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Eaton, S. A., Ronnebaum, T. A., Roose, B. W., and Christianson, D. W. (2022) Structural Basis of Substrate Promiscuity and Catalysis by the Reverse Prenyltransferase -Dimethylallyl-l-tryptophan Synthase from . Biochemistry. 10.1021/acs.biochem.2c00350
Luo, M., and Tanner, J. J. (2015) Structural Basis of Substrate Recognition by Aldehyde Dehydrogenase 7A1. Biochemistry. 54, 5513-22
Shi, K., Oakland, J. T., Kurniawan, F., Moeller, N. H., Banerjee, S., and Aihara, H. (2020) Structural basis of superinfection exclusion by bacteriophage T4 Spackle. Commun Biol. 3, 691
Zhou, X., Levin, E. J., Pan, Y., McCoy, J. G., Sharma, R., Kloss, B., Bruni, R., Quick, M., and Zhou, M. (2014) Structural basis of the alternating-access mechanism in a bile acid transporter. Nature. 505, 569-73
Hao, B., Zheng, N., Schulman, B. A., Wu, G., Miller, J. J., Pagano, M., and Pavletich, N. P. (2005) Structural basis of the Cks1-dependent recognition of p27(Kip1) by the SCF(Skp2) ubiquitin ligase. Mol Cell. 20, 9-19
Dhindwal, S., Gomez-Gil, L., Neau, D. B., Pham, T. Thanh My, Sylvestre, M., Eltis, L. D., Bolin, J. T., and Kumar, P. (2016) Structural Basis of the Enhanced Pollutant-Degrading Capabilities of an Engineered Biphenyl Dioxygenase. J Bacteriol. 198, 1499-512
Singh, H., Reilly, T. J., and Tanner, J. J. (2011) Structural basis of the inhibition of class C acid phosphatases by adenosine 5'-phosphorothioate. FEBS J. 278, 4374-81
Phillips, C. M., Schreiter, E. R., Guo, Y., Wang, S. C., Zamble, D. B., and Drennan, C. L. (2008) Structural basis of the metal specificity for nickel regulatory protein NikR. Biochemistry. 47, 1938-46
Ji, T., Zhang, C., Zheng, L., Dunaway-Mariano, D., and Allen, K. N. (2018) Structural Basis of the Molecular Switch between Phosphatase and Mutase Functions of Human Phosphomannomutase 1 under Ischemic Conditions. Biochemistry. 57, 3480-3492
Fenwick, M. K., Su, D., Dong, M., Lin, H., and Ealick, S. E. (2020) Structural Basis of the Substrate Selectivity of Viperin. Biochemistry. 10.1021/acs.biochem.9b00741
Dessanti, P., Zhang, Y., Allegrini, S., Tozzi, M. Grazia, Sgarrella, F., and Ealick, S. E. (2012) Structural basis of the substrate specificity of Bacillus cereus adenosine phosphorylase. Acta Crystallogr D Biol Crystallogr. 68, 239-48
Cho, J., Lee, M., C Cochrane, S., Webster, C. G., Fenton, B. A., Zhao, J., Hong, J., and Zhou, P. (2020) Structural basis of the UDP-diacylglucosamine pyrophosphohydrolase LpxH inhibition by sulfonyl piperazine antibiotics. Proc Natl Acad Sci U S A. 117, 4109-4116
He, F., DuPrez, K., Hilario, E., Chen, Z., and Fan, L. (2020) Structural basis of the XPB helicase-Bax1 nuclease complex interacting with the repair bubble DNA. Nucleic Acids Res. 48, 11695-11705
Weixlbaumer, A., Leon, K., Landick, R., and Darst, S. A. (2013) Structural basis of transcriptional pausing in bacteria. Cell. 152, 431-41
Schureck, M. A., Meisner, J., Hoffer, E. D., Wang, D., Onuoha, N., Cho, S. Ei, Lollar, P., and Dunham, C. M. (2019) Structural basis of transcriptional regulation by the HigA antitoxin. Mol Microbiol. 10.1111/mmi.14229
Calmettes, C., Alcantara, J., Yu, R. - H., Schryvers, A. B., and Moraes, T. F. (2012) The structural basis of transferrin sequestration by transferrin-binding protein B. Nat Struct Mol Biol. 19, 358-60
Roose, B. W., and Christianson, D. W. (2019) Structural Basis of Tryptophan Reverse N-Prenylation Catalyzed by CymD. Biochemistry. 58, 3232-3242
Nithianantham, S., Cook, B. D., Beans, M., Guo, F., Chang, F., and Al-Bassam, J. (2018) Structural basis of tubulin recruitment and assembly by microtubule polymerases with Tumor Overexpressed Gene (TOG) domain arrays. Elife. 10.7554/eLife.38922
Owens, T. W., Taylor, R. J., Pahil, K. S., Bertani, B. R., Ruiz, N., Kruse, A. C., and Kahne, D. (2019) Structural basis of unidirectional export of lipopolysaccharide to the cell surface. Nature. 567, 550-553
Scrima, A., Konícková, R., Czyzewski, B. K., Kawasaki, Y., Jeffrey, P. D., Groisman, R., Nakatani, Y., Iwai, S., Pavletich, N. P., and Thomä, N. H. (2008) Structural basis of UV DNA-damage recognition by the DDB1-DDB2 complex. Cell. 135, 1213-23
Teplova, M., Farazi, T. A., Tuschl, T., and Patel, D. J. (2016) Structural basis underlying CAC RNA recognition by the RRM domain of dimeric RNA-binding protein RBPMS. Q Rev Biophys. 49, e1
Huang, H., Deng, Z., Vladimirova, O., Wiedmer, A., Lu, F., Lieberman, P. M., and Patel, D. J. (2016) Structural basis underlying viral hijacking of a histone chaperone complex. Nat Commun. 7, 12707
Yasuda, H., Park, E., Yun, C. -hong, Sng, N. J., Lucena-Araujo, A. R., Yeo, W. - L., Huberman, M. S., Cohen, D. W., Nakayama, S., Ishioka, K., Yamaguchi, N., Hanna, M., Oxnard, G. R., Lathan, C. S., Moran, T., Sequist, L. V., Chaft, J. E., Riely, G. J., Arcila, M. E., Soo, R. A., Meyerson, M., Eck, M. J., Kobayashi, S. S., and Costa, D. B. (2013) Structural, biochemical, and clinical characterization of epidermal growth factor receptor (EGFR) exon 20 insertion mutations in lung cancer. Sci Transl Med. 5, 216ra177
Leung, J. H., Schurig-Briccio, L. A., Yamaguchi, M., Moeller, A., Speir, J. A., Gennis, R. B., and Stout, C. D. (2015) Structural biology. Division of labor in transhydrogenase by alternating proton translocation and hydride transfer. Science. 347, 178-81
Banerjee, S. (2021) Structural Biology in Drug Discovery. Calcutta University

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