Microbiology and Immunology

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Publications

Found 161 results

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2021

Zhang L, Jiang X, Pfau D, Ling Y, Nathan CF. 2021. Type I interferon signaling mediates Mycobacterium tuberculosis-induced macrophage death.. J Exp Med. 218(2)

2020

Schrader SM, Vaubourgeix J, Nathan C. 2020. Biology of antimicrobial resistance and approaches to combat it.. Sci Transl Med. 12(549)

Matthews KA, Senagbe KM, Nötzel C, Gonzales CA, Tong X, Rijo-Ferreira F, Bhanu NV, Miguel-Blanco C, Lafuente-Monasterio MJose, Garcia BA et al.. 2020. Disruption of the Plasmodium falciparum Life Cycle through Transcriptional Reprogramming by Inhibitors of Jumonji Demethylases.. ACS Infect Dis. 6(5):1058-1075.

Neveu G, Beri D, Kafsack BFc. 2020. Metabolic regulation of sexual commitment in Plasmodium falciparum.. Curr Opin Microbiol. 58:93-98.

Nathan C. 2020. Resisting antimicrobial resistance.. Nat Rev Microbiol. 18(5):259-260.

2019

Quezada LLopez, Silve S, Kelinske M, Liba A, Gonzalez CDiaz, Kotev M, Goullieux L, Sans S, Roubert C, Lagrange S et al.. 2019. Bactericidal Disruption of Magnesium Metallostasis in Mycobacterium tuberculosis Is Counteracted by Mutations in the Metal Ion Transporter CorA.. mBio. 10(4)

Wu J, Mu R, Sun M, Zhao N, Pan M, Li H, Dong Y, Sun Z, Bai J, Hu M et al.. 2019. Derivatives of Natural Product Agrimophol as Disruptors of Intrabacterial pH Homeostasis in .. ACS Infect Dis. 5(7):1087-1104.

Quezada LLopez, Li K, McDonald SL, Nguyen Q, Perkowski AJ, Pharr CW, Gold B, Roberts J, McAulay K, Saito K et al.. 2019. Dual-Pharmacophore Pyrithione-Containing Cephalosporins Kill Both Replicating and Nonreplicating .. ACS Infect Dis. 5(8):1433-1445.

Quezada LLopez, Li K, McDonald SL, Nguyen Q, Perkowski AJ, Pharr CW, Gold B, Roberts J, McAulay K, Saito K et al.. 2019. Dual-Pharmacophore Pyrithione-Containing Cephalosporins Kill Both Replicating and Nonreplicating .. ACS Infect Dis. 5(8):1433-1445.

Zimmerman M, McDonald SL, Ho-Liang H-P, Porubsky P, Nguyen Q, Pharr CW, Perkowski AJ, Smith R, Schoenen FJ, Gold BS et al.. 2019. Effect of C-2 substitution on the stability of non-traditional cephalosporins in mouse plasma.. J Antibiot (Tokyo). 72(6):469-475.

Zimmerman M, McDonald SL, Ho-Liang H-P, Porubsky P, Nguyen Q, Pharr CW, Perkowski AJ, Smith R, Schoenen FJ, Gold BS et al.. 2019. Effect of C-2 substitution on the stability of non-traditional cephalosporins in mouse plasma.. J Antibiot (Tokyo). 72(6):469-475.

Early J, Ollinger J, Darby C, Alling T, Mullen S, Casey A, Gold B, Ochoada J, Wiernicki T, Masquelin T et al.. 2019. Identification of Compounds with pH-Dependent Bactericidal Activity against Mycobacterium tuberculosis.. ACS Infect Dis. 5(2):272-280.

Nathan CF, Nussenzweig MC, Pulvirenti T. 2019. JEM Editorial Board: Expanding on the basis of cancer.. J Exp Med. 216(8):1725.

Nathan CF, Nussenzweig MC, Pulvirenti T. 2019. JEM Editorial Board: Expanding on the basis of cancer.. J Exp Med. 216(8):1725.

Johnson EO, LaVerriere E, Office E, Stanley M, Meyer E, Kawate T, Gomez JE, Audette RE, Bandyopadhyay N, Betancourt N et al.. 2019. Large-scale chemical-genetics yields new M. tuberculosis inhibitor classes.. Nature. 571(7763):72-78.

Freire DMendes, Gutierrez C, Garza-Garcia A, Grabowska AD, Sala AJ, Ariyachaokun K, Panikova T, Beckham KSH, Colom A, Pogenberg V et al.. 2019. An NAD Phosphorylase Toxin Triggers Mycobacterium tuberculosis Cell Death.. Mol Cell. 73(6):1282-1291.e8.

Ballinger E, Mosior J, Hartman T, Burns-Huang K, Gold B, Morris R, Goullieux L, Blanc I, Vaubourgeix J, Lagrange S et al.. 2019. Opposing reactions in coenzyme A metabolism sensitize Mycobacterium tuberculosis to enzyme inhibition.. Science. 363(6426)

Bancells C, Llorà-Batlle O, Poran A, Nötzel C, Rovira-Graells N, Elemento O, Kafsack BFC, Cortés A. 2019. Revisiting the initial steps of sexual development in the malaria parasite Plasmodium falciparum.. Nat Microbiol. 4(1):144-154.

Zhan W, Hsu H-C, Morgan T, Ouellette T, Burns-Huang K, Hara R, Wright AG, Imaeda T, Okamoto R, Sato K et al.. 2019. Selective Phenylimidazole-Based Inhibitors of the Mycobacterium tuberculosis Proteasome.. J Med Chem. 62(20):9246-9253.

Mosior J, Bourland R, Soma S, Nathan C, Sacchettini J. 2019. Structural insights into phosphopantetheinyl hydrolase PptH from Mycobacterium tuberculosis.. Protein Sci.

Lee JJin, Lee S-K, Song N, Nathan TO, Swarts BM, Eum S-Y, Ehrt S, Cho S-N, Eoh H. 2019. Transient drug-tolerance and permanent drug-resistance rely on the trehalose-catalytic shift in Mycobacterium tuberculosis.. Nat Commun. 10(1):2928.

2018

Kirkman LA, Zhan W, Visone J, Dziedziech A, Singh PK, Fan H, Tong X, Bruzual I, Hara R, Kawasaki M et al.. 2018. Antimalarial proteasome inhibitor reveals collateral sensitivity from intersubunit interactions and fitness cost of resistance.. Proc Natl Acad Sci U S A. 115(29):E6863-E6870.

Yu H, Lupoli TJ, Kovach A, Meng X, Zhao G, Nathan CF, Li H. 2018. ATP hydrolysis-coupled peptide translocation mechanism of Mycobacterium tuberculosis ClpB.. Proc Natl Acad Sci U S A. 115(41):E9560-E9569.

McAulay K, Saito K, Warrier T, Walsh KFrances, Mathurin LDaniel, Royal-Mardi G, Lee MHee, Ocheretina O, Pape JWilliam, Fitzgerald DW et al.. 2018. Differentially Detectable Mycobacterium tuberculosis Cells in Sputum from Treatment-Naive Subjects in Haiti and Their Proportionate Increase after Initiation of Treatment.. mBio. 9(6)

Mundhra S, Bryk R, Hawryluk N, Zhang T, Jiang X, Nathan C. 2018. Evidence for dispensability of protein kinase R in host control of tuberculosis.. Eur J Immunol. 48(4):612-620.