Publications

Filters: First Letter Of Last Name is A  [Clear All Filters]
2020
Nemeth J, Olson GS, Rothchild AC, et al. "Contained Mycobacterium tuberculosis infection induces concomitant and heterologous protection." PLoS Pathog. 2020;16(7):e1008655.
Rothchild AC, Mai D, Aderem A, Diercks AH. "Flow Cytometry Analysis and Fluorescence-activated Cell Sorting of Myeloid Cells from Lung and Bronchoalveolar Lavage Samples from -infected Mice." Bio Protoc. 2020;10(10).
Peterson EJR, Abidi AA, Arrieta-Ortiz ML, et al. "Intricate Genetic Programs Controlling Dormancy in Mycobacterium tuberculosis." Cell Rep. 2020;31(4):107577.
Peterson EJR, Abidi AA, Arrieta-Ortiz ML, et al. "Intricate Genetic Programs Controlling Dormancy in Mycobacterium tuberculosis." Cell Rep. 2020;31(4):107577.
Peterson EJR, Abidi AA, Arrieta-Ortiz ML, et al. "Intricate Genetic Programs Controlling Dormancy in Mycobacterium tuberculosis." Cell Rep. 2020;31(4):107577.
Rahil Z, Leylek R, Schürch CM, et al. "Landscape of coordinated immune responses to H1N1 challenge in humans." J Clin Invest. 2020;130(11):5800-5816.
Rahil Z, Leylek R, Schürch CM, et al. "Landscape of coordinated immune responses to H1N1 challenge in humans." J Clin Invest. 2020;130(11):5800-5816.
Plumlee CR, Duffy FJ, Gern BH, et al. "Ultra-low Dose Aerosol Infection of Mice with Mycobacterium tuberculosis More Closely Models Human Tuberculosis." Cell Host Microbe. 2020.
Plumlee CR, Duffy FJ, Gern BH, et al. "Ultra-low Dose Aerosol Infection of Mice with Mycobacterium tuberculosis More Closely Models Human Tuberculosis." Cell Host Microbe. 2020.
2019
Rothchild AC, Olson GS, Nemeth J, et al. "Alveolar macrophages generate a noncanonical NRF2-driven transcriptional response in vivo." Sci Immunol. 2019;4(37).
Rothchild AC, Olson GS, Nemeth J, et al. "Alveolar macrophages generate a noncanonical NRF2-driven transcriptional response in vivo." Sci Immunol. 2019;4(37).
Adams KN, Verma AKumar, Gopalaswamy R, et al. "Diverse Clinical Isolates of Mycobacterium tuberculosis Develop Macrophage-Induced Rifampin Tolerance." The Journal of Infectious Diseases. 2019;219:1554-1558.
Adams KN, Verma AKumar, Gopalaswamy R, et al. "Diverse Clinical Isolates of Mycobacterium tuberculosis Develop Macrophage-Induced Rifampin Tolerance." The Journal of Infectious Diseases. 2019;219:1554-1558.
Duffy FJ, Weiner J, Hansen S, et al. "Immunometabolic Signatures Predict Risk of Progression to Active Tuberculosis and Disease Outcome." Front Immunol. 2019;10:527.
Peterson, JR E, Bailo R, Rothchild AC, et al. "Path-seq identifies an essential mycolate remodeling program for mycobacterial host adaptation." Molecular Systems Biology. 2019;15:e8584.
Peterson, JR E, Bailo R, Rothchild AC, et al. "Path-seq identifies an essential mycolate remodeling program for mycobacterial host adaptation." Molecular Systems Biology. 2019;15:e8584.
Peterson, JR E, Bailo R, Rothchild AC, et al. "Path-seq identifies an essential mycolate remodeling program for mycobacterial host adaptation." Molecular Systems Biology. 2019;15:e8584.
Ma S, Jaipalli S, Larkins-Ford J, et al. "Transcriptomic Signatures Predict Regulators of Drug Synergy and Clinical Regimen Efficacy against Tuberculosis." mBio. 2019;10(6).