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CERID Bibliography

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A
Abbott JR, Palmer GH, Howard CJ, Hope JC, Brown WC. Anaplasma marginale major surface protein 2 CD4+-T-cell epitopes are evenly distributed in conserved and hypervariable regions (HVR), whereas linear B-cell epitopes are predominantly located in the HVR. Infect Immun. 2004 ;72(12):7360-6.
Abbott JR, Palmer GH, Kegerreis KA, Hetrick PF, Howard CJ, Hope JC, Brown WC. Rapid and long-term disappearance of CD4+ T lymphocyte responses specific for Anaplasma marginale major surface protein-2 (MSP2) in MSP2 vaccinates following challenge with live A. marginale. J Immunol. 2005 ;174(11):6702-15.
Adams KN, Takaki K, Connolly LE, Wiedenhoft H, Winglee K, Humbert O, Edelstein PH, Cosma CL, Ramakrishnan L. Drug tolerance in replicating mycobacteria mediated by a macrophage-induced efflux mechanism. Cell. 2011 ;145(1):39-53.
Agnes JT, Herndon D, Ueti MW, Ramabu SS, Evans M, Brayton KA, Palmer GH. Association of pathogen strain-specific gene transcription and transmission efficiency phenotype of Anaplasma marginale. Infect Immun. 2010 ;78(6):2446-53.
Agnes JT, Brayton KA, LaFollett M, Norimine J, Brown WC, Palmer GH. Identification of Anaplasma marginale outer membrane protein antigens conserved between A. marginale sensu stricto strains and the live A. marginale subsp. centrale vaccine. Infect Immun. 2011 ;79(3):1311-8.
Agüero F, Al-Lazikani B, Aslett M, Berriman M, Buckner FS, Campbell RK, Carmona S, Carruthers IM, Chan EAW, Chen F, et al. Genomic-scale prioritization of drug targets: the TDR Targets database. Nat Rev Drug Discov. 2008 ;7(11):900-7.
Albarrak SM, Brown WC, Noh SM, Reif KE, Scoles GA, Turse JE, Norimine J, Ueti MW, Palmer GH. Subdominant antigens in bacterial vaccines: AM779 is subdominant in the Anaplasma marginale outer membrane vaccine but does not associate with protective immunity. PLoS One. 2012 ;7(9):e46372.
Allen CA, Fedorka-Cray PJ, Vazquez-Torres A, Suyemoto M, Altier C, Ryder LR, Fang FC, Libby SJ. In vitro and in vivo assessment of Salmonella enterica serovar Typhimurium DT104 virulence. Infect Immun. 2001 ;69(7):4673-7.
Alpers CE, Smith KD. Cryoglobulinemia and renal disease. Curr Opin Nephrol Hypertens. 2008 ;17(3):243-9.
Altemeier WA, Zhu X, Berrington WR, Harlan JM, W Liles C. Fas (CD95) induces macrophage proinflammatory chemokine production via a MyD88-dependent, caspase-independent pathway. J Leukoc Biol. 2007 ;82(3):721-8.
Altemeier WA, Matute-Bello G, Gharib SA, Glenny RW, Martin TR, W Liles C. Modulation of lipopolysaccharide-induced gene transcription and promotion of lung injury by mechanical ventilation. J Immunol. 2005 ;175(5):3369-76.
Altemeier WA, Matute-Bello G, Frevert CW, Kawata Y, Kajikawa O, Martin TR, Glenny RW. Mechanical ventilation with moderate tidal volumes synergistically increases lung cytokine response to systemic endotoxin. Am J Physiol Lung Cell Mol Physiol. 2004 ;287(3):L533-42.
Ammendola S, Pasquali P, Pacello F, Rotilio G, Castor M, Libby SJ, Figueroa-Bossi N, Bossi L, Fang FC, Battistoni A. Regulatory and structural differences in the Cu,Zn-superoxide dismutases of Salmonella enterica and their significance for virulence. J Biol Chem. 2008 ;283(20):13688-99.
Andersen-Nissen E, Hawn TR, Smith KD, Nachman A, Lampano AE, Uematsu S, Akira S, Aderem A. Cutting edge: Tlr5-/- mice are more susceptible to Escherichia coli urinary tract infection. J Immunol. 2007 ;178(8):4717-20.
Andersen-Nissen E, Smith KD, Bonneau R, Strong RK, Aderem A. A conserved surface on Toll-like receptor 5 recognizes bacterial flagellin. J Exp Med. 2007 ;204(2):393-403.
Andersen-Nissen E, Smith KD, Strobe KL, Barrett SLRassouli, Cookson BT, Logan SM, Aderem A. Evasion of Toll-like receptor 5 by flagellated bacteria. Proc Natl Acad Sci U S A. 2005 ;102(26):9247-52.
Aprikyan AA, Liles WC, Dale DC. Emerging role of apoptosis in the pathogenesis of severe neutropenia. Curr Opin Hematol. 2000 ;7(3):131-2.
Arakaki TL, Buckner FS, Gillespie RJ, Malmquist NA, Phillips MA, Kalyuzhniy O, Luft JR, Detitta GT, Verlinde CLMJ, Van Voorhis WC, et al. Characterization of Trypanosoma brucei dihydroorotate dehydrogenase as a possible drug target; structural, kinetic and RNAi studies. Mol Microbiol. 2008 ;68(1):37-50.
Arakaki T, Neely H, Boni E, Mueller N, Buckner FS, Van Voorhis WC, Lauricella A, Detitta G, Luft J, Hol WGJ, et al. The structure of Plasmodium vivax phosphatidylethanolamine-binding protein suggests a functional motif containing a left-handed helix. Acta Crystallogr Sect F Struct Biol Cryst Commun. 2007 ;63(Pt 3):178-82.
Aronov AM, Suresh S, Buckner FS, Van Voorhis WC, Verlinde CL, Opperdoes FR, Hol WG, Gelb MH. Structure-based design of submicromolar, biologically active inhibitors of trypanosomatid glyceraldehyde-3-phosphate dehydrogenase. Proc Natl Acad Sci U S A. 1999 ;96(8):4273-8.
Arroll TW, Centurion-Lara A, Lukehart SA, Van Voorhis WC. T-Cell responses to Treponema pallidum subsp. pallidum antigens during the course of experimental syphilis infection. Infect Immun. 1999 ;67(9):4757-63.
Awoniyi M, Miller SI, Wilson CB, Hajjar AM, Smith KD. Homeostatic regulation of Salmonella-induced mucosal inflammation and injury by IL-23. PLoS One. 2012 ;7(5):e37311.
Ayi K, W Liles C, Gros P, Kain KC. Adenosine triphosphate depletion of erythrocytes simulates the phenotype associated with pyruvate kinase deficiency and confers protection against Plasmodium falciparum in vitro. J Infect Dis. 2009 ;200(8):1289-99.
B
Baker-Zander SA, Lukehart SA. Antigenic cross-reactivity between Treponema pallidum and other pathogenic members of the family Spirochaetaceae. Infect Immun. 1984 ;46(1):116-21.
Baker-Zander SA, Fohn MJ, Lukehart SA. Development of cellular immunity to individual soluble antigens of Treponema pallidum during experimental syphilis. J Immunol. 1988 ;141(12):4363-9.

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