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Melnikov, S. V., Khabibullina, N. F., Mairhofer, E., Vargas-Rodriguez, O., Reynolds, N. M., Micura, R., Söll, D., and Polikanov, Y. S. (2018) Mechanistic insights into the slow peptide bond formation with D-amino acids in the ribosomal active site. Nucleic Acids Res. 10.1093/nar/gky1211
Ubah, O. C., Lake, E. W., Gunaratne, G. S., Gallant, J. P., Fernie, M., Robertson, A. J., Marchant, J. S., Bold, T. D., Langlois, R. A., Matchett, W. E., Thiede, J. M., Shi, K., Yin, L., Moeller, N. H., Banerjee, S., Ferguson, L., Kovaleva, M., Porter, A. J., Aihara, H., LeBeau, A. M., and Barelle, C. J. (2021) Mechanisms of SARS-CoV-2 neutralization by shark variable new antigen receptors elucidated through X-ray crystallography. Nat Commun. 12, 7325
Yang, H., Jiang, X., Li, B., Yang, H. J., Miller, M., Yang, A., Dhar, A., and Pavletich, N. P. (2017) Mechanisms of mTORC1 activation by RHEB and inhibition by PRAS40. Nature. 552, 368-373
Wu, K., Peng, G., Wilken, M., Geraghty, R. J., and Li, F. (2012) Mechanisms of host receptor adaptation by severe acute respiratory syndrome coronavirus. J Biol Chem. 287, 8904-11
Kamadurai, H. B., Qiu, Y., Deng, A., Harrison, J. S., Macdonald, C., Actis, M., Rodrigues, P., Miller, D. J., Souphron, J., Lewis, S. M., Kurinov, I., Fujii, N., Hammel, M., Piper, R., Kuhlman, B., and Schulman, B. A. (2013) Mechanism of ubiquitin ligation and lysine prioritization by a HECT E3. Elife. 2, e00828
Aleksandrova, E. V., Syroegin, E. A., Basu, R. S., Vassilevski, A. A., Gagnon, M. G., and Polikanov, Y. S. (2025) Mechanism of release factor-mediated peptidyl-tRNA hydrolysis on the ribosome. Science. 388, eads9030
Brown, N. G., Watson, E. R., Weissmann, F., Jarvis, M. A., VanderLinden, R., Grace, C. R. R., Frye, J. J., Qiao, R., Dube, P., Petzold, G., Cho, S. Ei, Alsharif, O., Bao, J., Davidson, I. F., Zheng, J. J., Nourse, A., Kurinov, I., Peters, J. - M., Stark, H., and Schulman, B. A. (2014) Mechanism of polyubiquitination by human anaphase-promoting complex: RING repurposing for ubiquitin chain assembly. Mol Cell. 56, 246-260
Brown, N. G., Watson, E. R., Weissmann, F., Jarvis, M. A., VanderLinden, R., Grace, C. R. R., Frye, J. J., Qiao, R., Dube, P., Petzold, G., Cho, S. Ei, Alsharif, O., Bao, J., Davidson, I. F., Zheng, J. J., Nourse, A., Kurinov, I., Peters, J. - M., Stark, H., and Schulman, B. A. (2014) Mechanism of polyubiquitination by human anaphase-promoting complex: RING repurposing for ubiquitin chain assembly. Mol Cell. 56, 246-260
Chen, Z., Yang, H., and Pavletich, N. P. (2008) Mechanism of homologous recombination from the RecA-ssDNA/dsDNA structures. Nature. 453, 489-4
Jain, R., Choudhury, J. Roy, Buku, A., Johnson, R. E., Prakash, L., Prakash, S., and Aggarwal, A. K. (2017) Mechanism of error-free DNA synthesis across N1-methyl-deoxyadenosine by human DNA polymerase-ι.. Sci Rep. 7, 43904
Jain, R., Choudhury, J. Roy, Buku, A., Johnson, R. E., Prakash, L., Prakash, S., and Aggarwal, A. K. (2017) Mechanism of error-free DNA synthesis across N1-methyl-deoxyadenosine by human DNA polymerase-ι.. Sci Rep. 7, 43904
Yockey, O. P., Jha, V., Ghodke, P. P., Xu, T., Xu, W., Ling, H., Pradeepkumar, P. I., and Zhao, L. (2017) Mechanism of Error-Free DNA Replication Past Lucidin-Derived DNA Damage by Human DNA Polymerase κ.. Chem Res Toxicol. 10.1021/acs.chemrestox.7b00227
Rechkoblit, O., Kolbanovskiy, A., Malinina, L., Geacintov, N. E., Broyde, S., and Patel, D. J. (2010) Mechanism of error-free and semitargeted mutagenic bypass of an aromatic amine lesion by Y-family polymerase Dpo4. Nat Struct Mol Biol. 17, 379-88
Du, J., Johnson, L. M., Groth, M., Feng, S., Hale, C. J., Li, S., Vashisht, A. A., Wohlschlegel, J. A., Patel, D. J., and Jacobsen, S. E. (2014) Mechanism of DNA methylation-directed histone methylation by KRYPTONITE. Mol Cell. 55, 495-504
Zhao, H., Xu, L., Bombardi, R., Nargi, R., Deng, Z., Errico, J. M., Nelson, C. A., Dowd, K. A., Pierson, T. C., Crowe, J. E., Diamond, M. S., and Fremont, D. H. (2020) Mechanism of differential Zika and dengue virus neutralization by a public antibody lineage targeting the DIII lateral ridge. J Exp Med. 10.1084/jem.20191792
Baranovskiy, A. G., Babayeva, N. D., Zhang, Y., Gu, J., Suwa, Y., Pavlov, Y. I., and Tahirov, T. H. (2016) Mechanism of Concerted RNA-DNA Primer Synthesis by the Human Primosome. J Biol Chem. 291, 10006-20
Raghuraman, H., Cordero-Morales, J. F., Jogini, V., Pan, A. C., Kollewe, A., Roux, B., and Perozo, E. (2012) Mechanism of Cd2+ coordination during slow inactivation in potassium channels. Structure. 20, 1332-42
Raghuraman, H., Cordero-Morales, J. F., Jogini, V., Pan, A. C., Kollewe, A., Roux, B., and Perozo, E. (2012) Mechanism of Cd2+ coordination during slow inactivation in potassium channels. Structure. 20, 1332-42
Uysal, S., Cuello, L. G., D Cortes, M., Koide, S., Kossiakoff, A. A., and Perozo, E. (2011) Mechanism of activation gating in the full-length KcsA K+ channel. Proc Natl Acad Sci U S A. 108, 11896-9
Lu, X., McDonald, S. M., M Tortorici, A., Tao, Y. Jane, Del Carpio, R. Vasquez-, Nibert, M. L., Patton, J. T., and Harrison, S. C. (2008) Mechanism for coordinated RNA packaging and genome replication by rotavirus polymerase VP1. Structure. 16, 1678-88
Brewer, M. Red, Yun, C. -hong, Lai, D., Lemmon, M. A., Eck, M. J., and Pao, W. (2013) Mechanism for activation of mutated epidermal growth factor receptors in lung cancer. Proc Natl Acad Sci U S A. 110, E3595-604
Osterman, I. A., Khabibullina, N. F., Komarova, E. S., Kasatsky, P., Kartsev, V. G., Bogdanov, A. A., Dontsova, O. A., Konevega, A. L., Sergiev, P. V., and Polikanov, Y. S. (2017) Madumycin II inhibits peptide bond formation by forcing the peptidyl transferase center into an inactive state. Nucleic Acids Res. 10.1093/nar/gkx413
Tu, X., and Palczewski, K. (2014) The macular degeneration-linked C1QTNF5 (S163) mutation causes higher-order structural rearrangements. J Struct Biol. 186, 86-94
Aleksandrova, E. V., Ma, C. - X., Klepacki, D., Alizadeh, F., Vázquez-Laslop, N., Liang, J. - H., Polikanov, Y. S., and Mankin, A. S. (2024) Macrolones target bacterial ribosomes and DNA gyrase and can evade resistance mechanisms. Nat Chem Biol. 10.1038/s41589-024-01685-3
Fullenkamp, C. R., Mehdi, S., Jones, C. P., Tenney, L., Pichling, P., Prestwood, P. R., Ferré-D'Amaré, A. R., Tiwary, P., and Schneekloth, J. S. (2025) Machine Learning-Augmented Molecular Dynamics Simulations (MD) Reveal Insights Into the Disconnect Between Affinity and Activation of ZTP Riboswitch Ligands. Angew Chem Int Ed Engl. 10.1002/anie.202505971

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