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Rajagopalan, S., Teter, S. J., Zwart, P. H., Brennan, R. G., Phillips, K. J., and Kiley, P. J. (2013) Studies of IscR reveal a unique mechanism for metal-dependent regulation of DNA binding specificity. Nat Struct Mol Biol. 20, 740-7
Ramagopal, U. A., Liu, W., Garrett-Thomson, S. C., Bonanno, J. B., Yan, Q., Srinivasan, M., Wong, S. C., Bell, A., Mankikar, S., Rangan, V. S., Deshpande, S., Korman, A. J., and Almo, S. C. (2017) Structural basis for cancer immunotherapy by the first-in-class checkpoint inhibitor ipilimumab. Proc Natl Acad Sci U S A. 114, E4223-E4232
Rechkoblit, O., Johnson, R. E., Gupta, Y. K., Prakash, L., Prakash, S., and Aggarwal, A. K. (2021) Structural basis of DNA synthesis opposite 8-oxoguanine by human PrimPol primase-polymerase. Nat Commun. 12, 4020
Rechkoblit, O., Choudhury, J. Roy, Buku, A., Prakash, L., Prakash, S., and Aggarwal, A. K. (2018) Structural basis for polymerase η-promoted resistance to the anticancer nucleoside analog cytarabine.. Sci Rep. 8, 12702
Rechkoblit, O., Johnson, R. E., Buku, A., Prakash, L., Prakash, S., and Aggarwal, A. K. (2019) Structural insights into mutagenicity of anticancer nucleoside analog cytarabine during replication by DNA polymerase η.. Sci Rep. 9, 16400
Rechkoblit, O., Gupta, Y. K., Malik, R., Rajashankar, K. R., Johnson, R. E., Prakash, L., Prakash, S., and Aggarwal, A. K. (2016) Structure and mechanism of human PrimPol, a DNA polymerase with primase activity. Sci Adv. 2, e1601317
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
Reha-Krantz, L. J., Hariharan, C., Subuddhi, U., Xia, S., Zhao, C., Beckman, J., Christian, T., and Konigsberg, W. (2011) Structure of the 2-aminopurine-cytosine base pair formed in the polymerase active site of the RB69 Y567A-DNA polymerase. Biochemistry. 50, 10136-49
Reimer, J. M., Eivaskhani, M., Harb, I., Guarné, A., Weigt, M., and T Schmeing, M. (2019) Structures of a dimodular nonribosomal peptide synthetase reveal conformational flexibility. Science. 10.1126/science.aaw4388
Reimer, J. M., Harb, I., Ovchinnikova, O. G., Jiang, J., Whitfield, C., and T Schmeing, M. (2018) Structural Insight into a Novel Formyltransferase and Evolution to a Nonribosomal Peptide Synthetase Tailoring Domain. ACS Chem Biol. 10.1021/acschembio.8b00739
Reinke, A. W., Grant, R. A., and Keating, A. E. (2010) A synthetic coiled-coil interactome provides heterospecific modules for molecular engineering. J Am Chem Soc. 132, 6025-31
Reiss, C. W., and Strobel, S. A. (2017) Structural basis for ligand binding to the guanidine-II riboswitch. RNA. 23, 1338-1343
Reiss, C. W., Xiong, Y., and Strobel, S. A. (2017) Structural Basis for Ligand Binding to the Guanidine-I Riboswitch. Structure. 25, 195-202
Remus, B. S., Jacewicz, A., and Shuman, S. (2014) Structure and mechanism of E. coli RNA 2',3'-cyclic phosphodiesterase. RNA. 20, 1697-705
Remus, B. S., Goldgur, Y., and Shuman, S. (2017) Structural basis for the GTP specificity of the RNA kinase domain of fungal tRNA ligase. Nucleic Acids Res. 10.1093/nar/gkx1159
Ren, A., Xue, Y., Peselis, A., Serganov, A., Al-Hashimi, H. M., and Patel, D. J. (2015) Structural and Dynamic Basis for Low-Affinity, High-Selectivity Binding of L-Glutamine by the Glutamine Riboswitch. Cell Rep. 13, 1800-13
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
Ren, Z., Lee, J., Moosa, M. Muhammad, Nian, Y., Hu, L., Xu, Z., McCoy, J. G., Ferreon, A. Chris M., Im, W., and Zhou, M. (2018) Structure of an EIIC sugar transporter trapped in an inward-facing conformation. Proc Natl Acad Sci U S A. 10.1073/pnas.1800647115
Ren, A., Wang, X. C., Kellenberger, C. A., Rajashankar, K. R., Jones, R. A., Hammond, M. C., and Patel, D. J. (2015) Structural basis for molecular discrimination by a 3',3'-cGAMP sensing riboswitch. Cell Rep. 11, 1-12
Ren, Y., Schmiege, P., and Blobel, G. (2017) Structural and biochemical analyses of the DEAD-box ATPase Sub2 in association with THO or Yra1. Elife. 10.7554/eLife.20070
Reverter, D., and Lima, C. D. (2006) Structural basis for SENP2 protease interactions with SUMO precursors and conjugated substrates. Nat Struct Mol Biol. 13, 1060-8
Richardson, B. C., Turlington, Z. R., de Macedo, S. Vaz Ferrei, Phillips, S. K., Perry, K., Brancato, S. G., Cooke, E. W., Gwilt, J. R., Dasovich, M. A., Roering, A. J., Rossi, F. M., Snider, M. J., French, J. B., and Hicks, K. A. (2024) Structural and Functional Characterization of a Novel Class A Flavin Monooxygenase from . Biochemistry. 63, 2506-2516
Rivera, S., Young, P. G., Hoffer, E. D., Vansuch, G. E., Metzler, C. L., Dunham, C. M., and Weinert, E. E. (2018) Structural Insights into Oxygen-Dependent Signal Transduction within Globin Coupled Sensors. Inorg Chem. 57, 14386-14395
Rivera-Colón, Y., Schutsky, E. K., Kita, A. Z., and Garman, S. C. (2012) The structure of human GALNS reveals the molecular basis for mucopolysaccharidosis IV A. J Mol Biol. 423, 736-51
Rizzolo, K., Weitz, A. C., Cohen, S. E., Drennan, C. L., Hendrich, M. P., and Elliott, S. J. (2020) A Stable Ferryl Porphyrin at the Active Site of Y463M BthA. J Am Chem Soc. 142, 11978-11982

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