Daniel C. Desrosiers scite author profile

The ankyrin repeat is one of the most frequently observed amino acid motifs in protein databases. This protein-protein interaction module is involved in a diverse set of cellular functions, and consequently, defects in ankyrin repeat proteins have been found in a number of human diseases. Recent biophysical, crystallographic, and NMR studies have been used to measure the stability and define the various topological features of this motif in an effort to understand the structural basis of ankyrin repeat-mediated protein-protein interactions. Characterization of the folding and assembly pathways suggests that ankyrin repeat domains generally undergo a two-state folding transition despite their modular structure. Also, the large number of available sequences has allowed the ankyrin repeat to be used as a template for consensusbased protein design. Such projects have been successful in revealing positions responsible for structure and function in the ankyrin repeat as well as creating a potential universal scaffold for molecular recognition.

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Surface Immunolabeling and Consensus Computational Framework To Identify Candidate Rare Outer Membrane Proteins ofTreponema pallidum

Cox

Luthra²,

Dunham-Ems³

et al. 2010

Infect Immun

108

164

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Treponema pallidum reacts poorly with the antibodies present in rabbit and human syphilitic sera, a property attributed to the paucity of proteins in its outer membrane. To better understand the basis for the syphilis spirochete's "stealth pathogenicity," we used a dual-label, 3-step amplified assay in which treponemes encapsulated in gel microdroplets were probed with syphilitic sera in parallel with anti-FlaA antibodies. A small (approximately 5 to 10%) but reproducible fraction of intact treponemes bound IgG and/or IgM antibodies. Three lines of evidence supported the notion that the surface antigens were likely ␤-barrel-forming outer membrane proteins (OMPs): (i) surface labeling with anti-lipoidal (VDRL) antibodies was not observed, (ii) immunoblot analysis confirmed prior results showing that T. pallidum glycolipids are not immunoreactive, and (iii) labeling of intact organisms was not appreciably affected by proteinase K (PK) treatment. With this method, we also demonstrate that TprK (TP0897), an extensively studied candidate OMP, and TP0136, a lipoprotein recently reported to be surface exposed, are both periplasmic. Consistent with the immunolabeling studies, TprK was also found to lack amphiphilicity, a characteristic property of ␤-barrel-forming proteins. Using a consensus computational framework that combined subcellular localization and ␤-barrel structural prediction tools, we generated ranked groups of candidate rare OMPs, the predicted T. pallidum outer membrane proteome (OMPeome), which we postulate includes the surface-exposed molecules detected by our enhanced gel microdroplet assay. In addition to underscoring the syphilis spirochete's remarkably poor surface antigenicity, our findings help to explain the complex and shifting balance between pathogen and host defenses that characterizes syphilitic infection.

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The Lyme disease agent Borrelia burgdorferi requires BB0690, a Dps homologue, to persist within ticks

Pal

Ramamoorthi

et al. 2006

Molecular Microbiology

116

167

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SummaryBorrelia burgdorferi survives in an enzootic cycle, and Dps proteins protect DNA against damage during starvation or oxidative stress. The role of a Dps homologue encoded by Borrelia in spirochaete survival was assessed. Dps-deficient spirochaetes were infectious in mice via needle-inoculation at the dose of 10 5 spirochaetes. Larval ticks successfully acquired Dps-deficient spirochaetes via a blood meal on mice. However, after extended periods within unfed nymphs, the Dps-deficient spirochaetes failed to be transmitted to a new host when nymphs fed. Our data suggest that Dps functions to protect the spirochaetes during dormancy in unfed ticks, and in its absence, the spirochaetes become susceptible during tick feeding. dps is differentially expressed in vivo -low in mice and high in ticks -but constitutively expressed in vitro, showing little change during growth or in response to oxidative stress. Borrelia Dps forms a dodecameric complex capable of sequestering iron. The Dps-deficient spirochaetes showed no defect in starvation and oxidative stress assays, perhaps due to the lack of iron in spirochaetes grown in vitro. Dps is critical for spirochaete persistence within ticks, and strategies to interfere with Dps could potentially reduce Borrelia populations in nature and thereby influence the incidence of Lyme disease.

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The Hybrid Histidine Kinase Hk1 Is Part of a Two-Component System That Is Essential for Survival of Borrelia burgdorferi in Feeding Ixodes scapularis Ticks

et al. 2011

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Two-component systems (TCS) are principal mechanisms by which bacteria adapt to their surroundings.Borrelia burgdorferi encodes only two TCS. One is comprised of a histidine kinase, Hk2, and the response regulator Rrp2. While the contribution of Hk2 remains unclear, Rrp2 is part of a regulatory pathway involving the spirochete's alternate sigma factors, RpoN and RpoS. Genes within the Rrp2/RpoN/RpoS regulon function to promote tick transmission and early infection. The other TCS consists of a hybrid histidine kinase, Hk1, and the response regulator Rrp1. Hk1 is composed of two periplasmic sensor domains (D1 and D2), followed by conserved cytoplasmic histidine kinase core, REC, and Hpt domains. In addition to its REC domain, Rrp1 contains a GGDEF motif characteristic of diguanylate cyclases. To investigate the role of Hk1 during the enzootic cycle, we inactivated this gene in two virulent backgrounds. Extensive characterization of the resulting mutants revealed a dramatic phenotype whereby Hk1-deficient spirochetes are virulent in mice and able to migrate out of the bite site during feeding but are killed within the midgut following acquisition. We hypothesize that the phosphorelay between Hk1 and Rrp1 is initiated by the binding of feeding-specific ligand(s) to Hk1 sensor domain D1 and/or D2. Once activated, Rrp1 directs the synthesis of cyclic dimeric GMP (c-di-GMP), which, in turn, modulates the expression and/or activity of gene products required for survival within feeding ticks. In contrast to the Rrp2/RpoN/RpoS pathway, which is active only within feeding nymphs, the Hk1/Rrp1 TCS is essential for survival during both larval and nymphal blood meals.

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Znu Is the Predominant Zinc Importer in Yersinia pestis during In Vitro Growth but Is Not Essential for Virulence

Desrosiers¹,

et al. 2010

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Little is known about Zn homeostasis inZinc (Zn) is an essential trace metal required to preserve the biological function and/or structural integrity of numerous enzymes and proteins in all eukaryotic and prokaryotic cells (3,49,99). Procuring sufficient Zn to sustain growth during mammalian infection is a considerable challenge for bacterial pathogens (56). Serum levels of Zn are in the micromolar range, and the metal's bioavailability is restricted further because it is tightly bound to proteins and not freely exchangeable (35,85,88,103). In addition, as with iron (Fe), mammals sequester Zn systemically and locally in an attempt to deprive invading pathogens of this critical micronutrient (35,85,88,103). Bacteria, therefore, must depend upon the expression of high-affinity Zn uptake systems to compete successfully with the mammalian host for this metal. Although Zn is essential, high concentrations are toxic because of its proclivity to occupy ligand sites intended for other transition metals, such as Mn and Fe (39); consequently, bacteria must strictly control intracellular Zn levels to avoid disruption of physiological processes (49). Two major mechanisms by which Zn homeostasis is achieved are metal effluxers and regulation of Zn uptake systems.The discovery of the cluster 9 (C9) family of transition metal ATP-binding cassette (ABC) transporters significantly advanced our understanding of bacterial Zn metabolism (19). The function of the C9 family was revealed primarily through genetic studies in which the growth defects of mutants under metal-limiting conditions were reversed by supplementation with Zn (27,77) or Mn (8,27,59). Bioinformatic analyses of the C9 solute-binding protein (SBP) components, which capture metals within the periplasmic space and ferry them to the cytoplasmic membrane-bound permease complex, revealed a bimodal clustering pattern appearing to correlate with experimentally proven metal specificities (19). One subcluster con-* Corresponding author. Mailing address:

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