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CERID Bibliography

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Brayton KA, Meeus PFM, Barbet AF, Palmer GH. Simultaneous variation of the immunodominant outer membrane proteins, MSP2 and MSP3, during anaplasma marginale persistence in vivo. Infect Immun. 2003 ;71(11):6627-32.
Brenciani A, Ojo KK, Monachetti A, Menzo S, Roberts MC, Varaldo PE, Giovanetti E. Distribution and molecular analysis of mef(A)-containing elements in tetracycline-susceptible and -resistant Streptococcus pyogenes clinical isolates with efflux-mediated erythromycin resistance. J Antimicrob Chemother. 2004 ;54(6):991-8.
Bressi JC, Verlinde CL, Aronov AM, Shaw ML, Shin SS, Nguyen LN, Suresh S, Buckner FS, Van Voorhis WC, Kuntz ID, et al. Adenosine analogues as selective inhibitors of glyceraldehyde-3-phosphate dehydrogenase of Trypanosomatidae via structure-based drug design. J Med Chem. 2001 ;44(13):2080-93.
Bressi JC, Choe J, Hough MT, Buckner FS, Van Voorhis WC, Verlinde CL, Hol WG, Gelb MH. Adenosine analogues as inhibitors of Trypanosoma brucei phosphoglycerate kinase: elucidation of a novel binding mode for a 2-amino-N(6)-substituted adenosine. J Med Chem. 2000 ;43(22):4135-50.
Brien JD, Daffis S, Lazear HM, Cho H, Suthar MS, Gale M, Diamond MS. Interferon regulatory factor-1 (IRF-1) shapes both innate and CD8(+) T cell immune responses against West Nile virus infection. PLoS Pathog. 2011 ;7(9):e1002230.
Brissette CA, Lukehart SA. Treponema denticola is resistant to human beta-defensins. Infect Immun. 2002 ;70(7):3982-4.
Brissette CA, Pham T-TT, Coats SR, Darveau RP, Lukehart SA. Treponema denticola does not induce production of common innate immune mediators from primary gingival epithelial cells. Oral Microbiol Immunol. 2008 ;23(6):474-81.
Brissette CA, Simonson LG, Lukehart SA. Resistance to human beta-defensins is common among oral treponemes. Oral Microbiol Immunol. 2004 ;19(6):403-7.
Brissette CA, Lukehart SA. Mechanisms of decreased susceptibility to beta-defensins by Treponema denticola. Infect Immun. 2007 ;75(5):2307-15.
Broudy VC, Lin NL, Liles WC, Corey SJ, O'Laughlin B, Mou S, Linnekin D. Signaling via Src family kinases is required for normal internalization of the receptor c-Kit. Blood. 1999 ;94(6):1979-86.
Brown DE, Libby SJ, Moreland SM, McCoy MW, Brabb T, Stepanek A, Fang FC, Detweiler CS. Salmonella enterica causes more severe inflammatory disease in C57/BL6 Nramp1G169 mice than Sv129S6 mice. Vet Pathol. 2013 ;50(5):867-76.
Brown WC, McElwain TF, Ruef BJ, Suarez CE, Shkap V, Chitko-McKown CG, Tuo W, Rice-Ficht AC, Palmer GH. Babesia bovis rhoptry-associated protein 1 is immunodominant for T helper cells of immune cattle and contains T-cell epitopes conserved among geographically distant B. bovis strains. Infect Immun. 1996 ;64(8):3341-50.
Brown WC, Palmer GH, McElwain TF, Hines SA, Dobbelaere DA. Babesia bovis: characterization of the T helper cell response against the 42-kDa merozoite surface antigen (MSA-1) in cattle. Exp Parasitol. 1993 ;77(1):97-110.
Brown WC, McGuire TC, Mwangi W, Kegerreis KA, Macmillan H, Lewin HA, Palmer GH. Major histocompatibility complex class II DR-restricted memory CD4(+) T lymphocytes recognize conserved immunodominant epitopes of Anaplasma marginale major surface protein 1a. Infect Immun. 2002 ;70(10):5521-32.
Brown WC, Shkap V, Zhu D, McGuire TC, Tuo W, McElwain TF, Palmer GH. CD4(+) T-lymphocyte and immunoglobulin G2 responses in calves immunized with Anaplasma marginale outer membranes and protected against homologous challenge. Infect Immun. 1998 ;66(11):5406-13.
Brown WC, Zhu D, Shkap V, McGuire TC, Blouin EF, Kocan KM, Palmer GH. The repertoire of Anaplasma marginale antigens recognized by CD4(+) T-lymphocyte clones from protectively immunized cattle is diverse and includes major surface protein 2 (MSP-2) and MSP-3. Infect Immun. 1998 ;66(11):5414-22.
Brown WC, Brayton KA, Styer CM, Palmer GH. The hypervariable region of Anaplasma marginale major surface protein 2 (MSP2) contains multiple immunodominant CD4+ T lymphocyte epitopes that elicit variant-specific proliferative and IFN-gamma responses in MSP2 vaccinates. J Immunol. 2003 ;170(7):3790-8.
Brown WC, Palmer GH. Designing blood-stage vaccines against Babesia bovis and B. bigemina. Parasitol Today. 1999 ;15(7):275-81.
Brown WC, Palmer GH, Lewin HA, McGuire TC. CD4(+) T lymphocytes from calves immunized with Anaplasma marginale major surface protein 1 (MSP1), a heteromeric complex of MSP1a and MSP1b, preferentially recognize the MSP1a carboxyl terminus that is conserved among strains. Infect Immun. 2001 ;69(11):6853-62.
Brown WC, Rodriguez SD, Hötzel I, Ruef BJ, Chitko-McKown CG, McElwain TF, Palmer GH. Characterization of helper T cell responses against rhoptry-associated protein 1 (RAP-1) of babesial parasites. Ann N Y Acad Sci. 1996 ;791:128-35.
Brown WC, McElwain TF, Hötzel I, Suarez CE, Palmer GH. Helper T-cell epitopes encoded by the Babesia bigemina rap-1 gene family in the constant and variant domains are conserved among parasite strains. Infect Immun. 1998 ;66(4):1561-9.
Brown WC, McElwain TF, Hötzel I, Ruef BJ, Rice-Ficht AC, Stich RW, Suarez CE, Estes DM, Palmer GH. Immunodominant T-cell antigens and epitopes of Babesia bovis and Babesia bigemina. Ann Trop Med Parasitol. 1998 ;92(4):473-82.
Brown WC, McGuire TC, Zhu D, Lewin HA, Sosnow J, Palmer GH. Highly conserved regions of the immunodominant major surface protein 2 of the genogroup II ehrlichial pathogen Anaplasma marginale are rich in naturally derived CD4+ T lymphocyte epitopes that elicit strong recall responses. J Immunol. 2001 ;166(2):1114-24.
Brown WC, McElwain TF, Palmer GH, Chantler SE, Estes DM. Bovine CD4(+) T-lymphocyte clones specific for rhoptry-associated protein 1 of Babesia bigemina stimulate enhanced immunoglobulin G1 (IgG1) and IgG2 synthesis. Infect Immun. 1999 ;67(1):155-64.
Brown WC, Palmer GH, Brayton KA, Meeus PFM, Barbet AF, Kegerreis KA, McGuire TC. CD4+ T lymphocytes from Anaplasma marginale major surface protein 2 (MSP2) vaccinees recognize naturally processed epitopes conserved in MSP3. Infect Immun. 2004 ;72(6):3688-92.

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