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Journal Abstract Search

224 related items for PubMed ID: 7790053

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  • 4. Activation of human monocytic cells by Treponema pallidum and Borrelia burgdorferi lipoproteins and synthetic lipopeptides proceeds via a pathway distinct from that of lipopolysaccharide but involves the transcriptional activator NF-kappa B.
    Norgard MV, Arndt LL, Akins DR, Curetty LL, Harrich DA, Radolf JD.
    Infect Immun; 1996 Sep; 64(9):3845-52. PubMed ID: 8751937
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  • 5. Fatty acids of Treponema pallidum and Borrelia burgdorferi lipoproteins.
    Belisle JT, Brandt ME, Radolf JD, Norgard MV.
    J Bacteriol; 1994 Apr; 176(8):2151-7. PubMed ID: 8157583
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  • 6. Activation of human monocytic cells by Borrelia burgdorferi and Treponema pallidum is facilitated by CD14 and correlates with surface exposure of spirochetal lipoproteins.
    Sellati TJ, Bouis DA, Caimano MJ, Feulner JA, Ayers C, Lien E, Radolf JD.
    J Immunol; 1999 Aug 15; 163(4):2049-56. PubMed ID: 10438943
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  • 8. Characterization of outer membranes isolated from Treponema pallidum, the syphilis spirochete.
    Radolf JD, Robinson EJ, Bourell KW, Akins DR, Porcella SF, Weigel LM, Jones JD, Norgard MV.
    Infect Immun; 1995 Nov 15; 63(11):4244-52. PubMed ID: 7591054
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  • 11. Outer surface protein A (OspA) from the Lyme disease spirochete, Borrelia burgdorferi: high level expression and purification of a soluble recombinant form of OspA.
    Dunn JJ, Lade BN, Barbour AG.
    Protein Expr Purif; 1990 Nov 15; 1(2):159-68. PubMed ID: 2136237
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  • 12. The 47-kDa major lipoprotein immunogen of Treponema pallidum is a penicillin-binding protein with carboxypeptidase activity.
    Weigel LM, Radolf JD, Norgard MV.
    Proc Natl Acad Sci U S A; 1994 Nov 22; 91(24):11611-5. PubMed ID: 7972112
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  • 13. Lipid modification of the 17-kilodalton membrane immunogen of Treponema pallidum determines macrophage activation as well as amphiphilicity.
    Akins DR, Purcell BK, Mitra MM, Norgard MV, Radolf JD.
    Infect Immun; 1993 Apr 22; 61(4):1202-10. PubMed ID: 8454324
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  • 14. Non-pathogenic Borrelia burgdorferi expressing Treponema pallidum TprK and Tp0435 antigens as a novel approach to evaluate syphilis vaccine candidates.
    Parveen N, Fernandez MC, Haynes AM, Zhang RL, Godornes BC, Centurion-Lara A, Giacani L.
    Vaccine; 2019 Mar 22; 37(13):1807-1818. PubMed ID: 30797635
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  • 15. Treponema pallidum and Borrelia burgdorferi lipoproteins and synthetic lipopeptides activate monocytic cells via a CD14-dependent pathway distinct from that used by lipopolysaccharide.
    Sellati TJ, Bouis DA, Kitchens RL, Darveau RP, Pugin J, Ulevitch RJ, Gangloff SC, Goyert SM, Norgard MV, Radolf JD.
    J Immunol; 1998 Jun 01; 160(11):5455-64. PubMed ID: 9605148
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  • 16. Characterization of the 35-kilodalton Treponema pallidum subsp. pallidum recombinant lipoprotein TmpC and antibody response to lipidated and nonlipidated T. pallidum antigens.
    Schouls LM, van der Heide HG, van Embden JD.
    Infect Immun; 1991 Oct 01; 59(10):3536-46. PubMed ID: 1894360
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  • 17. Treponema pallidum rare outer membrane proteins: analysis of mobility by freeze-fracture electron microscopy.
    Bourell KW, Schulz W, Norgard MV, Radolf JD.
    J Bacteriol; 1994 Mar 01; 176(6):1598-608. PubMed ID: 8132453
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  • 18. Treponema pallidum in gel microdroplets: a novel strategy for investigation of treponemal molecular architecture.
    Cox DL, Akins DR, Porcella SF, Norgard MV, Radolf JD.
    Mol Microbiol; 1995 Mar 01; 15(6):1151-64. PubMed ID: 7623668
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  • 19. Chemiluminescent analysis of Borrelia burgdorferi penicillin-binding proteins using ampicillin conjugated to digoxigenin.
    Norgard MV, Baker SI, Radolf JD.
    Microb Pathog; 1995 Oct 01; 19(4):257-72. PubMed ID: 8825913
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  • 20. Structural modeling and physicochemical characterization provide evidence that P66 forms a β-barrel in the Borrelia burgdorferi outer membrane.
    Kenedy MR, Luthra A, Anand A, Dunn JP, Radolf JD, Akins DR.
    J Bacteriol; 2014 Feb 01; 196(4):859-72. PubMed ID: 24317399
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