Microbiology and Immunology

You are here

Home > Publications > Publications

Publications

Found 1004 results
Author Title Type [ Year(Asc)]
Filters: First Letter Of Last Name is S  [Clear All Filters]
2026
Hunt DM, Pisco JPedro, Rodgers A, de Chiara C, Zaveri A, Pacholarz KL, Evangelopoulos D, Garza-Garcia A, Ehrt S, Schnappinger D et al..  2026.  Activation of L-histidine biosynthesis as a new antibiotic strategy against Mycobacterium tuberculosis.. Nat Commun. 17(1)
Seshadri C, Flynn JAL, Maiello P, Schnappinger D, Wilkinson RJ, Gordon SB, Mwandumba HC, Jambo KC, Hoft DF, Rubin EJ et al..  2026.  Controlled human infection with Mycobacterium tuberculosis: practical considerations for clinical trials.. Lancet Microbe. :101278.
Seshadri C, Flynn JAL, Maiello P, Schnappinger D, Wilkinson RJ, Gordon SB, Mwandumba HC, Jambo KC, Hoft DF, Rubin EJ et al..  2026.  Controlled human infection with Mycobacterium tuberculosis: practical considerations for clinical trials.. Lancet Microbe. :101278.
Sarkar A, Schwer B, Shuman S.  2026.  Fission yeast Tpt1 is composed of tandem RNA 2'-phosphotransferase and Yae1 domains, both of which are essential for viability.. RNA. 32(2):237-249.
Sarkar A, Schwer B, Shuman S.  2026.  Fission yeast Tpt1 is composed of tandem RNA 2'-phosphotransferase and Yae1 domains, both of which are essential for viability.. RNA. 32(2):237-249.
Sarkar A, Schwer B, Shuman S.  2026.  Fission yeast Tpt1 is composed of tandem RNA 2'-phosphotransferase and Yae1 domains, both of which are essential for viability.. RNA. 32(2):237-249.
Innokentev A, Schwer B, Shuman S.  2026.  Ifn1 is an intracellular GMP 5'-nucleotidase induced during the fission yeast response to phosphate starvation.. mBio. 17(4):e0394225.
Innokentev A, Schwer B, Shuman S.  2026.  Ifn1 is an intracellular GMP 5'-nucleotidase induced during the fission yeast response to phosphate starvation.. mBio. 17(4):e0394225.
Schnappinger D, Berthel SJ, Boshoff HIM, Krieger IV, Sukheja P, Panda S, Rath S, Briggs K, Bian X, Rasheed S et al..  2026.  Integrating chemical, genetic, and feasibility assessments for anti-tubercular target validation.. EMBO Mol Med.
Schnappinger D, Berthel SJ, Boshoff HIM, Krieger IV, Sukheja P, Panda S, Rath S, Briggs K, Bian X, Rasheed S et al..  2026.  Integrating chemical, genetic, and feasibility assessments for anti-tubercular target validation.. EMBO Mol Med.
Schnappinger D, Berthel SJ, Boshoff HIM, Krieger IV, Sukheja P, Panda S, Rath S, Briggs K, Bian X, Rasheed S et al..  2026.  Integrating chemical, genetic, and feasibility assessments for anti-tubercular target validation.. EMBO Mol Med.
Pinto AJ, Silva M, Santos JA, VanderVen BC, Monteiro R, Schnappinger D, Ehrt S, Beites T.  2026.  Mycobacterium tuberculosis long-chain fatty acid resistome reveals universal stress protein TB15.3 as essential for infection.. Commun Biol.
Pinto AJ, Silva M, Santos JA, VanderVen BC, Monteiro R, Schnappinger D, Ehrt S, Beites T.  2026.  Mycobacterium tuberculosis long-chain fatty acid resistome reveals universal stress protein TB15.3 as essential for infection.. Commun Biol.
Pinto AJ, Silva M, Santos JA, VanderVen BC, Monteiro R, Schnappinger D, Ehrt S, Beites T.  2026.  Mycobacterium tuberculosis long-chain fatty acid resistome reveals universal stress protein TB15.3 as essential for infection.. Commun Biol.
Klevorn T, Brown C, Hardy CD, Cuthbert BJ, Spencer A, Jinich A, Chan L, Angala SK, Manzer J, Mendoza J et al..  2026.  A periplasmic protein complex mediates arabinofuranosyltransferase activity and intrinsic drug resistance in Mycobacterium tuberculosis.. Sci Adv. 12(14):eaec5100.
Klevorn T, Brown C, Hardy CD, Cuthbert BJ, Spencer A, Jinich A, Chan L, Angala SK, Manzer J, Mendoza J et al..  2026.  A periplasmic protein complex mediates arabinofuranosyltransferase activity and intrinsic drug resistance in Mycobacterium tuberculosis.. Sci Adv. 12(14):eaec5100.
Courbon GM, Makarov V, Cole ST, Schnapinger D, Ehrt S, Rubinstein JL.  2026.  Structural basis for EtfD-mediated coupling of β-oxidation and the respiratory chain in mycobacteria.. EMBO J. 45(8):2785-2807.
Khonde LPeguy, Peton N, Masike K, Valentine T, Zindo F, Fienberg S, Omollo C, Njoroge M, Vallini F, Tammaro C et al..  2026.  Structure-Activity relationship and optimization of drug-like properties of antituberculosis 3-(4,4-dimethyl-1,4-azasilinane)methylpyrazole MmpL3 inhibitors.. Eur J Med Chem. 312:118841.
Khonde LPeguy, Peton N, Masike K, Valentine T, Zindo F, Fienberg S, Omollo C, Njoroge M, Vallini F, Tammaro C et al..  2026.  Structure-Activity relationship and optimization of drug-like properties of antituberculosis 3-(4,4-dimethyl-1,4-azasilinane)methylpyrazole MmpL3 inhibitors.. Eur J Med Chem. 312:118841.
Hrach VLee, Schwer B, Vitek L, Borowicz M, Innokentev A, Sanchez AM, Singer JR, Shuman S, Patton-Vogt J.  2026.  Transporter-Driven Glycerophosphocholine (GPC) Toxicity Is Conserved from Fission Yeast to Budding Yeast: Roles for Inositol Pyrophosphates and Gde1 Regulation in Fission Yeast.. Biomolecules. 16(2)
Hrach VLee, Schwer B, Vitek L, Borowicz M, Innokentev A, Sanchez AM, Singer JR, Shuman S, Patton-Vogt J.  2026.  Transporter-Driven Glycerophosphocholine (GPC) Toxicity Is Conserved from Fission Yeast to Budding Yeast: Roles for Inositol Pyrophosphates and Gde1 Regulation in Fission Yeast.. Biomolecules. 16(2)
Hrach VLee, Schwer B, Vitek L, Borowicz M, Innokentev A, Sanchez AM, Singer JR, Shuman S, Patton-Vogt J.  2026.  Transporter-Driven Glycerophosphocholine (GPC) Toxicity Is Conserved from Fission Yeast to Budding Yeast: Roles for Inositol Pyrophosphates and Gde1 Regulation in Fission Yeast.. Biomolecules. 16(2)
Hrach VLee, Schwer B, Vitek L, Borowicz M, Innokentev A, Sanchez AM, Singer JR, Shuman S, Patton-Vogt J.  2026.  Transporter-Driven Glycerophosphocholine (GPC) Toxicity Is Conserved from Fission Yeast to Budding Yeast: Roles for Inositol Pyrophosphates and Gde1 Regulation in Fission Yeast.. Biomolecules. 16(2)
2025
Wu X, Huang S, Gao J, Huang S, Chen L, Zhao Z, Pu R, Ma X, Liu X, He W et al..  2025.  AKR1B10 dictates c-Myc stability to suppress colorectal cancer metastasis via PP2A nitration.. Sci Adv. 11(34):eadv6937.
Du Y, Faz-Lopez B, Kioon MDominique, Cenac C, Pierides M, Lakin KS, Spiera RF, Chaumeil J, Truchetet M-E, Gordon JK et al..  2025.  Altered X-chromosome inactivation of the TLR7/8 locus and heterogeneity of pDCs in systemic sclerosis.. J Exp Med. 222(3)