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Query: UNIPROT:P06889 (
Mol
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630,302
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Borrelia burgdorferi causes
Lyme disease
, a multisystem illness that can persist in humans for many years. We describe recombination between homologous genes encoding the major outer surface proteins (Osps) A and B of B. burgdorferi which both deletes osp gene sequences and creates chimaeric gene fusions. Recombinant osp genes occur in multiple strains and encode unique proteins that lack some characteristic Osp epitopes. Antigenic variation in Osp through recombination may be relevant to the persistence of B. burgdorferi in an infected host, and has important implications for the utility of OspA and OspB as diagnostic or vaccine candidates for
Lyme disease
. We also describe Osp variation arising from nonsense mutations and sequence divergence, which may also represent significant sources of Osp polymorphism.
Mol
Microbiol 1992 Oct
PMID:Recombination between genes encoding major outer surface proteins A and B of Borrelia burgdorferi. 147 92
We describe the cloning and expression of the pc gene which encodes a major immunodominant protein of Borrelia burgdorferi, the causative agent of
Lyme borreliosis
. The pC protein was purified from lysates of B. burgdorferi strain PKo. After tryptic digestion of the pC protein the resulting oligopeptides were applied to a gas-phase sequenator. Thus partial amino acid sequences were obtained. The deduced oligonucleotides were used as hybridization probes. After Southern blotting a reactive band in the 3 kb range of PstI-digested genomic DNA was detected. The insertion of these fragments into pUC vectors finally resulted in pc-positive Escherichia coli clones. The gene (encoding a protein with 212 amino acids) was expressed in E. coli with varying deletions at the 5' end. A sequence comparison with other outer membrane proteins of B. burgdorferi indicates a processing of pC that is similar to that of lipoproteins.
Mol
Microbiol 1992 Feb
PMID:Molecular analysis and expression of a Borrelia burgdorferi gene encoding a 22 kDa protein (pC) in Escherichia coli. 156 Jul 79
The flagellum associated polypeptide p41 is an immunodominant antigen of Borrelia burgdorferi in the early and late stages of
Lyme borreliosis
. p41 was prepared by affinity chromatography using monoclonal antibody specific for p41. An immunoglobulin class specific ELISA (IgM-, IgG-ELISA) was established with purified p41 as antigen and compared to the conventional ELISA with whole cell ultrasonic antigen. Whereas the sensitivity of IgM- and IgG-ELISA was comparable in both antigen preparations, crossreactivity of sera from syphilitic patients was reduced in the p41 IgG-ELISA. Discrepant results obtained by use of ultrasonic antigen or p41 antigen, were controlled by Western blots. A correlation between the results of p41-ELISA and Western blot was shown.
Mol
Cell Probes 1990 Dec
PMID:Purification of the Borrelia burgdorferi flagellum by use of a monoclonal antibody. 208 34
DNA amplification by the polymerase chain reaction (PCR) was used to detect DNA of the
Lyme disease
spirochaete Borrelia burgdorferi. Primers that specify the amplification of a 145 basepair DNA fragment of the OspA gene of B. burgdorferi were used. The amplification product was detected by gel electrophoresis and ethidium bromide staining or by hybridization to a radiolabelled oligonucleotide probe. The hybridization method was found to be more sensitive. As little as 50 fg of purified B. burgdorferi DNA could be detected by PCR. This corresponds to fewer than 50 spirochaetes. The specificity of PCR for B. burgdorferi was tested by using DNA from other organisms as templates for amplification. No cross-reactivity was found. The data shown provide useful information for the development of a PCR-based diagnostic test for
Lyme disease
.
Mol
Cell Probes 1990 Feb
PMID:Detection of Borrelia burgdorferi DNA by the polymerase chain reaction. 231 97
Borrelia burgdorferi, the
Lyme disease
agent, has double-stranded linear plasmids with covalently closed ends. DNA at the ends, or telomeres, of two linear plasmids of B. burgdorferi strain B31 was examined. Telomeric sequences from both ends of a 16 kb linear plasmid and from one end of a 49 kb linear plasmid were cloned and sequenced. An 18 bp AT-rich inverted repeat was found at each end of the 16 kb linear plasmid. The sequences of the two ends of this plasmid were different beyond these short inverted terminal repeats. The cloned end of the 49 kb linear plasmid had sequence identity with one end of the 16 kb linear plasmid. The end sequence common to both plasmids contained a series of phased, short direct repeats and a 52 bp palindrome adjacent to a highly AT-rich region. These findings indicate that Borrelia linear plasmid telomeres have structural features different from those of other known replicons.
Mol
Microbiol 1990 May
PMID:Cloning and sequence analysis of linear plasmid telomeres of the bacterium Borrelia burgdorferi. 238 60
The ospA and ospB genes encode the major outer membrane proteins of the
Lyme disease
spirochaete Borrelia burgdorferi. The deduced translation products from the ospA and ospB genes were: (OspA) 273 amino acids long with a molecular weight of 29,334, and (OspB) 296 amino acids long with a molecular weight of 31,739. The two Osp proteins showed a great degree of sequence similarity indicating a recent evolutionary event. Molecular analysis and sequence comparison of OspA and OspB with other proteins revealed a sequence similarity to the signal peptides of prokaryotic lipoproteins. These are the first sequences from Borrelia and provide interesting data on the evolutionary relationship between spirochaetes and other species as well as providing potential for spirochaete diagnostics and vaccines.
Mol
Microbiol 1989 Apr
PMID:Molecular analysis of linear plasmid-encoded major surface proteins, OspA and OspB, of the Lyme disease spirochaete Borrelia burgdorferi. 276 88
The nucleotide sequences of the ospC gene from five Danish human Borrelia burgdorferi isolates representing all three B. burgdorferi genospecies (B. burgdorferi sensu stricto, Borrelia garinii sp. nov., and group VS461) and from the American type strain B31 were determined and compared with the published ospC sequence from the German B. burgdorferi isolate PKo (R. Fuchs, S. Jauris, F. Lottspeich, V. Preac-Mursic, B. Wilske, and E. Soutschek,
Mol
. Microbiol. 6:503-509, 1992). The ospC gene was present in all isolates, regardless of the presence or absence of its product, OspC. The deduced amino acid sequences of OspC from the seven isolates were aligned and revealed pairwise sequence identities ranging from 60.5 to 100%. Differences were scattered throughout the amino acid sequences. A phylogenetic tree was constructed and revealed three distinct phenotypic groups OspCI to OspCIII corresponding to the three delineated genospecies. Immunoblot analysis revealed that the seven OspC proteins tested have both common and specific epitopes. There is significant epitope diversity, since even polyclonal antisera showed serotype-restricted specificity. Therefore, a serodiagnostic assay for
Lyme borreliosis
utilizing OspC as a test antigen should include all three OspC phenotypes in order to obtain a species-wide sensitivity.
...
PMID:Polymorphism in ospC gene of Borrelia burgdorferi and immunoreactivity of OspC protein: implications for taxonomy and for use of OspC protein as a diagnostic antigen. 825 51
We describe an in vitro system that will facilitate molecular analysis of the association between
Lyme disease
spirochetes and vector cells. We cocultured Borrelia burgdorferi continuously with two tick cell lines, RAE25 (from Rhipicephalus appendiculatus) and IDE8 (from Ixodes scapularis). A clone isolated after twenty-two passages with RAE25 cells had lost the largest (49 kb) plasmid, and probes containing information normally encoded on it, including genes for two surface proteins, hybridized to smaller plasmids. Spirochetes maintained with IDE 8 cells showed a new 43 kb plasmid that hybridized to a probe made from the 49 kb plasmid. After reisolation from hamsters, these spirochetes carried a large plasmid (100 kb) that hybridized with the 49 kb plasmid. These changes may illustrate a plasticity that enables B. burgdorferi to adapt to different environments.
Insect
Mol
Biol 1993
PMID:Plasmid modifications in a tick-borne pathogen, Borrelia burgdorferi, cocultured with tick cells. 826 98
Using an antiserum of a patient with cutaneous manifestations of
Lyme borreliosis
we have isolated the gene encoding a 27 kDa protein antigen (P27) of Borrelia burgdorferi B29 from a lambda-gt11 expression library. Nucleotide sequence analysis revealed that it is a basic protein of 248 amino acids with a typical prokaryotic leader sequence of 17 amino acid residues at the N-terminus of the proposed translation product. Biochemical investigations showed that P27 is a surface-exposed lipoprotein. From pulsed-field gel electrophoresis and subsequent Southern blot analysis it is evident that the p27 gene is located on a linear plasmid of a size of approximately 55 kb. It was overexpressed in Escherichia coli and the purified recombinant protein was used for biochemical and serological studies. Northern and Western blot analysis demonstrated that p27 is expressed in the European B. burgdorferi strain B29, but not in the American strain B31.
Mol
Microbiol 1993 Jun
PMID:Isolation and analysis of a linear plasmid-located gene of Borrelia burgdorferi B29 encoding a 27 kDa surface lipoprotein (P27) and its overexpression in Escherichia coli. 836 56
The gene of the immunodominant major protein pC of Borrelia burgdorferi was previously cloned and sequenced (R. Fuchs, S. Jauris, F. Lottspeich, V. Preac-Mursic, B. Wilske, and E. Soutschek,
Mol
. Microbiol. 6:503-509, 1992). pC is abundantly expressed on the outer surface of B. burgdorferi, as demonstrated by immunoelectron microscopy with monoclonal antibody L22 1F8. Accordingly, pC is renamed OspC, by analogy to the outer surface proteins OspA and OspB. Western immunoblot analysis of 45 B. burgdorferi isolates with monoclonal antibodies revealed that OspC is immunologically heterogeneous. Partial sequence analysis of the ospC gene confirmed the protein heterogeneity at the genetic level. We found that the degree of identity between the ospC partial sequences of five strains representing different OspA serotypes was only 63.3 to 85.4%. Immunological heterogeneity was also observed among representatives of the three newly designated genospecies of B. burgdorferi sensu lato, B. burgdorferi sensu stricto, B. garinii, and group VS461. Heterogeneity was confirmed for B. garinii at the genetic level. The ospC gene was also cloned from strains that did not express OspC, and antibody-reactive OspC was expressed in Escherichia coli. In addition, OspC-expressing variants were obtained from a nonexpressing strain by plating single colonies on solid medium. These findings confirm that the ospC gene is also present in nonexpressing strains. Because OspC is an immunodominant protein for the early immune response in
Lyme borreliosis
and was effective as a vaccine in an animal model, the immunological and molecular polymorphisms of ospC and OspC have important implications for the development of diagnostic reagents and vaccines.
...
PMID:Immunological and molecular polymorphisms of OspC, an immunodominant major outer surface protein of Borrelia burgdorferi. 847 8
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