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2. Characterization and genomic analysis of the Lyme disease spirochete bacteriophage ϕBB-1.

Author

Faith, Dominick R., Kinnersley, Margie, Brooks, Diane M., Drecktrah, Dan, Hall, Laura S., Luo, Eric, Santiago-Frangos, Andrew, Wachter, Jenny, Samuels, D. Scott, and Secor, Patrick R.

Subjects
LYME disease, GENOMICS, HORIZONTAL gene transfer, SPIROCHETES, BACTERIOPHAGES, BORRELIA burgdorferi, TICK-borne diseases
Abstract

Lyme disease is a tick-borne infection caused by the spirochete Borrelia (Borreliella) burgdorferi. Borrelia species have highly fragmented genomes composed of a linear chromosome and a constellation of linear and circular plasmids some of which are required throughout the enzootic cycle. Included in this plasmid repertoire by almost all Lyme disease spirochetes are the 32-kb circular plasmid cp32 prophages that are capable of lytic replication to produce infectious virions called ϕBB-1. While the B. burgdorferi genome contains evidence of horizontal transfer, the mechanisms of gene transfer between strains remain unclear. While we know that ϕBB-1 transduces cp32 and shuttle vector DNA during in vitro cultivation, the extent of ϕBB-1 DNA transfer is not clear. Herein, we use proteomics and long-read sequencing to further characterize ϕBB-1 virions. Our studies identified the cp32 pac region and revealed that ϕBB-1 packages linear cp32s via a headful mechanism with preferential packaging of plasmids containing the cp32 pac region. Additionally, we find ϕBB-1 packages fragments of the linear chromosome and full-length plasmids including lp54, cp26, and others. Furthermore, sequencing of ϕBB-1 packaged DNA allowed us to resolve the covalently closed hairpin telomeres for the linear B. burgdorferi chromosome and most linear plasmids in strain CA-11.2A. Collectively, our results shed light on the biology of the ubiquitous ϕBB-1 phage and further implicates ϕBB-1 in the generalized transduction of diverse genes and the maintenance of genetic diversity in Lyme disease spirochetes. Author summary: Lyme disease is a tick-borne disease caused by the bacterium Borrelia (Borreliella) burgdorferi. Borrelia bacteria have complex genomes that include various circular and linear DNA plasmids. Horizontal gene transfer occurs between Lyme disease bacteria; however, the mechanisms are unclear. A key component of the Borrelia genome is the 32-kb circular plasmid prophage cp32. When cp32 prophages are induced, infectious virions called ϕBB-1 are produced. It is thought that ϕBB-1 phages horizontally transfer DNA between Lyme disease bacteria. Using proteomics and long read DNA sequencing, we found that ϕBB-1 virions package not only cp32 plasmids but also fragments of the bacterial chromosome and other plasmids. Additionally, our sequencing revealed unique features of the packaged DNA, such as the pac site that is used to initiate DNA packaging into ϕBB-1 capsids. These findings implicate a role for ϕBB-1 in horizontal gene transfer between Borrelia strains, contributing to their genetic diversity. Understanding this process is vital for developing better strategies to combat Lyme disease. [ABSTRACT FROM AUTHOR]

Published
2024
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4. c‐di‐GMP regulates activity of the PlzA RNA chaperone from the Lyme disease spirochete.

Author

Van Gundy, Taylor, Patel, Dhara, Bowler, Bruce E., Rothfuss, Michael T., Hall, Allie J., Davies, Christopher, Hall, Laura S., Drecktrah, Dan, Marconi, Richard T., Samuels, D. Scott, and Lybecker, Meghan C.

Subjects
LYME disease, BORRELIA burgdorferi, SPIROCHETES, DOUBLE-stranded RNA, LIFE cycles (Biology), RNA, TICK infestations
Abstract

PlzA is a c‐di‐GMP‐binding protein crucial for adaptation of the Lyme disease spirochete Borrelia (Borreliella) burgdorferi during its enzootic life cycle. Unliganded apo‐PlzA is important for vertebrate infection, while liganded holo‐PlzA is important for survival in the tick; however, the biological function of PlzA has remained enigmatic. Here, we report that PlzA has RNA chaperone activity that is inhibited by c‐di‐GMP binding. Holo‐ and apo‐PlzA bind RNA and accelerate RNA annealing, while only apo‐PlzA can strand displace and unwind double‐stranded RNA. Guided by the crystal structure of PlzA, we identified several key aromatic amino acids protruding from the N‐ and C‐terminal domains that are required for RNA‐binding and unwinding activity. Our findings illuminate c‐di‐GMP as a switch controlling the RNA chaperone activity of PlzA, and we propose that complex RNA‐mediated modulatory mechanisms allow PlzA to regulate gene expression during both the vector and host phases of the B. burgdorferi life cycle. [ABSTRACT FROM AUTHOR]

Published
2023
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9. The glycerol-3-phosphate dehydrogenases GpsA and GlpD constitute the oxidoreductive metabolic linchpin for Lyme disease spirochete host infectivity and persistence in the tick.

Author

Drecktrah, Dan, Hall, Laura S., Crouse, Bethany, Schwarz, Benjamin, Richards, Crystal, Bohrnsen, Eric, Wulf, Michael, Long, Bonnie, Bailey, Jessica, Gherardini, Frank, Bosio, Catharine M., Lybecker, Meghan C., and Samuels, D. Scott

Subjects
LYME disease, SPIROCHETES, TICK-borne diseases, DEHYDROGENASES, TICKS, SUPPRESSOR mutation
Abstract

We have identified GpsA, a predicted glycerol-3-phosphate dehydrogenase, as a virulence factor in the Lyme disease spirochete Borrelia (Borreliella) burgdorferi: GpsA is essential for murine infection and crucial for persistence of the spirochete in the tick. B. burgdorferi has a limited biosynthetic and metabolic capacity; the linchpin connecting central carbohydrate and lipid metabolism is at the interconversion of glycerol-3-phosphate and dihydroxyacetone phosphate, catalyzed by GpsA and another glycerol-3-phosphate dehydrogenase, GlpD. Using a broad metabolomics approach, we found that GpsA serves as a dominant regulator of NADH and glycerol-3-phosphate levels in vitro, metabolic intermediates that reflect the cellular redox potential and serve as a precursor for lipid and lipoprotein biosynthesis, respectively. Additionally, GpsA was required for survival under nutrient stress, regulated overall reductase activity and controlled B. burgdorferi morphology in vitro. Furthermore, during in vitro nutrient stress, both glycerol and N-acetylglucosamine were bactericidal to B. burgdorferi in a GlpD-dependent manner. This study is also the first to identify a suppressor mutation in B. burgdorferi: a glpD deletion restored the wild-type phenotype to the pleiotropic gpsA mutant, including murine infectivity by needle inoculation at high doses, survival under nutrient stress, morphological changes and the metabolic imbalance of NADH and glycerol-3-phosphate. These results illustrate how basic metabolic functions that are dispensable for in vitro growth can be essential for in vivo infectivity of B. burgdorferi and may serve as attractive therapeutic targets. Author summary: Lyme disease (borreliosis) is the most common tick-borne disease in the Northern hemisphere and its prevalence is increasing. Borrelia burgdorferi, the etiological agent of Lyme disease, is an enzootic pathogen that alternates between a tick vector and vertebrate host. Humans are considered an incidental host after transmission of B. burgdorferi following the bite of an infected tick. The mechanisms by which B. burgdorferi persists in the Ixodid tick, transmits to a vertebrate host and establishes infection are not well understood. Therefore, identifying virulence factors and uncovering the pathogenic strategies in the spirochete remain important to address the public health concerns of Lyme disease. In this study, we identify an enzyme involved in three-carbon metabolism, GpsA, as a new virulence factor with an effect on persistence in ticks. GpsA and GlpD, another enzyme, constitute a bidirectional metabolic node connecting lipid biosynthesis and glycolysis, which serves as the linchpin for regulating carbon utilization for B. burgdorferi throughout its enzootic cycle. Disruption of this node causes a lethal metabolic imbalance revealing a potential therapeutic target for the treatment of Lyme disease. [ABSTRACT FROM AUTHOR]

Published
2022
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14. Characterization of 6S RNA in the Lyme disease spirochete.

Author

Drecktrah, Dan, Hall, Laura S., Brinkworth, Amanda J., Comstock, Jeanette R., Wassarman, Karen M., and Samuels, D. Scott

Subjects
LYME disease, RNA, SPIROCHETES, PROTEIN C, BACTERIAL adaptation, CARRIER proteins
Abstract

6S RNA binds to RNA polymerase and regulates gene expression, contributing to bacterial adaptation to environmental stresses. In this study, we examined the role of 6S RNA in murine infectivity and tick persistence of the Lyme disease spirochete Borrelia (Borreliella) burgdorferi. B. burgdorferi 6S RNA (Bb6S RNA) binds to RNA polymerase, is expressed independent of growth phase or nutrient stress in culture, and is processed by RNase Y. We found that rny (bb0504), the gene encoding RNase Y, is essential for B. burgdorferi growth, while ssrS, the gene encoding 6S RNA, is not essential, indicating a broader role for RNase Y activity in the spirochete. Bb6S RNA regulates expression of the ospC and dbpA genes encoding outer surface protein C and decorin binding protein A, respectively, which are lipoproteins important for host infection. The highest levels of Bb6S RNA are found when the spirochete resides in unfed nymphs. ssrS mutants lacking Bb6S RNA were compromised for infectivity by needle inoculation, but injected mice seroconverted, indicating an ability to activate the adaptive immune response. ssrS mutants were successfully acquired by larval ticks and persisted through fed nymphs. Bb6S RNA is one of the first regulatory RNAs identified in B. burgdorferi that controls the expression of lipoproteins involved in host infectivity. [ABSTRACT FROM AUTHOR]

Published
2020
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15. The Stringent Response-Regulated sRNA Transcriptome of <italic>Borrelia burgdorferi</italic>.

Author

Drecktrah, Dan, Hall, Laura S., Rescheneder, Philipp, Lybecker, Meghan, and Samuels, D. Scott

Subjects
LYME disease, SPIROCHETES, BORRELIA burgdorferi, NON-coding RNA, GENETIC regulation, STRINGENT control (Bacteria)
Abstract

The Lyme disease spirochete Borrelia (Borreliella) burgdorferi must tolerate nutrient stress to persist in the tick phase of its enzootic life cycle. We previously found that the stringent response mediated by RelBbu globally regulates gene expression to facilitate persistence in the tick vector. Here, we show that RelBbu regulates the expression of a swath of small RNAs (sRNA), affecting 36% of previously identified sRNAs in B. burgdorferi. This is the first sRNA regulatory mechanism identified in any spirochete. Threefold more sRNAs were RelBbu-upregulated than downregulated during nutrient stress and included antisense, intergenic and 5′ untranslated region sRNAs. RelBbu-regulated sRNAs associated with genes known to be important for host infection (bosR and dhhp) as well as persistence in the tick (glpF and hk1) were identified, suggesting potential mechanisms for post-transcriptional regulation of gene expression. [ABSTRACT FROM AUTHOR]

Published
2018
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16. Interaction of the Lyme disease spirochete with its tick vector.

Author

Caimano, Melissa J., Drecktrah, Dan, Kung, Faith, and Samuels, D. Scott

Subjects
SPIROCHETES, BORRELIA burgdorferi, LYME disease, TICK-borne encephalitis, GUANOSINE tetraphosphate, BLOOD meal as feed, INFECTIOUS disease transmission
Abstract

Borrelia burgdorferi, the causative agent of Lyme disease (along with closely related genospecies), is in the deeply branching spirochete phylum. The bacterium is maintained in nature in an enzootic cycle that involves transmission from a tick vector to a vertebrate host and acquisition from a vertebrate host to a tick vector. During its arthropod sojourn, B. burgdorferi faces a variety of stresses, including nutrient deprivation. Here, we review some of the spirochetal factors that promote persistence, maintenance and dissemination of B. burgdorferi in the tick, and then focus on the utilization of available carbohydrates as well as the exquisite regulatory systems invoked to adapt to the austere environment between blood meals and to signal species transitions as the bacteria traverse their enzootic cycle. The spirochetes shift their source of carbon and energy from glucose in the vertebrate to glycerol in the tick. Regulation of survival under limiting nutrients requires the classic stringent response in which RelBbu controls the levels of the alarmones guanosine tetraphosphate and guanosine pentaphosphate (collectively termed (p)ppGpp), while regulation at the tick-vertebrate interface as well as regulation of protective responses to the blood meal require the two-component system Hk1/Rrp1 to activate production of the second messenger cyclic-dimeric-GMP (c-di-GMP). [ABSTRACT FROM AUTHOR]

Published
2016
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17. The Borrelia burgdorferi RelA/SpoT Homolog and Stringent Response Regulate Survival in the Tick Vector and Global Gene Expression during Starvation.

Author

Drecktrah, Dan, Lybecker, Meghan, Popitsch, Niko, Rescheneder, Philipp, Hall, Laura S., and Samuels, D. Scott

Subjects
BORRELIA burgdorferi, BORRELIA, GENE expression, MOLECULAR genetics, SPIROCHAETACEAE
Abstract

As the Lyme disease bacterium Borrelia burgdorferi traverses its enzootic cycle, alternating between a tick vector and a vertebrate host, the spirochete must adapt and persist in the tick midgut under prolonged nutrient stress between blood meals. In this study, we examined the role of the stringent response in tick persistence and in regulation of gene expression during nutrient limitation. Nutritionally starving B. burgdorferi in vitro increased the levels of guanosine tetraphosphate (ppGpp) and guanosine pentaphosphate (pppGpp), collectively referred to as (p)ppGpp, products of the bifunctional synthetase/hydrolase RelBbu (RelA/SpoT homolog). Conversely, returning B. burgdorferi to a nutrient-rich medium decreased (p)ppGpp levels. B. burgdorferi survival in ticks between the larval and nymph blood meals, and during starvation in vitro, was dependent on RelBbu. Furthermore, normal morphological conversion from a flat-wave shape to a condensed round body (RB) form during starvation was dependent on RelBbu; relBbu mutants more frequently formed RBs, but their membranes were compromised. By differential RNA sequencing analyses, we found that RelBbu regulates an extensive transcriptome, both dependent and independent of nutrient stress. The RelBbu regulon includes the glp operon, which is important for glycerol utilization and persistence in the tick, virulence factors and the late phage operon of the 32-kb circular plasmid (cp32) family. In summary, our data suggest that RelBbu globally modulates transcription in response to nutrient stress by increasing (p)ppGpp levels to facilitate B. burgdorferi persistence in the tick. [ABSTRACT FROM AUTHOR]

Published
2015
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18. An Inverted Repeat in the ospC Operator Is Required for Induction in Borrelia burgdorferi.

Author

Drecktrah, Dan, Hall, Laura S., Hoon-Hanks, Laura L., and Samuels, D. Scott

Subjects
BORRELIA burgdorferi, LYME disease treatment, MEMBRANE proteins, SPIROCHAETOSIS, IMMUNE response, INVERTED repeats (Genetics), DNA supercoiling, NUCLEOTIDE sequence
Abstract

Borrelia burgdorferi, the spirochete that causes Lyme disease, differentially regulates synthesis of the outer membrane lipoprotein OspC to infect its host. OspC is required to establish infection but then repressed in the mammal to avoid clearance by the adaptive immune response. Inverted repeats (IR) upstream of the promoter have been implicated as an operator to regulate ospC expression. We molecularly dissected the distal inverted repeat (dIR) of the ospC operator by site-directed mutagenesis at its endogenous location on the circular plasmid cp26. We found that disrupting the dIR but maintaining the proximal IR prevented induction of OspC synthesis by DNA supercoiling, temperature, and pH. Moreover, the base-pairing potential of the two halves of the dIR was more important than the nucleotide sequence in controlling OspC levels. These results describe a cis-acting element essential for the expression of the virulence factor OspC. [ABSTRACT FROM AUTHOR]

Published
2013
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19. Genetics of Borrelia burgdorferi.

Author

Brisson, Dustin, Drecktrah, Dan, Eggers, Christian H., and Samuels, D. Scott

Subjects
BORRELIA burgdorferi, BACTERIAL genetics, SPIROCHETES, GENETIC vectors, VERTEBRATES, LYME disease, GENETIC transformation
Abstract

The spirochetes in the Borrelia burgdorferi sensu lato genospecies group cycle in nature between tick vectors and vertebrate hosts. The current assemblage of B. burgdorferi sensu lato, of which three species cause Lyme disease in humans, originated from a rapid species radiation that occurred near the origin of the clade. All of these species share a unique genome structure that is highly segmented and predominantly composed of linear replicons. One of the circular plasmids is a prophage that exists as several isoforms in each cell and can be transduced to other cells, likely contributing to an otherwise relatively anemic level of horizontal gene transfer, which nevertheless appears to be adequate to permit strong natural selection and adaptation in populations of B. burgdorferi. Although the molecular genetic toolbox is meager, several antibiotic-resistant mutants have been isolated, and the resistance alleles, as well as some exogenous genes, have been fashioned into markers to dissect gene function. Genetic studies have probed the role of the outer membrane lipoprotein OspC, which is maintained in nature by multiple niche polymorphisms and negative frequency-dependent selection. One of the most intriguing genetic systems in B. burgdorferi is vls recombination, which generates antigenic variation during infection of mammalian hosts. [ABSTRACT FROM AUTHOR]

Published
2012
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20. Identification and function of the RNA chaperone Hfq in the Lyme disease spirochete Borrelia burgdorferi M. C. Lybecker, C. A. Abel, A. L. Feig and D. S. Samuels B. burgdorferi Hfq.

Author

Lybecker, Meghan C., Abel, Cassandra A., Feig, Andrew L., and Samuels, D. Scott

Subjects
BORRELIA burgdorferi, CARRIER proteins, LYME disease, RNA, MESSENGER RNA, ESCHERICHIA coli
Abstract

Hfq is a global regulatory RNA-binding protein. We have identified and characterized an atypical Hfq required for gene regulation and infectivity in the Lyme disease spirochete Borrelia burgdorferi. Sequence analyses of the putative B. burgdorferi Hfq protein revealed only a modest level of similarity with the Hfq from Escherichia coli, although a few key residues are retained and the predicted tertiary structure is similar. Several lines of evidence suggest that the B. burgdorferi bb0268 gene encodes a functional Hfq homologue. First, the hfq gene ( bb0268) restores the efficient translation of an rpoS:: lacZ fusion in an E. coli hfq null mutant. Second, the Hfq from B. burgdorferi binds to the small RNA DsrA and the rpoS mRNA. Third, a B. burgdorferi hfq null mutant was generated and has a pleiotropic phenotype that includes increased cell length and decreased growth rate, as found in hfq mutants in other bacteria. The hfq mutant phenotype is complemented in trans with the hfq gene from either B. burgdorferi or, surprisingly, E. coli. This is the first example of a heterologous bacterial gene complementing a B. burgdorferi mutant. The alternative sigma factor RpoS and the outer membrane lipoprotein OspC, which are induced by increased temperature and required for mammalian infection, are not upregulated in the hfq mutant. Consequently, the hfq mutant is not infectious by needle inoculation in the murine model. These data suggest that Hfq plays a key role in the regulation of pathogenicity factors in B. burgdorferi and we hypothesize that the spirochete has a complex Hfq-dependent sRNA network. [ABSTRACT FROM AUTHOR]

Published
2010
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21. Who is the BosR around here anyway?

Author

Samuels, D. Scott and Radolf, Justin D.

Subjects
*BORRELIA burgdorferi, *PROTEIN binding, *GENETIC transcription, *MAMMALS, *INFECTION, *LYME disease
Abstract

Borrelia burgdorferi encodes a novel DNA-binding protein in the Fur/PerR family of transcriptional regulators termed BosR (BB0647). This issue of Molecular Microbiology contains two molecular genetic studies that help to clarify the function of BB0647 and resolve longstanding controversies. Loss of BB0647 appears to have a pronounced effect on borrelial gene expression and, in one study, caused significant in vitro growth defects. BB0647 was also found to be essential for infection of the mammalian host but not the tick vector. Both Ouyang et al. and Hyde et al. also demonstrate, quite unexpectedly, that BB0647 is required for induction of RpoS, an alternative sigma factor that controls a cadre of B. burgdorferi genes, most notably ospC, which enable the spirochetes to establish mammalian infection following tick inoculation. There are still many unanswered questions regarding the precise physiological role of BB0647, the most important of which relate to its homologues Fur and PerR: to what extent does it regulate either the response to oxidative stress and/or transition metal uptake? The mechanism(s) whereby BB0647 interfaces with the Rrp2-RpoN-RpoS pathway also remains to be discerned. However, these two seminal papers establish BB0647 (BosR) as a central player in the molecular biology and physiology of B. burgdorferi as well as the pathogenesis of Lyme disease. [ABSTRACT FROM AUTHOR]

Published
2009
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22. Transcriptional regulation of the ospAB and ospC promoters from Borrelia burgdorferi.

Author

Alverson, Janet, Bundle, Sharyl F., Sohaskey, Charles D., Lybecker, Meghan C., and Samuels, D. Scott

Subjects
BORRELIA burgdorferi, TRANSCRIPTION factors, DNA topoisomerase II, PROTEIN synthesis
Abstract

Summary OspA, OspB and OspC are the major outer surface proteins of Borrelia burgdorferi that are differentially synthesized in response to environmental conditions, including culture temperature. We found that DNA was more negatively supercoiled in B. burgdorferi cultures grown at 23°C compared with cultures grown at 35–37°C. We examined the regulation of ospAB and ospC transcription by temperature and DNA supercoiling. DNA supercoiling was relaxed by adding coumermycin A1 , an antibiotic that inhibits DNA gyrase. Syntheses of the major outer surface proteins, expression of the ospA and ospC genes and the activities of the ospAB operon and ospC gene promoters were assayed. ospA product levels decreased, whereas ospC product levels increased after shifting from 23°C to 35°C or after adding coumermycin A1 . In addition, OspC synthesis was higher in a gyrB mutant than in wild-type B. burgdorferi . Promoter activity was quantified using cat reporter fusions. Increasing temperature or relaxing supercoiled DNA resulted in a decrease in ospAB promoter activity in B. burgdorferi , but not in Escherichia coli , as well as an increase in ospC promoter activity in both bacteria. ospC promoter activity was increased in an E. coli gyrB mutant with an attenuated DNA supercoiling phenotype. These results suggest that B. burgdorferi senses environmental changes in temperature by altering the level of DNA supercoiling, which then affects the expression of the ospAB operon and the ospC gene. This implies that DNA supercoiling acts as a signal transducer for environmental regulation of outer surface protein synthesis. [ABSTRACT FROM AUTHOR]

Published
2003
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23. GroEl Expression in gyrB Mutants of Borrelia burgdorferi.

Author

Alverson, Janet and Samuels, D. Scott

Subjects
*GENES, *BORRELIA burgdorferi
Abstract

Focuses on the groEl gene expression in gyrB mutants of borrelia burgdorferi. Purification of 68-kDa protein; Condition of circular DNA in gyrB mutants; Correlation between groEL regulation and DNA.

Published
2002
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24. Natural synthesis of a DNA-binding protein from the C-terminal domain of DNA gyrase A in Borrelia burgdorferi.

Author

Knight, Scott W. and Samuels, D. Scott

Subjects
*GENES, *DNA-binding proteins, *LYME disease, *ESCHERICHIA coli, *BORRELIA burgdorferi, *PROKARYOTES, *PROTEINS, *GENE expression
Abstract

We have identified a 34 kDa DNA-binding protein with an HU-like activity in the Lyme disease spirochete Borrelia burgdorferi. The 34 kDa protein is translated from an abundant transcript initiated within the gene encoding the A subunit of DNA gyrase. Translation of the 34 kDa protein starts at residue 499 of GyrA and proceeds in the same reading frame as full-length GyrA, resulting in an N-terminal-truncated protein. The 34 kDa GyrA C-terminal domain, although not homologous, substitutes for HU in the formation of the Type 1 complex in Mu transposition, and complements an HU-deficient strain of Escherichia coli. This is the first example of constitutive expression of two gene products in the same open reading frame from a single gene in a prokaryotic cellular system. [ABSTRACT FROM AUTHOR]

Published
1999
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25. Molecular evidence for a new bacteriophage of Borrelia burgdorferi.

Author

Eggers, Christian H. and Samuels, D. Scott

Subjects
*BACTERIOPHAGES, *BORRELIA, *GENOMES
Abstract

Analyzes the isolation and molecular characterization of a bacteriophage of the Borrelia burgdorferi. Identification of bacteriophage DNA; Location of the prophage in the Borrelia burgdorferi genome; Reversion of the temperate prophage by stressing the host bacterial cell; Examination of the phage ultrastructure.

Published
1999
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26. Use of rpsL as a Counterselectable Marker in Borrelia burgdorferi.

Author

Drecktrah, Dan, Douglas, J. Miles, and Samuels, D. Scott

Subjects
*BORRELIA burgdorferi, *LYME disease, *GENETIC mutation, *STREPTOMYCIN, *DRUG resistance in microorganisms, *MOLECULAR genetics, *PATHOGENIC microorganisms, *SPIROCHETES, *PHENOTYPES
Abstract

We have demonstrated that rpsL, encoding the S12 protein of the small ribosomal subunit, can be used as a counterselectable marker in Borrelia burgdorferi, the causative agent of Lyme disease. Mutations in rpsL confer streptomycin resistance. Streptomycin susceptibility is dominant in an rpsL merodiploid, and streptomycin selects for the loss of wild-type rpsL carried in trans. This is the first description of a counterselectable marker in B. burgdorferi. [ABSTRACT FROM AUTHOR]

Published
2010
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27. An Inverted Repeat in the ospC Operator Is Required for Induction in Borrelia burgdorferi.

Author

Drecktrah, Dan, Hall, Laura S., Hoon-Hanks, Laura L., and Samuels, D. Scott

Subjects
*BORRELIA burgdorferi, *LYME disease treatment, *MEMBRANE proteins, *SPIROCHAETOSIS, *IMMUNE response, *INVERTED repeats (Genetics), *DNA supercoiling, *NUCLEOTIDE sequence
Abstract

Borrelia burgdorferi, the spirochete that causes Lyme disease, differentially regulates synthesis of the outer membrane lipoprotein OspC to infect its host. OspC is required to establish infection but then repressed in the mammal to avoid clearance by the adaptive immune response. Inverted repeats (IR) upstream of the promoter have been implicated as an operator to regulate ospC expression. We molecularly dissected the distal inverted repeat (dIR) of the ospC operator by site-directed mutagenesis at its endogenous location on the circular plasmid cp26. We found that disrupting the dIR but maintaining the proximal IR prevented induction of OspC synthesis by DNA supercoiling, temperature, and pH. Moreover, the base-pairing potential of the two halves of the dIR was more important than the nucleotide sequence in controlling OspC levels. These results describe a cis-acting element essential for the expression of the virulence factor OspC. [ABSTRACT FROM AUTHOR]

Published
2013
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28. Analysis of the ospC Regulatory Element Controlled by the RpoN-RpoS Regulatory Pathway in Borrelia burgdorferi.

Author

Yang, Xiaofeng F., Lybecker, Meghan C., Pal, Utpal, Alani, Sophie M., Blevins, Jon, Revel, Andrew T., Samuels, D. Scott, and Norgard, Michael V.

Subjects
*BORRELIA burgdorferi, *ESCHERICHIA coli, *LIPOPROTEINS, *COMPLEMENTATION (Genetics), *MICROBIAL virulence, *BACTERIAL genetics, *MICROBIAL genetics, *BACTERIOLOGY
Abstract

Outer surface lipoprotein C (OspC) is a key virulence factor of Borrelia burgdorferi, ospC is differentially regulated during borrelial transmission from ticks to rodents, and such regulation is essential for maintaining the spirochete in its natural enzootic cycle. Recently, we showed that the expression of ospC in B. burgdorferi is governed by a novel alternative sigma factor regulatory network, the RpoN-RpoS pathway. However, the precise mechanism by which the RpoN-RpoS pathway controls ospC expression has been unclear. In particular, there has been uncertainty regarding whether ospC is controlled directly by RpoS (σs) or indirectly through a transactivator (induced by RpoS). Using deletion analyses and genetic complementation in an OspC-deficient mutant of B. burgdorferi, we analyzed the cis element(s) required for the expression of ospC in its native borrelial background. Two highly conserved upstream inverted repeat elements, previously implicated in ospC regulation, were not required for ospC expression in B. burgdorferi. Using similar approaches, a minimal promoter that contained a canonical -35/-10 sequence necessary and sufficient for σs-dependent regulation of ospC was identified. Further, targeted mutagenesis of a C at position -15 within the extended -10 region of ospC, which is postulated to function like the strategic C residue important for Eσs binding in Escherichia coli, abolished ospC expression. The minimal ospC promoter also was responsive to coumermycin AD further supporting its σs character. The combined data constitute a body of evidence that the RpoN-RpoS regulatory network controls ospC expression by direct binding of σs to a σs-dependent promoter of ospC. The implication of our findings to understanding how B. burgdorferi differentially regulates ospC and other ospC-like genes via the RpoN-RpoS regulatory pathway is discussed. [ABSTRACT FROM AUTHOR]

Published
2005
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29. AadA Confers Streptomycin Resistance in Borrelia burgdorferi.

Author

Frank, Kristi L., Bundle, Sharyl F., Kresge, Michele E., Eggers, Christian H., and Samuels, D. Scott

Subjects
*LYME disease, *BORRELIA burgdorferi, *NATURAL immunity
Abstract

To enhance genetic manipulation of the Lyme disease spirochete Borrelia burgdorferi, we assayed the aadA gene for the ability to confer resistance to the antibiotics spectinomycin and streptomycin. Using the previously described pBSV2 as a backbone, a shuttle vector, termed pKFSS1, which carries the aadA open reading frame fused to the B. burgdorferi flgB promoter was constructed. The hybrid flgB promoter-aadA cassette confers resistance to spectinomycin and streptomycin in both B. burgdorferi and Escherichia coli. pKFSS1 has a replication origin derived from the 9-kb circular plasmid and can be comaintained in B. burgdorferi with extant shuttle vector pCE320, which has a replication origin derived from a 32-kb circular plasmid, or pBSV2, despite the fact that pKFSS1 and pBSV2 have the same replication origin. Our results demonstrate the availability of a new selectable marker and shuttle vector for genetically dissecting B. burgdorferi at the molecular level. [ABSTRACT FROM AUTHOR]

Published
2003
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30. Transduction of phi BB-1, a bacteriophage of Borrelia burgdorferi.

Author

Eggers, Christian H., Kimmel, Betsy J., Bono, James L., Elias, Abdallah F., Rosa, Patricia, and Samuels, D. Scott

Subjects
*BACTERIOPHAGES, *BORRELIA burgdorferi
Abstract

Studies transduction by phi BB-1, a bacteriophage of the Lyme disease agent Borrelia burgdorferi. Determination of the minimum number of cp32s present in a population of cells or phage; Insertion of the kanamycin resistance cassette into a cp32; Possible changes in the cp32 population of the transductants.

Published
2001
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31. DksA Controls the Response of the Lyme Disease Spirochete Borrelia burgdorferi to Starvation.

Author

Boyle, William K., Groshong, Ashley M., Drecktrah, Dan, Boylan, Julie A., Gherardini, Frank C., Blevins, Jon S., Samuels, D. Scott, and Bourret, Travis J.

Abstract

The pathogenic spirochete Borrelia burgdorferi senses and responds to changes in the environment, including changes in nutrient availability, throughout its enzootic cycle in Ixodes ticks and vertebrate hosts. This study examined the role of DnaK suppressor protein (DksA) in the transcriptional response of B. burgdorferi to starvation. Wild-type and dksA mutant B. burgdorferi strains were subjected to starvation by shifting cultures grown in rich complete medium, Barbour-Stoenner-Kelly II (BSK II) medium, to a defined mammalian tissue culture medium, RPMI 1640, for 6 h under microaerobic conditions (5% CO2, 3% O2). Microarray analyses of wild-type B. burgdorferi revealed that genes encoding flagellar components, ribosomal proteins, and DNA replication machinery were downregulated in response to starvation. DksA mediated transcriptomic responses to starvation in B. burgdorferi, as the dksA-deficient strain differentially expressed only 47 genes in response to starvation compared to the 500 genes differentially expressed in wild-type strains. Consistent with a role for DksA in the starvation response of B. burgdorferi, fewer CFU of dksA mutants were observed after prolonged starvation in RPMI 1640 medium than CFU of wild-type B. burgdorferi spirochetes. Transcriptomic analyses revealed a partial overlap between the DksA regulon and the regulon of RelBbu, the guanosine tetraphosphate and guanosine pentaphosphate [(p)ppGpp] synthetase that controls the stringent response; the DksA regulon also included many plasmid-borne genes. Additionally, the dksA mutant exhibited constitutively elevated (p)ppGpp levels compared to those of the wild-type strain, implying a regulatory relationship between DksA and (p)ppGpp. Together, these data indicate that DksA, along with (p)ppGpp, directs the stringent response to effect B. burgdorferi adaptation to its environment. [ABSTRACT FROM AUTHOR]

Published
2019
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32. RNase III Processing of rRNA in the Lyme Disease Spirochete Borrelia burgdorferi.

Author

Anacker, Melissa L., Drecktrah, Dan, LeCoultre, Richard D., Lybecker, Meghan, and Samuels, D. Scott

Abstract

The rRNA genes of Borrelia (Borreliella) burgdorferi are unusually organized; the spirochete has a single 16S rRNA gene that is more than 3 kb from a tandem pair of 23S-5S rRNA operons. We generated an rnc null mutant in B. burgdorferi that exhibits a pleiotropic phenotype, including decreased growth rate and increased cell length. Here, we demonstrate that endoribonuclease III (RNase III) is, as expected, involved in processing the 23S rRNA in B. burgdorferi. The 5' and 3' ends of the three rRNAs were determined in the wild type and rncBb mutants; the results suggest that RNase III in B. burgdorferi is required for the full maturation of the 23S rRNA but not for the 5S rRNA nor, curiously, for the 16S rRNA. [ABSTRACT FROM AUTHOR]

Published
2018
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