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Syroegin, E. A., Flemmich, L., Klepacki, D., Vázquez-Laslop, N., Micura, R., and Polikanov, Y. S. (2022) Structural basis for the context-specific action of the classic peptidyl transferase inhibitor chloramphenicol. Nat Struct Mol Biol. 29, 152-161
Zeqiraj, E., Tang, X., Hunter, R. W., García-Rocha, M., Judd, A., Deak, M., von Wilamowitz-Moellendorff, A., Kurinov, I., Guinovart, J. J., Tyers, M., Sakamoto, K., and Sicheri, F. (2014) Structural basis for the recruitment of glycogen synthase by glycogenin. Proc Natl Acad Sci U S A. 111, E2831-40
Delmar, J. A., Chou, T. - H., Wright, C. C., Licon, M. H., Doh, J. K., Radhakrishnan, A., Kumar, N., Lei, H. - T., Bolla, J. Reddy, Rajashankar, K. R., Su, C. - C., Purdy, G. E., and Yu, E. W. (2015) Structural Basis for the Regulation of the MmpL Transporters of Mycobacterium tuberculosis. J Biol Chem. 290, 28559-74
Waschbüsch, D., Berndsen, K., Lis, P., Knebel, A., Lam, Y. Py, Alessi, D. R., and Khan, A. R. (2021) Structural basis for the specificity of PPM1H phosphatase for Rab GTPases. EMBO Rep. 10.15252/embr.202152675
Waschbüsch, D., Berndsen, K., Lis, P., Knebel, A., Lam, Y. Py, Alessi, D. R., and Khan, A. R. (2021) Structural basis for the specificity of PPM1H phosphatase for Rab GTPases. EMBO Rep. 10.15252/embr.202152675
Battaglia, R. A., Grigg, J. C., and Ke, A. (2019) Structural basis for tRNA decoding and aminoacylation sensing by T-box riboregulators. Nat Struct Mol Biol. 26, 1106-1113
Roose, B. W., Zemerov, S. D., Wang, Y., Kasimova, M. A., Carnevale, V., and Dmochowski, I. J. (2019) A Structural Basis for Xe Hyper-CEST Signal in TEM-1 β-Lactamase.. Chemphyschem. 20, 260-267
Kozlov, G., Mattijssen, S., Jiang, J., Nyandwi, S., Sprules, T., Iben, J. R., Coon, S. L., Gaidamakov, S., Noronha, A. M., Wilds, C. J., Maraia, R. J., and Gehring, K. (2022) Structural basis of 3'-end poly(A) RNA recognition by LARP1. Nucleic Acids Res. 10.1093/nar/gkac696
Harrison, O. J., Brasch, J., Lasso, G., Katsamba, P. S., Ahlsen, G., Honig, B., and Shapiro, L. (2016) Structural basis of adhesive binding by desmocollins and desmogleins. Proc Natl Acad Sci U S A. 113, 7160-5
Yelshanskaya, M. V., Singh, A. K., Narangoda, C., Williams, R. S. B., Kurnikova, M. G., and Sobolevsky, A. I. (2020) Structural basis of AMPA receptor inhibition by 4-BCCA. Br J Pharmacol. 10.1111/bph.15254
Liu, S., Li, S., Shen, G., Sukumar, N., Krezel, A. M., and Li, W. (2020) Structural basis of antagonizing the vitamin K catalytic cycle for anticoagulation. Science. 10.1126/science.abc5667
Kwon, Y., Kaake, R. M., Echeverria, I., Suarez, M., Shamsabadi, M. Karimian, Stoneham, C., Ramirez, P. W., Kress, J., Singh, R., Sali, A., Krogan, N., Guatelli, J., and Jia, X. (2020) Structural basis of CD4 downregulation by HIV-1 Nef. Nat Struct Mol Biol. 10.1038/s41594-020-0463-z
Kwon, Y., Kaake, R. M., Echeverria, I., Suarez, M., Shamsabadi, M. Karimian, Stoneham, C., Ramirez, P. W., Kress, J., Singh, R., Sali, A., Krogan, N., Guatelli, J., and Jia, X. (2020) Structural basis of CD4 downregulation by HIV-1 Nef. Nat Struct Mol Biol. 10.1038/s41594-020-0463-z
Kwon, Y., Kaake, R. M., Echeverria, I., Suarez, M., Shamsabadi, M. Karimian, Stoneham, C., Ramirez, P. W., Kress, J., Singh, R., Sali, A., Krogan, N., Guatelli, J., and Jia, X. (2020) Structural basis of CD4 downregulation by HIV-1 Nef. Nat Struct Mol Biol. 10.1038/s41594-020-0463-z
Kwon, Y., Kaake, R. M., Echeverria, I., Suarez, M., Shamsabadi, M. Karimian, Stoneham, C., Ramirez, P. W., Kress, J., Singh, R., Sali, A., Krogan, N., Guatelli, J., and Jia, X. (2020) Structural basis of CD4 downregulation by HIV-1 Nef. Nat Struct Mol Biol. 10.1038/s41594-020-0463-z
Aleksandrova, E. V., J Y Wu, K., Tresco, B. I. C., Syroegin, E. A., Killeavy, E. E., Balasanyants, S. M., Svetlov, M. S., Gregory, S. T., Atkinson, G. C., Myers, A. G., and Polikanov, Y. S. (2024) Structural basis of Cfr-mediated antimicrobial resistance and mechanisms to evade it. Nat Chem Biol. 20, 867-876
Clayton, G. M., Wang, Y., Crawford, F., Novikov, A., Wimberly, B. T., Kieft, J. S., Falta, M. T., Bowerman, N. A., Marrack, P., Fontenot, A. P., Dai, S., and Kappler, J. W. (2014) Structural basis of chronic beryllium disease: linking allergic hypersensitivity and autoimmunity. Cell. 158, 132-42
Clayton, G. M., Wang, Y., Crawford, F., Novikov, A., Wimberly, B. T., Kieft, J. S., Falta, M. T., Bowerman, N. A., Marrack, P., Fontenot, A. P., Dai, S., and Kappler, J. W. (2014) Structural basis of chronic beryllium disease: linking allergic hypersensitivity and autoimmunity. Cell. 158, 132-42
Velilla, J. A., Volpe, M. R., Kenney, G. E., Walsh, R. M., Balskus, E. P., and Gaudet, R. (2022) Structural basis of colibactin activation by the ClbP peptidase. Nat Chem Biol. 10.1038/s41589-022-01142-z
Macpherson, I. S., Kirubakaran, S., Gorla, S. Kumar, Riera, T. V., J D'Aquino, A., Zhang, M., Cuny, G. D., and Hedstrom, L. (2010) The structural basis of Cryptosporidium -specific IMP dehydrogenase inhibitor selectivity. J Am Chem Soc. 132, 1230-1
Shi, K., Bagchi, S., Bickel, J., Esfahani, S. H., Yin, L., Cheng, T., Karamyan, V. T., and Aihara, H. (2024) Structural basis of divergent substrate recognition and inhibition of human neurolysin. Sci Rep. 14, 18420
Kirouac, K. N., and Ling, H. (2009) Structural basis of error-prone replication and stalling at a thymine base by human DNA polymerase iota. EMBO J. 28, 1644-54
Antine, S. P., Johnson, A. G., Mooney, S. E., Leavitt, A., Mayer, M. L., Yirmiya, E., Amitai, G., Sorek, R., and Kranzusch, P. J. (2023) Structural basis of Gabija anti-phage defence and viral immune evasion. Nature. 10.1038/s41586-023-06855-2
Zhou, W., Richmond-Buccola, D., Wang, Q., and Kranzusch, P. J. (2022) Structural basis of human TREX1 DNA degradation and autoimmune disease. Nat Commun. 13, 4277
Kumar, S., Athreya, A., Gulati, A., Nair, R. Mony, Mahendran, I., Ranjan, R., and Penmatsa, A. (2021) Structural basis of inhibition of a transporter from Staphylococcus aureus, NorC, through a single-domain camelid antibody. Commun Biol. 4, 836

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