Microbiology and Immunology

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2022
Benjamin B, Goldgur Y, Jork N, Jessen HJ, Schwer B, Shuman S.  2022.  Structures of Fission Yeast Inositol Pyrophosphate Kinase Asp1 in Ligand-Free, Substrate-Bound, and Product-Bound States.. mBio. 13(6):e0308722.
Zainabadi K, Saito K, Mishra S, Walsh KFrances, Mathurin LDaniel, Vilbrun SCharles, Ocheretina O, Pape JWilliam, Fitzgerald DW, Nathan CF et al..  2022.  Transcriptional Biomarkers of Differentially Detectable Mycobacterium tuberculosis in Patient Sputum.. mBio. 13(6):e0270122.
Wu B, Song M, Dong Q, Xiang G, Li J, Ma X, Wei F.  2022.  UBR5 promotes tumor immune evasion through enhancing IFN-γ-induced PDL1 transcription in triple negative breast cancer.. Theranostics. 12(11):5086-5102.
Xiang G, Wang S, Chen L, Song M, Song X, Wang H, Zhou P, Ma X, Yu J.  2022.  UBR5 targets tumor suppressor CDC73 proteolytically to promote aggressive breast cancer.. Cell Death Dis. 13(5):451.
Xiang G, Wang S, Chen L, Song M, Song X, Wang H, Zhou P, Ma X, Yu J.  2022.  UBR5 targets tumor suppressor CDC73 proteolytically to promote aggressive breast cancer.. Cell Death Dis. 13(5):451.
Zahid S, Aloe S, Sutherland JH, Holloman WK, Lue NF.  2022.  Ustilago maydis telomere protein Pot1 harbors an extra N-terminal OB fold and regulates homology-directed DNA repair factors in a dichotomous and context-dependent manner.. PLoS Genet. 18(5):e1010182.
2021
Dantuluri S, Schwer B, Abdullahu L, Damha MJ, Shuman S.  2021.  Activity and substrate specificity of Candida, Aspergillus, and Coccidioides Tpt1: essential tRNA splicing enzymes and potential anti-fungal targets.. RNA. 27(5):616-27.
Dantuluri S, Schwer B, Abdullahu L, Damha MJ, Shuman S.  2021.  Activity and substrate specificity of Candida, Aspergillus, and Coccidioides Tpt1: essential tRNA splicing enzymes and potential anti-fungal targets.. RNA. 27(5):616-27.
van Haaren MM, McCoy LE, Torres JL, Lee W, Cottrell CA, Copps JL, van der Woude P, Yasmeen A, de Taeye SW, A de la Peña T et al..  2021.  Antibodies from Rabbits Immunized with HIV-1 Clade B SOSIP Trimers Can Neutralize Multiple Clade B Viruses by Destabilizing the Envelope Glycoprotein.. J Virol. 95(17):e0009421.
van Schooten J, van Haaren MM, Li H, McCoy LE, Havenar-Daughton C, Cottrell CA, Burger JA, van der Woude P, Helgers LC, Tomris I et al..  2021.  Antibody responses induced by SHIV infection are more focused than those induced by soluble native HIV-1 envelope trimers in non-human primates.. PLoS Pathog. 17(8):e1009736.
van Schooten J, van Haaren MM, Li H, McCoy LE, Havenar-Daughton C, Cottrell CA, Burger JA, van der Woude P, Helgers LC, Tomris I et al..  2021.  Antibody responses induced by SHIV infection are more focused than those induced by soluble native HIV-1 envelope trimers in non-human primates.. PLoS Pathog. 17(8):e1009736.
Ketas TJ, Chaturbhuj D, Portillo VMCruz, Francomano E, Golden E, Chandrasekhar S, Debnath G, Díaz-Tapia R, Yasmeen A, Kramer KD et al..  2021.  Antibody Responses to SARS-CoV-2 mRNA Vaccines Are Detectable in Saliva.. Pathog Immun. 6(1):116-134.
de Melo CSoares, Singh V, Myrick A, Simelane SB, Taylor D, Brunschwig C, Lawrence N, Schnappinger D, Engelhart CA, Kumar A et al..  2021.  Antitubercular 2-Pyrazolylpyrimidinones: Structure-Activity Relationship and Mode-of-Action Studies.. J Med Chem. 64(1):719-740.
de Melo CSoares, Singh V, Myrick A, Simelane SB, Taylor D, Brunschwig C, Lawrence N, Schnappinger D, Engelhart CA, Kumar A et al..  2021.  Antitubercular 2-Pyrazolylpyrimidinones: Structure-Activity Relationship and Mode-of-Action Studies.. J Med Chem. 64(1):719-740.
de Melo CSoares, Singh V, Myrick A, Simelane SB, Taylor D, Brunschwig C, Lawrence N, Schnappinger D, Engelhart CA, Kumar A et al..  2021.  Antitubercular 2-Pyrazolylpyrimidinones: Structure-Activity Relationship and Mode-of-Action Studies.. J Med Chem. 64(1):719-740.
de Melo CSoares, Singh V, Myrick A, Simelane SB, Taylor D, Brunschwig C, Lawrence N, Schnappinger D, Engelhart CA, Kumar A et al..  2021.  Antitubercular 2-Pyrazolylpyrimidinones: Structure-Activity Relationship and Mode-of-Action Studies.. J Med Chem. 64(1):719-740.
de Melo CSoares, Singh V, Myrick A, Simelane SB, Taylor D, Brunschwig C, Lawrence N, Schnappinger D, Engelhart CA, Kumar A et al..  2021.  Antitubercular 2-Pyrazolylpyrimidinones: Structure-Activity Relationship and Mode-of-Action Studies.. J Med Chem. 64(1):719-740.
Zainabadi K, Walsh KFrances, Vilbrun SCharles, Mathurin LDaniel, Lee MHee, Saito K, Mishra S, Ocheretina O, Pape JWilliam, Nathan C et al..  2021.  Characterization of Differentially Detectable Mycobacterium tuberculosis in the Sputum of Subjects with Drug-Sensitive or Drug-Resistant Tuberculosis before and after Two Months of Therapy.. Antimicrob Agents Chemother. 65(8):e0060821.
Pandey S, Singh A, Yang G, d'Andrea FB, Jiang X, Hartman TE, Mosior JW, Bourland R, Gold B, Roberts J et al..  2021.  Characterization of Phosphopantetheinyl Hydrolase from Mycobacterium tuberculosis.. Microbiol Spectr. 9(2):e0092821.
Pandey S, Singh A, Yang G, d'Andrea FB, Jiang X, Hartman TE, Mosior JW, Bourland R, Gold B, Roberts J et al..  2021.  Characterization of Phosphopantetheinyl Hydrolase from Mycobacterium tuberculosis.. Microbiol Spectr. 9(2):e0092821.
Honjo K, Russell RM, Li R, Liu W, Stoltz R, Tabengwa EM, Hua Y, Prichard L, Kornbrust AN, Sterrett S et al..  2021.  Convalescent plasma-mediated resolution of COVID-19 in a patient with humoral immunodeficiency.. Cell Rep Med. 2(1):100164.
Honjo K, Russell RM, Li R, Liu W, Stoltz R, Tabengwa EM, Hua Y, Prichard L, Kornbrust AN, Sterrett S et al..  2021.  Convalescent plasma-mediated resolution of COVID-19 in a patient with humoral immunodeficiency.. Cell Rep Med. 2(1):100164.
Zhan W, Zhang H, Ginn J, Leung A, Liu YJ, Michino M, Toita A, Okamoto R, Wong T-T, Imaeda T et al..  2021.  Development of a Highly Selective Plasmodium falciparum Proteasome Inhibitor with Anti-malaria Activity in Humanized Mice.. Angew Chem Int Ed Engl. 60(17):9279-9283.
Lee BShi, Hards K, Engelhart CA, Hasenoehrl EJ, Kalia NP, Mackenzie JS, Sviriaeva E, Chong SMin Sheril, Manimekalai MSony S, Koh VH et al..  2021.  Dual inhibition of the terminal oxidases eradicates antibiotic-tolerant Mycobacterium tuberculosis.. EMBO Mol Med. 13(1):e13207.
Lee BShi, Hards K, Engelhart CA, Hasenoehrl EJ, Kalia NP, Mackenzie JS, Sviriaeva E, Chong SMin Sheril, Manimekalai MSony S, Koh VH et al..  2021.  Dual inhibition of the terminal oxidases eradicates antibiotic-tolerant Mycobacterium tuberculosis.. EMBO Mol Med. 13(1):e13207.