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Khare, B., Krishnan, V., Rajashankar, K. R., I-Hsiu, H., Xin, M., Ton-That, H., and Narayana, S. V. (2011) Structural differences between the Streptococcus agalactiae housekeeping and pilus-specific sortases: SrtA and SrtC1. PLoS One. 6, e22995
Donaldson, T. M., Ting, L. - M., Zhan, C., Shi, W., Zheng, R., Almo, S. C., and Kim, K. (2014) Structural determinants of the 5'-methylthioinosine specificity of Plasmodium purine nucleoside phosphorylase. PLoS One. 9, e84384
Choudhary, D., Narui, Y., Neel, B. L., Wimalasena, L. N., Klanseck, C. F., De-la-Torre, P., Chen, C., Araya-Secchi, R., Tamilselvan, E., and Sotomayor, M. (2020) Structural determinants of protocadherin-15 mechanics and function in hearing and balance perception. Proc Natl Acad Sci U S A. 10.1073/pnas.1920444117
Toms, A. V., Haas, A. L., Park, J. - H., Begley, T. P., and Ealick, S. E. (2005) Structural characterization of the regulatory proteins TenA and TenI from Bacillus subtilis and identification of TenA as a thiaminase II. Biochemistry. 44, 2319-29
Tang, H., Demir, Ö., Kurniawan, F., Brown, W. L., Shi, K., Moeller, N. H., Carpenter, M. A., Belica, C., Orellana, K., Du, G., LeBeau, A. M., Amaro, R. E., Harris, R. S., and Aihara, H. (2021) Structural Characterization of a Minimal Antibody against Human APOBEC3B. Viruses. 10.3390/v13040663
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
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
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
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
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
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
Luo, M., and Tanner, J. J. (2015) Structural Basis of Substrate Recognition by Aldehyde Dehydrogenase 7A1. Biochemistry. 54, 5513-22
Dharmaiah, S., Bindu, L., Tran, T. H., Gillette, W. K., Frank, P. H., Ghirlando, R., Nissley, D. V., Esposito, D., McCormick, F., Stephen, A. G., and Simanshu, D. K. (2016) Structural basis of recognition of farnesylated and methylated KRAS4b by PDEδ.. Proc Natl Acad Sci U S A. 113, E6766-E6775
Montemayor, E. J., Katolik, A., Clark, N. E., Taylor, A. B., Schuermann, J. P., D Combs, J., Johnsson, R., Holloway, S. P., Stevens, S. W., Damha, M. J., and P Hart, J. (2014) Structural basis of lariat RNA recognition by the intron debranching enzyme Dbr1. Nucleic Acids Res. 42, 10845-55
Alonzo, D. A., Chiche-Lapierre, C., Tarry, M. J., Wang, J., and T Schmeing, M. (2020) Structural basis of keto acid utilization in nonribosomal depsipeptide synthesis. Nat Chem Biol. 10.1038/s41589-020-0481-5
Jia, X., Weber, E., Tokarev, A., Lewinski, M., Rizk, M., Suarez, M., Guatelli, J., and Xiong, Y. (2014) Structural basis of HIV-1 Vpu-mediated BST2 antagonism via hijacking of the clathrin adaptor protein complex 1. Elife. 3, e02362
Bhattacharya, A., Alam, S. L., Fricke, T., Zadrozny, K., Sedzicki, J., Taylor, A. B., Demeler, B., Pornillos, O., Ganser-Pornillos, B. K., Diaz-Griffero, F., Ivanov, D. N., and Yeager, M. (2014) Structural basis of HIV-1 capsid recognition by PF74 and CPSF6. Proc Natl Acad Sci U S A. 111, 18625-30
Babayeva, N. D., Baranovskaya, O. I., and Tahirov, T. H. (2012) Structural basis of Ets1 cooperative binding to widely separated sites on promoter DNA. PLoS One. 7, e33698
Babayeva, N. D., Wilder, P. J., Shiina, M., Mino, K., Desler, M., Ogata, K., Rizzino, A., and Tahirov, T. H. (2010) Structural basis of Ets1 cooperative binding to palindromic sequences on stromelysin-1 promoter DNA. Cell Cycle. 9, 3054-62
Shrivastava, T., Mino, K., Babayeva, N. D., Baranovskaya, O. I., Rizzino, A., and Tahirov, T. H. (2014) Structural basis of Ets1 activation by Runx1. Leukemia. 28, 2040-8
Goodman, K. Marie, Rubinstein, R., Thu, C. Aye, Bahna, F., Mannepalli, S., Ahlsen, G., Rittenhouse, C., Maniatis, T., Honig, B., and Shapiro, L. (2016) Structural Basis of Diverse Homophilic Recognition by Clustered α- and β-Protocadherins.. Neuron. 90, 709-23
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
Ji, X., Tang, C., Zhao, Q., Wang, W., and Xiong, Y. (2014) Structural basis of cellular dNTP regulation by SAMHD1. Proc Natl Acad Sci U S A. 111, E4305-14
Bogner, A. N., Stiers, K. M., McKay, C. M., Becker, D. F., and Tanner, J. J. (2021) Structural Basis for the Stereospecific Inhibition of the Dual Proline/Hydroxyproline Catabolic Enzyme ALDH4A1 by Trans-4-Hydroxy-L-Proline. Protein Sci. 10.1002/pro.4131
Chan, R. T., Peters, J. K., Robart, A. R., Wiryaman, T., Rajashankar, K. R., and Toor, N. (2018) Structural basis for the second step of group II intron splicing. Nat Commun. 9, 4676

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