which does not possess any of the typical HJRs, but instead encodes, in its chromosome and each of the linear plasmids, members of the lambda exonuclease family predicted to function as HJRs. The diversity of HJRs and related nucleases in bacteria and archaea contrasts with their near absence in eukaryotes. The few detected eukaryotic representatives of the
endonuclease
fold and the RNase H fold have probably been acquired from bacteria via horizontal gene transfer. The identity of the principal HJR(s) involved in recombination in eukaryotes remains uncertain; this function could be performed by topoisomerase IB or by a novel, so far undetected, class of enzymes. Likely HJRs and related nucleases were identified in the genomes of numerous bacterial and eukaryotic DNA viruses. Gene flow between viral and cellular genomes has probably played a major role in the evolution of this class of enzymes. This analysis resulted in the prediction of numerous previously unnoticed nucleases, some of which are likely to be new restriction enzymes.
...
PMID:SURVEY AND SUMMARY: holliday junction resolvases and related nucleases: identification of new families, phyletic distribution and evolutionary trajectories. 1098 59
