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Nabel, K. G., Clark, S. A., Shankar, S., Pan, J., Clark, L. E., Yang, P., Coscia, A., McKay, L. G. A., Varnum, H. H., Brusic, V., Tolan, N. V., Zhou, G., Desjardins, M., Turbett, S. E., Kanjilal, S., Sherman, A. C., Dighe, A., LaRocque, R. C., Ryan, E. T., Tylek, C., Cohen-Solal, J. F., Darcy, A. T., Tavella, D., Clabbers, A., Fan, Y., Griffiths, A., Correia, I. R., Seagal, J., Baden, L. R., Charles, R. C., and Abraham, J. (2021) Structural basis for continued antibody evasion by the SARS-CoV-2 receptor binding domain. Science
Prew, M. S., Camara, C. M., Botzanowski, T., Moroco, J. A., Bloch, N. B., Levy, H. R., Seo, H. - S., Dhe-Paganon, S., Bird, G. H., Herce, H. D., Gygi, M. A., Escudero, S., Wales, T. E., Engen, J. R., and Walensky, L. D. (2022) Structural basis for defective membrane targeting of mutant enzyme in human VLCAD deficiency. Nat Commun. 13, 3669
Xia, S., Eom, S. Hyun, Konigsberg, W. H., and Wang, J. (2012) Structural basis for differential insertion kinetics of dNMPs opposite a difluorotoluene nucleotide residue. Biochemistry. 51, 1476-85
Nithianantham, S., McNally, F. J., and Al-Bassam, J. (2018) Structural Basis for Disassembly of Katanin Heterododecamers. J Biol Chem. 10.1074/jbc.RA117.001215
Torrens-Spence, M. P., Chiang, Y. - C., Smith, T., Vicent, M. A., Wang, Y., and Weng, J. - K. (2020) Structural basis for divergent and convergent evolution of catalytic machineries in plant aromatic amino acid decarboxylase proteins. Proc Natl Acad Sci U S A. 10.1073/pnas.1920097117
Zhang, Z. - M., Lu, R., Wang, P., Yu, Y., Chen, D., Gao, L., Liu, S., Ji, D., Rothbart, S. B., Wang, Y., Wang, G. Greg, and Song, J. (2018) Structural basis for DNMT3A-mediated de novo DNA methylation. Nature. 554, 387-391
Wu, B., Peisley, A., Richards, C., Yao, H., Zeng, X., Lin, C., Chu, F., Walz, T., and Hur, S. (2013) Structural basis for dsRNA recognition, filament formation, and antiviral signal activation by MDA5. Cell. 152, 276-89
Heppner, D. E., Günther, M., Wittlinger, F., Laufer, S. A., and Eck, M. J. (2020) Structural Basis for EGFR Mutant Inhibition by Trisubstituted Imidazole Inhibitors. J Med Chem. 10.1021/acs.jmedchem.0c00200
Patra, A., Banerjee, S., Salyard, T. L. Johnson, Malik, C. K., Christov, P. P., Rizzo, C. J., Stone, M. P., and Egli, M. (2015) Structural Basis for Error-Free Bypass of the 5-N-Methylformamidopyrimidine-dG Lesion by Human DNA Polymerase η and Sulfolobus solfataricus P2 Polymerase IV.. J Am Chem Soc. 137, 7011-4
Silverstein, T. D., Jain, R., Johnson, R. E., Prakash, L., Prakash, S., and Aggarwal, A. K. (2010) Structural basis for error-free replication of oxidatively damaged DNA by yeast DNA polymerase η.. Structure. 18, 1463-70
Toor, N., Rajashankar, K., Keating, K. S., and Pyle, A. Marie (2008) Structural basis for exon recognition by a group II intron. Nat Struct Mol Biol. 15, 1221-2
Huang, J., Makabe, K., Biancalana, M., Koide, A., and Koide, S. (2009) Structural basis for exquisite specificity of affinity clamps, synthetic binding proteins generated through directed domain-interface evolution. J Mol Biol. 392, 1221-31
Rees, H. C., Gogacz, W., Li, N. - S., Koirala, D., and Piccirilli, J. A. (2022) Structural Basis for Fluorescence Activation by Pepper RNA. ACS Chem Biol. 17, 1866-1875
Jost, M., Fernández-Zapata, J., Polanco, M. Carmen, Ortiz-Guerrero, J. Manuel, Chen, P. Yang- Ting, Kang, G., Padmanabhan, S., Elías-Arnanz, M., and Drennan, C. L. (2015) Structural basis for gene regulation by a B12-dependent photoreceptor. Nature. 526, 536-41
Battaglia, R. A., Price, I. R., and Ke, A. (2017) Structural basis for guanidine sensing by the ykkC family of riboswitches. RNA. 23, 578-585
Trachman, R. J., Demeshkina, N. A., Lau, M. W. L., Panchapakesan, S. Shyam S., C Y Jeng, S., Unrau, P. J., and Ferré-D'Amaré, A. R. (2017) Structural basis for high-affinity fluorophore binding and activation by RNA Mango. Nat Chem Biol. 13, 807-813
Horton, J. R., Upadhyay, A. K., Hashimoto, H., Zhang, X., and Cheng, X. (2011) Structural basis for human PHF2 Jumonji domain interaction with metal ions. J Mol Biol. 406, 1-8
Long, T., Hassan, A., Thompson, B. M., McDonald, J. G., Wang, J., and Li, X. (2019) Structural basis for human sterol isomerase in cholesterol biosynthesis and multidrug recognition. Nat Commun. 10, 2452
Ren, X., Gelinas, A. D., von Carlowitz, I., Janjic, N., and Pyle, A. Marie (2017) Structural basis for IL-1α recognition by a modified DNA aptamer that specifically inhibits IL-1α signaling.. Nat Commun. 8, 810
Baranovskiy, A. G., Babayeva, N. D., Suwa, Y., Gu, J., Pavlov, Y. I., and Tahirov, T. H. (2014) Structural basis for inhibition of DNA replication by aphidicolin. Nucleic Acids Res. 42, 14013-21
Bu, W., Settembre, E. C., Kouni, M. H. el, and Ealick, S. E. (2005) Structural basis for inhibition of Escherichia coli uridine phosphorylase by 5-substituted acyclouridines. Acta Crystallogr D Biol Crystallogr. 61, 863-72
Heppner, D. E., Wittlinger, F., Beyett, T. S., Shaurova, T., Urul, D. A., Buckley, B., Pham, C. D., Schaeffner, I. K., Yang, B., Ogboo, B. C., May, E. W., Schaefer, E. M., Eck, M. J., Laufer, S. A., and Hershberger, P. A. (2022) Structural Basis for Inhibition of Mutant EGFR with Lazertinib (YH25448). ACS Med Chem Lett. 13, 1856-1863
Zhang, X., Eser, B. E., Chanani, P. K., Begley, T. P., and Ealick, S. E. (2016) Structural Basis for Iron-Mediated Sulfur Transfer in Archael and Yeast Thiazole Synthases. Biochemistry. 55, 1826-38
Polley, S., Bin Huang, D. -, Hauenstein, A. V., Fusco, A. J., Zhong, X., Vu, D., Schröfelbauer, B., Kim, Y., Hoffmann, A., Verma, I. M., Ghosh, G., and Huxford, T. (2013) A structural basis for IκB kinase 2 activation via oligomerization-dependent trans auto-phosphorylation.. PLoS Biol. 11, e1001581
Saxton, R. A., Knockenhauer, K. E., Wolfson, R. L., Chantranupong, L., Pacold, M. E., Wang, T., Schwartz, T. U., and Sabatini, D. M. (2016) Structural basis for leucine sensing by the Sestrin2-mTORC1 pathway. Science. 351, 53-8

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