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Ryan, K. S., Howard-Jones, A. R., Hamill, M. J., Elliott, S. J., Walsh, C. T., and Drennan, C. L. (2007) Crystallographic trapping in the rebeccamycin biosynthetic enzyme RebC. Proc Natl Acad Sci U S A. 104, 15311-6
Ryan, K. S., Balibar, C. J., Turo, K. E., Walsh, C. T., and Drennan, C. L. (2008) The violacein biosynthetic enzyme VioE shares a fold with lipoprotein transporter proteins. J Biol Chem. 283, 6467-75
Rutherford, K., Yuan, P., Perry, K., Sharp, R., and Van Duyne, G. D. (2013) Attachment site recognition and regulation of directionality by the serine integrases. Nucleic Acids Res. 41, 8341-56
Ruthenburg, A. J., Li, H., Milne, T. A., Dewell, S., McGinty, R. K., Yuen, M., Ueberheide, B., Dou, Y., Muir, T. W., Patel, D. J., and C Allis, D. (2011) Recognition of a mononucleosomal histone modification pattern by BPTF via multivalent interactions. Cell. 145, 692-706
Ruthenburg, A. J., Wang, W., Graybosch, D. M., Li, H., C Allis, D., Patel, D. J., and Verdine, G. L. (2006) Histone H3 recognition and presentation by the WDR5 module of the MLL1 complex. Nat Struct Mol Biol. 13, 704-12
Rut, W., Lv, Z., Zmudzinski, M., Patchett, S., Nayak, D., Snipas, S. J., Oualid, F. El, Huang, T. T., Békés, M., Drag, M., and Olsen, S. K. (2020) Activity profiling and structures of inhibitor-bound SARS-CoV-2-PLpro protease provides a framework for anti-COVID-19 drug design. bioRxiv. 10.1101/2020.04.29.068890
Rugel, A. R., Guzman, M. A., Taylor, A. B., Chevalier, F. D., Tarpley, R. S., McHardy, S. F., Cao, X., Holloway, S. P., Anderson, T. J. C., P Hart, J., and LoVerde, P. T. (2020) Why does oxamniquine kill Schistosoma mansoni and not S. haematobium and S. japonicum?. Int J Parasitol Drugs Drug Resist. 13, 8-15
Rugel, A., Tarpley, R. S., Lopez, A., Menard, T., Guzman, M. A., Taylor, A. B., Cao, X., Kovalskyy, D., Chevalier, F. D., Anderson, T. J. C., P Hart, J., LoVerde, P. T., and McHardy, S. F. (2018) Design, Synthesis, and Characterization of Novel Small Molecules as Broad Range Antischistosomal Agents. ACS Med Chem Lett. 9, 967-973
Rudolph, M. J., Czajka, T. F., Davis, S. A., Nguyen, C. My Thi, Li, X. - P., Tumer, N. E., Vance, D. J., and Mantis, N. J. (2020) Intracellular Neutralization of Ricin Toxin by Single-domain Antibodies Targeting the Active Site. J Mol Biol. 10.1016/j.jmb.2020.01.006
Rudolph, M. J., Vance, D. J., Kelow, S., Angalakurthi, S. Krishna, Nguyen, S., Davis, S. A., Rong, Y., C Middaugh, R., Weis, D. D., Dunbrack, R., Karanicolas, J., and Mantis, N. J. (2018) Contribution of an unusual CDR2 element of a single domain antibody in ricin toxin binding affinity and neutralizing activity. Protein Eng Des Sel. 10.1093/protein/gzy022
Rudolph, M. J., Vance, D. J., Cassidy, M. S., Rong, Y., and Mantis, N. J. (2017) Structural Analysis of Single Domain Antibodies Bound to a Second Neutralizing Hot Spot on Ricin Toxin's Enzymatic Subunit. J Biol Chem. 292, 872-883
Rubinstein, R., Thu, C. Aye, Goodman, K. Marie, Wolcott, H. Noelle, Bahna, F., Mannepalli, S., Ahlsen, G., Chevee, M., Halim, A., Clausen, H., Maniatis, T., Shapiro, L., and Honig, B. (2015) Molecular logic of neuronal self-recognition through protocadherin domain interactions. Cell. 163, 629-42
Rubin, S. M., Gall, A. - L., Zheng, N., and Pavletich, N. P. (2005) Structure of the Rb C-terminal domain bound to E2F1-DP1: a mechanism for phosphorylation-induced E2F release. Cell. 123, 1093-106
Ruangprasert, A., Maehigashi, T., Miles, S. J., Giridharan, N., Liu, J. X., and Dunham, C. M. (2014) Mechanisms of toxin inhibition and transcriptional repression by Escherichia coli DinJ-YafQ. J Biol Chem. 289, 20559-69
Ruan, B., London, V., Fisher, K. E., D Gallagher, T., and Bryan, P. N. (2008) Engineering substrate preference in subtilisin: structural and kinetic analysis of a specificity mutant. Biochemistry. 47, 6628-36
Roy, R. N., Lomakin, I. B., Gagnon, M. G., and Steitz, T. A. (2015) The mechanism of inhibition of protein synthesis by the proline-rich peptide oncocin. Nat Struct Mol Biol. 22, 466-9
Rothé, B., Leettola, C. N., Leal-Esteban, L., Cascio, D., Fortier, S., Isenschmid, M., Bowie, J. U., and Constam, D. B. (2018) Crystal Structure of Bicc1 SAM Polymer and Mapping of Interactions between the Ciliopathy-Associated Proteins Bicc1, ANKS3, and ANKS6. Structure. 10.1016/j.str.2017.12.002
Rosenberg, O. S., Dovala, D., Li, X., Connolly, L., Bendebury, A., Finer-Moore, J., Holton, J., Cheng, Y., Stroud, R. M., and Cox, J. S. (2015) Substrates Control Multimerization and Activation of the Multi-Domain ATPase Motor of Type VII Secretion. Cell. 161, 501-512
Rosen, M. D., Venkatesan, H., Peltier, H. M., Bembenek, S. D., Kanelakis, K. C., Zhao, L. X., Leonard, B. E., Hocutt, F. M., Wu, X., Palomino, H. L., Brondstetter, T. I., Haugh, P. V., Cagnon, L., Yan, W., Liotta, L. A., Young, A., Mirzadegan, T., Shankley, N. P., Barrett, T. D., and Rabinowitz, M. H. (2010) Benzimidazole-2-pyrazole HIF Prolyl 4-Hydroxylase Inhibitors as Oral Erythropoietin Secretagogues. ACS Med Chem Lett. 1, 526-9
Roose, B. W., Zemerov, S. D., Wang, Y., Kasimova, M. A., Carnevale, V., and Dmochowski, I. J. (2019) A Structural Basis for Xe Hyper-CEST Signal in TEM-1 β-Lactamase.. Chemphyschem. 20, 260-267
Roose, B. W., and Christianson, D. W. (2019) Structural Basis of Tryptophan Reverse N-Prenylation Catalyzed by CymD. Biochemistry. 58, 3232-3242
Ronnebaum, T. A., Gupta, K., and Christianson, D. W. (2020) Higher-Order Oligomerization of a Chimeric αβγ Bifunctional Diterpene Synthase with Prenyltransferase and Class II Cyclase Activities is Concentration-Dependent.. J Struct Biol. 10.1016/j.jsb.2020.107463
Román-Hernández, G., Grant, R. A., Sauer, R. T., and Baker, T. A. (2009) Molecular basis of substrate selection by the N-end rule adaptor protein ClpS. Proc Natl Acad Sci U S A. 106, 8888-93
Rohaim, A., Gong, L. D., Li, J., Rui, H., Blachowicz, L., and Roux, B. (2020) Open and Closed Structures of a Barium-Blocked Potassium Channel. J Mol Biol. 10.1016/j.jmb.2020.06.012
Rogers, J. M., Waters, C. T., Seegar, T. C. M., Jarrett, S. M., Hallworth, A. N., Blacklow, S. C., and Bulyk, M. L. (2019) Bispecific Forkhead Transcription Factor FoxN3 Recognizes Two Distinct Motifs with Different DNA Shapes. Mol Cell. 10.1016/j.molcel.2019.01.019