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2022
Govender P, Müller R, Singh K, Reddy V, Eyermann CJ, Fienberg S, Ghorpade SR, Koekemoer L, Myrick A, Schnappinger D et al..  2022.  Spiropyrimidinetrione DNA Gyrase Inhibitors with Potent and Selective Antituberculosis Activity.. J Med Chem. 65(9):6903-6925.
Hodge EA, Naika GS, Kephart SM, Nguyen A, Zhu R, Benhaim MA, Guo W, Moore JP, Hu S-L, Sanders RW et al..  2022.  Structural dynamics reveal isolate-specific differences at neutralization epitopes on HIV Env.. iScience. 25(6):104449.
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.
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.
2023
Sanchez AM, Schwer B, Jork N, Jessen HJ, Shuman S.  2023.  Activities, substrate specificity, and genetic interactions of fission yeast Siw14, a cysteinyl-phosphatase-type inositol pyrophosphatase.. mBio. 14(5):e0205623.
Sanchez AM, Schwer B, Jork N, Jessen HJ, Shuman S.  2023.  Activities, substrate specificity, and genetic interactions of fission yeast Siw14, a cysteinyl-phosphatase-type inositol pyrophosphatase.. mBio. 14(5):e0205623.
Sanchez AM, Schwer B, Jork N, Jessen HJ, Shuman S.  2023.  Activities, substrate specificity, and genetic interactions of fission yeast Siw14, a cysteinyl-phosphatase-type inositol pyrophosphatase.. mBio. 14(5):e0205623.
Garg A, Sanchez AM, Miele M, Schwer B, Shuman S.  2023.  Cellular responses to long-term phosphate starvation of fission yeast: Maf1 determines fate choice between quiescence and death associated with aberrant tRNA biogenesis.. Nucleic Acids Res. 51(7):3094-3115.
Garg A, Sanchez AM, Miele M, Schwer B, Shuman S.  2023.  Cellular responses to long-term phosphate starvation of fission yeast: Maf1 determines fate choice between quiescence and death associated with aberrant tRNA biogenesis.. Nucleic Acids Res. 51(7):3094-3115.
Garg A, Sanchez AM, Miele M, Schwer B, Shuman S.  2023.  Cellular responses to long-term phosphate starvation of fission yeast: Maf1 determines fate choice between quiescence and death associated with aberrant tRNA biogenesis.. Nucleic Acids Res. 51(7):3094-3115.
Wong AI, Beites T, Planck KA, Fieweger RA, Eckartt KA, Li S, Poulton NC, VanderVen BC, Rhee KY, Schnappinger D et al..  2023.  Cyclic AMP is a critical mediator of intrinsic drug resistance and fatty acid metabolism in M. tuberculosis.. Elife. 12
Sutherland JH, Holloman WK.  2023.  Determinants governing BRC function evaluated by mutational analysis of Brh2 in Ustilago maydis.. DNA Repair (Amst). 127:103511.
de Miranda R, Cuthbert BJ, Klevorn T, Chao A, Mendoza J, Arbing M, Sieminski PJ, Papavinasasundaram K, Abdul-Hafiz S, Chan S et al..  2023.  Differentiating the roles of Mycobacterium tuberculosis substrate binding proteins, FecB and FecB2, in iron uptake.. PLoS Pathog. 19(9):e1011650.
de Miranda R, Cuthbert BJ, Klevorn T, Chao A, Mendoza J, Arbing M, Sieminski PJ, Papavinasasundaram K, Abdul-Hafiz S, Chan S et al..  2023.  Differentiating the roles of Mycobacterium tuberculosis substrate binding proteins, FecB and FecB2, in iron uptake.. PLoS Pathog. 19(9):e1011650.
Zhan W, Li D, Subramanyaswamy SBevkal, Liu YJing, Yang C, Zhang H, Harris JC, Wang R, Zhu S, Rocha H et al..  2023.  Dual-pharmacophore artezomibs hijack the Plasmodium ubiquitin-proteasome system to kill malaria parasites while overcoming drug resistance.. Cell Chem Biol. 30(5):457-469.e11.
Zhan W, Li D, Subramanyaswamy SBevkal, Liu YJing, Yang C, Zhang H, Harris JC, Wang R, Zhu S, Rocha H et al..  2023.  Dual-pharmacophore artezomibs hijack the Plasmodium ubiquitin-proteasome system to kill malaria parasites while overcoming drug resistance.. Cell Chem Biol. 30(5):457-469.e11.
Zhan W, Li D, Subramanyaswamy SBevkal, Liu YJing, Yang C, Zhang H, Harris JC, Wang R, Zhu S, Rocha H et al..  2023.  Dual-pharmacophore artezomibs hijack the Plasmodium ubiquitin-proteasome system to kill malaria parasites while overcoming drug resistance.. Cell Chem Biol. 30(5):457-469.e11.
Zhan W, Li D, Subramanyaswamy SBevkal, Liu YJing, Yang C, Zhang H, Harris JC, Wang R, Zhu S, Rocha H et al..  2023.  Dual-pharmacophore artezomibs hijack the Plasmodium ubiquitin-proteasome system to kill malaria parasites while overcoming drug resistance.. Cell Chem Biol. 30(5):457-469.e11.
Sanchez AM, Garg A, Schwer B, Shuman S.  2023.  Duf89 abets lncRNA control of fission yeast phosphate homeostasis via its antagonism of precocious lncRNA transcription termination.. RNA. 29(6):808-825.
Sanchez AM, Garg A, Schwer B, Shuman S.  2023.  Duf89 abets lncRNA control of fission yeast phosphate homeostasis via its antagonism of precocious lncRNA transcription termination.. RNA. 29(6):808-825.