Works about MYCOBACTERIUM tuberculosis


Results: 5000
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    Trehalose catalytic shift inherently enhances phenotypic heterogeneity and multidrug resistance in Mycobacterium tuberculosis.

    Published in:
    Nature Communications, 2025, v. 16, n. 1, p. 1, doi. 10.1038/s41467-025-61703-3
    By:
    • Lee, Jae Jin;
    • Swanson, Daniel H.;
    • Lee, Sun-Kyung;
    • Dihardjo, Stephanie;
    • Lee, Gi Yong;
    • Gelle, Sree;
    • Seong, Hoon Je;
    • Bravo, Emily R. M.;
    • Taylor, Zachary E.;
    • Van Nieuwenhze, Michael S.;
    • Singh, Abhyudai;
    • Lee, Jong-Seok;
    • Eum, Seokyong;
    • Cho, SangNae;
    • Swarts, Benjamin M.;
    • Eoh, Hyungjin
    Publication type:
    Article
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    Immunoregulatory macrophages induced by mycobacterial nonpolar lipids.

    Published in:
    Journal of Immunology, 2025, v. 214, n. 5, p. 1059, doi. 10.1093/jimmun/vkae058
    By:
    • Petrilli, Jéssica Dias;
    • Estevão, Paulo;
    • De Araújo, Luana Evangelista;
    • Muller, Igor;
    • Yoshinaga, Marcos Yukio;
    • Ramos, Pablo Ivan Pereira;
    • Chaves-Filho, Adriano Britto;
    • Horta, Thainá;
    • Sorgi, Carlos Arterio;
    • Miyamoto, Sayuri;
    • Riley, Lee;
    • Arruda, Sérgio;
    • Queiroz, Adriano
    Publication type:
    Article
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    Multicentric validation of the PathoDetect™ MTB RIF & INH assay for simultaneous detection of Mycobacterium tuberculosis, & drug resistance to rifampicin & isoniazid in presumptive pulmonary tuberculosis & drug-resistant TB patients.

    Published in:
    Indian Journal of Medical Research, 2025, v. 161, n. 5, p. 1, doi. 10.25259/IJMR_824_2025
    By:
    • Choudhary, Hansraj;
    • Malik, Garima;
    • Chauhan, Devendra Singh;
    • Bhalla, Manpreet;
    • Dusthackeer, Azger;
    • Desikan, Prabha;
    • Giri, Sidhartha;
    • Kumar, Sandeep;
    • Jayaprakasam, Madhumathi;
    • Singh, Ajay Vir;
    • Sethi, Prabhpreet;
    • Reza, Md Shakir;
    • Mythily, V.;
    • Thiyagarajan, V.;
    • Panwalkar, Nikita;
    • Tripathy, Jyotismita;
    • Mani, Devdatt;
    • Singh, Diksha;
    • Ramesh, P. M.;
    • Chalga, Manjeet Singh
    Publication type:
    Article
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    Disruption of riboflavin biosynthesis in mycobacteria establishes riboflavin pathway intermediates as key precursors of MAIT cell agonists.

    Published in:
    PLoS Pathogens, 2025, v. 21, n. 7, p. 1, doi. 10.1371/journal.ppat.1012632
    By:
    • Chengalroyen, Melissa D.;
    • Oketade, Nurudeen;
    • Worley, Aneta;
    • Lucas, Megan;
    • Ramirez, Luisa Maria Nieto;
    • Raphela, Mabule L.;
    • Swarbrick, Gwendolyn M.;
    • Soma, Paul S.;
    • Zuma, Mandisa;
    • Warner, Digby F.;
    • Lewinsohn, Deborah A.;
    • Mehaffy, Carolina;
    • Adams, Erin J.;
    • Hildebrand, William;
    • Dobos, Karen M.;
    • Mizrahi, Valerie;
    • Lewinsohn, David M.
    Publication type:
    Article
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