Variable Tick Protein in Two Genomic Groups of the Relapsing Fever Spirochete Borrelia hermsii in Western North America

Borrelia hermsii is the primary cause of tick-borne relapsing fever in North America. When its tick vector, Ornithodoros hermsi, acquires these spirochetes from the blood of an infected mammal, the bacteria switch their outer surface from one of many bloodstream variable major proteins (Vmps) to a u...

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Bibliographic Details
Published in:Infection and Immunity 2005-10, Vol.73 (10), p.6647-6658
Main Authors: Porcella, Stephen F, Raffel, Sandra J, Anderson, Donald E, Gilk, Stacey D, Bono, James L, Schrumpf, Merry E, Schwan, Tom G
Format: Article
Language:English
Subjects:
Amino Acid Sequence
Animals
Antigens, Bacterial - chemistry
Antigens, Bacterial - genetics
Arthropoda
Bacterial diseases
Bacterial Infections
Bacterial Outer Membrane Proteins - chemistry
Bacterial Outer Membrane Proteins - classification
Bacterial Outer Membrane Proteins - genetics
Bacteriology
Base Sequence
Biological and medical sciences
Borrelia - classification
Borrelia - genetics
Borrelia - isolation & purification
Borrelia hermsii
Borrelia infections
Chromosome Mapping
Conserved Sequence
Fundamental and applied biological sciences. Psychology
Gene Transfer, Horizontal
Genome, Bacterial
Genomics
Human bacterial diseases
Humans
Infectious diseases
Ixodidae
Lipoproteins - chemistry
Lipoproteins - classification
Lipoproteins - genetics
Medical sciences
Microbiology
Miscellaneous
Molecular Sequence Data
North America
Ornithodoros
Ornithodoros - microbiology
Phylogeny
Plasmids
Recombination, Genetic
Relapsing Fever - microbiology
Sequence Analysis, DNA
Tropical bacterial diseases
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Summary:Borrelia hermsii is the primary cause of tick-borne relapsing fever in North America. When its tick vector, Ornithodoros hermsi, acquires these spirochetes from the blood of an infected mammal, the bacteria switch their outer surface from one of many bloodstream variable major proteins (Vmps) to a unique protein, Vtp (Vsp33). Vtp may be critical for successful tick transmission of B. hermsii; however, the gene encoding this protein has been described previously in only one isolate. Here we identified and sequenced the vtp gene in 31 isolates of B. hermsii collected over 40 years from localities throughout much of its known geographic distribution. Seven major Vtp types were found. Little or no sequence variation existed within types, but between them significant variation was observed, similar to the pattern of diversity described for the outer surface protein C (OspC) gene in Lyme disease spirochetes. The pattern of sequence relatedness among the Vtp types was incongruent in two branches compared to two genomic groups identified among the isolates by multilocus sequence typing of the 16S rRNA, flaB, gyrB, and glpQ genes. Therefore, both horizontal transfer and recombination within and between the two genomic groups were responsible for some of the variation observed in the vtp gene. O. hermsi ticks were capable of transmitting spirochetes in the newly identified genomic group. Therefore, given the longevity of the tick vector and persistent infection of spirochetes in ticks, these arthropods rather than mammals may be the likely host where the exchange of spirochetal DNA occurs.
ISSN:0019-9567
1098-5522
DOI:10.1128/IAI.73.10.6647-6658.2005