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CERID Bibliography

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Author Title [ Type(Desc)] Year
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Journal Article
Randhawa AKaur, Shey MS, Keyser A, Peixoto B, Wells RD, de Kock M, Lerumo L, Hughes J, Hussey G, Hawkridge A, et al. Association of human TLR1 and TLR6 deficiency with altered immune responses to BCG vaccination in South African infants. PLoS Pathog. 2011 ;7(8):e1002174.
Horst BTer, Seshadri C, Sweet L, Young DC, Feringa BL, D Moody B, Minnaard AJ. Asymmetric synthesis and structure elucidation of a glycerophospholipid from Mycobacterium tuberculosis. J Lipid Res. 2010 ;51(5):1017-22.
Duchin JS, Jereb JA, Nolan CM, Smith P, Onorato IM. Comparison of sensitivities to two commercially available tuberculin skin test reagents in persons with recent tuberculosis. Clin Infect Dis. 1997 ;25(3):661-3.
Traag BA, Driks A, Stragier P, Bitter W, Broussard G, Hatfull G, Chu F, Adams KN, Ramakrishnan L, Losick R. Do mycobacteria produce endospores?. Proc Natl Acad Sci U S A. 2010 ;107(2):878-81.
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.
Thuong NTT, Hawn TR, Chau TTH, Bang ND, Yen NTB, Thwaites GE, Teo YY, Seielstad M, Hibberd M, Lan NTN, et al. Epiregulin (EREG) variation is associated with susceptibility to tuberculosis. Genes Immun. 2012 ;13(3):275-81.
Shah JA, Vary JC, Chau TTH, Bang ND, Yen NTB, Farrar JJ, Dunstan SJ, Hawn TR. Human TOLLIP regulates TLR2 and TLR4 signaling and its polymorphisms are associated with susceptibility to tuberculosis. J Immunol. 2012 ;189(4):1737-46.
Thuong NThuy Thuon, Dunstan SJ, Chau TThi Hong, Thorsson V, Simmons CP, Quyen NThan Ha, Thwaites GE, Lan NThi Ngoc, Hibberd M, Teo YY, et al. Identification of tuberculosis susceptibility genes with human macrophage gene expression profiles. PLoS Pathog. 2008 ;4(12):e1000229.
Lesley R, Ramakrishnan L. Insights into early mycobacterial pathogenesis from the zebrafish. Curr Opin Microbiol. 2008 ;11(3):277-83.
Berg RD, Ramakrishnan L. Insights into tuberculosis from the zebrafish model. Trends Mol Med. 2012 ;18(12):689-90.
Tobin DM, Vary JC, Ray JP, Walsh GS, Dunstan SJ, Bang ND, Hagge DA, Khadge S, King M-C, Hawn TR, et al. The lta4h locus modulates susceptibility to mycobacterial infection in zebrafish and humans. Cell. 2010 ;140(5):717-30.
Hawkes M, Li X, Crockett M, Diassiti A, W Liles C, Liu J, Kain KC. Malaria exacerbates experimental mycobacterial infection in vitro and in vivo. Microbes Infect. 2010 ;12(11):864-74.
Berrington WR, Hawn TR. Mycobacterium tuberculosis, macrophages, and the innate immune response: does common variation matter?. Immunol Rev. 2007 ;219:167-86.
Ramakrishnan L. Revisiting the role of the granuloma in tuberculosis. Nat Rev Immunol. 2012 ;12(5):352-66.
J Davis M, Ramakrishnan L. The role of the granuloma in expansion and dissemination of early tuberculous infection. Cell. 2009 ;136(1):37-49.
Cosma CL, Humbert O, Ramakrishnan L. Superinfecting mycobacteria home to established tuberculous granulomas. Nat Immunol. 2004 ;5(8):828-35.
Roca FJ, Ramakrishnan L. TNF dually mediates resistance and susceptibility to mycobacteria via mitochondrial reactive oxygen species. Cell. 2013 ;153(3):521-34.
Volkman HE, Clay H, Beery D, Chang JCW, Sherman DR, Ramakrishnan L. Tuberculous granuloma formation is enhanced by a mycobacterium virulence determinant. PLoS Biol. 2004 ;2(11):e367.
Volkman HE, Pozos TC, Zheng J, J Davis M, Rawls JF, Ramakrishnan L. Tuberculous granuloma induction via interaction of a bacterial secreted protein with host epithelium. Science. 2010 ;327(5964):466-9.
J Davis M, Ramakrishnan L. "The very pulse of the machine": the tuberculous granuloma in motion. Immunity. 2008 ;28(2):146-8.