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Chen, W. - H., Hajduczki, A., Martinez, E. J., Bai, H., Matz, H., Hill, T. M., Lewitus, E., Chang, W. C., Dawit, L., Peterson, C. E., Rees, P. A., Ajayi, A. B., Golub, E. S., Swafford, I., Dussupt, V., David, S., Mayer, S. V., Soman, S., Kuklis, C., Corbitt, C., King, J., Choe, M., Sankhala, R. S., Thomas, P. V., Zemil, M., Wieczorek, L., Hart, T., Duso, D., Kummer, L., Yan, L., Sterling, S. L., Laing, E. D., Broder, C. C., Williams, J. K., Davidson, E., Doranz, B. J., Krebs, S. J., Polonis, V. R., Paquin-Proulx, D., Rolland, M., Reiley, W. W., Gromowski, G. D., Modjarrad, K., Dooley, H., and M Joyce, G. (2023) Shark nanobodies with potent SARS-CoV-2 neutralizing activity and broad sarbecovirus reactivity. Nat Commun. 14, 580
Chen, W. - H., Hajduczki, A., Martinez, E. J., Bai, H., Matz, H., Hill, T. M., Lewitus, E., Chang, W. C., Dawit, L., Peterson, C. E., Rees, P. A., Ajayi, A. B., Golub, E. S., Swafford, I., Dussupt, V., David, S., Mayer, S. V., Soman, S., Kuklis, C., Corbitt, C., King, J., Choe, M., Sankhala, R. S., Thomas, P. V., Zemil, M., Wieczorek, L., Hart, T., Duso, D., Kummer, L., Yan, L., Sterling, S. L., Laing, E. D., Broder, C. C., Williams, J. K., Davidson, E., Doranz, B. J., Krebs, S. J., Polonis, V. R., Paquin-Proulx, D., Rolland, M., Reiley, W. W., Gromowski, G. D., Modjarrad, K., Dooley, H., and M Joyce, G. (2023) Shark nanobodies with potent SARS-CoV-2 neutralizing activity and broad sarbecovirus reactivity. Nat Commun. 14, 580
Chen, W. - H., Hajduczki, A., Martinez, E. J., Bai, H., Matz, H., Hill, T. M., Lewitus, E., Chang, W. C., Dawit, L., Peterson, C. E., Rees, P. A., Ajayi, A. B., Golub, E. S., Swafford, I., Dussupt, V., David, S., Mayer, S. V., Soman, S., Kuklis, C., Corbitt, C., King, J., Choe, M., Sankhala, R. S., Thomas, P. V., Zemil, M., Wieczorek, L., Hart, T., Duso, D., Kummer, L., Yan, L., Sterling, S. L., Laing, E. D., Broder, C. C., Williams, J. K., Davidson, E., Doranz, B. J., Krebs, S. J., Polonis, V. R., Paquin-Proulx, D., Rolland, M., Reiley, W. W., Gromowski, G. D., Modjarrad, K., Dooley, H., and M Joyce, G. (2023) Shark nanobodies with potent SARS-CoV-2 neutralizing activity and broad sarbecovirus reactivity. Nat Commun. 14, 580
Saoji, M., and Paukstelis, P. J. (2015) Sequence-dependent structural changes in a self-assembling DNA oligonucleotide. Acta Crystallogr D Biol Crystallogr. 71, 2471-8
Pomerantz, W. Charles Kr, Cui, H., Divakaran, A., Pandey, A. K., Johnson, J. A., Zahid, H., Hoell, Z. J., Ellingson, M. O., Shi, K., Aihara, H., and Harki, D. A. (2020) Selective N-terminal BRD4 bromodomain inhibitors by targeting non-conserved residues and structured water displacement. Angew Chem Int Ed Engl. 10.1002/anie.202008625
Pomerantz, W. Charles Kr, Cui, H., Divakaran, A., Pandey, A. K., Johnson, J. A., Zahid, H., Hoell, Z. J., Ellingson, M. O., Shi, K., Aihara, H., and Harki, D. A. (2020) Selective N-terminal BRD4 bromodomain inhibitors by targeting non-conserved residues and structured water displacement. Angew Chem Int Ed Engl. 10.1002/anie.202008625
Chowdhury, C., Chun, S., Pang, A., Sawaya, M. R., Sinha, S., Yeates, T. O., and Bobik, T. A. (2015) Selective molecular transport through the protein shell of a bacterial microcompartment organelle. Proc Natl Acad Sci U S A. 112, 2990-5
Kruidenier, L., Chung, C. -wa, Cheng, Z., Liddle, J., Che, K. H., Joberty, G., Bantscheff, M., Bountra, C., Bridges, A., Diallo, H., Eberhard, D., Hutchinson, S., Jones, E., Katso, R., Leveridge, M., Mander, P. K., Mosley, J., Ramirez-Molina, C., Rowland, P., Schofield, C. J., Sheppard, R. J., Smith, J. E., Swales, C., Tanner, R., Thomas, P., Tumber, A., Drewes, G., Oppermann, U., Patel, D. J., Lee, K., and Wilson, D. M. (2012) A selective jumonji H3K27 demethylase inhibitor modulates the proinflammatory macrophage response. Nature. 488, 404-8
Liosi, M. - E., Krimmer, S. G., Newton, A. S., Dawson, T., Puleo, D. E., Cutrona, K. J., Suzuki, Y., Schlessinger, J., and Jorgensen, W. L. (2020) Selective Janus Kinase 2 (JAK2) Pseudokinase Ligands with a Diaminotriazole Core. J Med Chem. 10.1021/acs.jmedchem.0c00192
Jia, N., Jones, R., Sukenick, G., and Patel, D. J. (2019) Second Messenger cA Formation within the Composite Csm1 Palm Pocket of Type III-A CRISPR-Cas Csm Complex and Its Release Path. Mol Cell. 75, 933-943.e6
Christensen, E. M., Bogner, A. N., Vandekeere, A., Tam, G. S., Patel, S. M., Becker, D. F., Fendt, S. - M., and Tanner, J. J. (2020) Screening for Proline Analog Inhibitors of the Proline Cycle Enzyme PYCR1. J Biol Chem. 10.1074/jbc.RA120.016106
Roman, C., Lewicka, A., Koirala, D., Li, N. - S., and Piccirilli, J. A. (2021) The SARS-CoV-2 Programmed -1 Ribosomal Frameshifting Element Crystal Structure Solved to 2.09 Å Using Chaperone-Assisted RNA Crystallography.. ACS Chem Biol. 10.1021/acschembio.1c00324
Clark, S. A., Clark, L. E., Pan, J., Coscia, A., McKay, L. G. A., Shankar, S., Johnson, R. I., Griffiths, A., and Abraham, J. (2021) SARS-CoV-2 evolution in an immunocompromised host reveals shared neutralization escape mechanisms. Cell. 10.1101/2020.11.13.381533
Batool, Z., Lomakin, I. B., Polikanov, Y. S., and Bunick, C. G. (2020) Sarecycline interferes with tRNA accommodation and tethers mRNA to the 70S ribosome. Proc Natl Acad Sci U S A. 10.1073/pnas.2008671117
Brown, K. L., Banerjee, S., Feigley, A., Abe, H., Blackwell, T. S., Pozzi, A., Hudson, B. G., and Zent, R. (2018) Salt-bridge modulates differential calcium-mediated ligand binding to integrin α1- and α2-I domains.. Sci Rep. 8, 2916
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Duggan, K. C., Hermanson, D. J., Musee, J., Prusakiewicz, J. J., Scheib, J. L., Carter, B. D., Banerjee, S., Oates, J. A., and Marnett, L. J. (2011) (R)-Profens are substrate-selective inhibitors of endocannabinoid oxygenation by COX-2. Nat Chem Biol. 7, 803-9
Shi, F., Mendrola, J. M., Sheetz, J. B., Wu, N., Sommer, A., Speer, K. F., Noordermeer, J. N., Kan, Z. - Y., Perry, K., S Englander, W., Stayrook, S. E., Fradkin, L. G., and Lemmon, M. A. (2021) ROR and RYK extracellular region structures suggest that receptor tyrosine kinases have distinct WNT-recognition modes. Cell Rep. 37, 109834
Buzovetsky, O., Kwon, Y., Pham, N. Tuyet, Kim, C., Ira, G., Sung, P., and Xiong, Y. (2017) Role of the Pif1-PCNA Complex in Pol δ-Dependent Strand Displacement DNA Synthesis and Break-Induced Replication.. Cell Rep. 21, 1707-1714
Erdmann, K. S., Mao, Y., McCrea, H. J., Zoncu, R., Lee, S., Paradise, S., Modregger, J., Biemesderfer, D., Toomre, D., and De Camilli, P. (2007) A role of the Lowe syndrome protein OCRL in early steps of the endocytic pathway. Dev Cell. 13, 377-90
Nguyen, T., Lee, S., Yang, Y. - A., Ahn, C., Sim, J. Hyun, Kei, T. G., Barnard, K. N., Yu, H., Millano, S. K., Chen, X., Parrish, C. R., and Song, J. (2020) The role of 9-O-acetylated glycan receptor moieties in the typhoid toxin binding and intoxication. PLoS Pathog. 16, e1008336
Govande, A. A., Babnis, A. W., Urban, C., Habjan, M., Hartmann, R., Kranzusch, P. J., and Pichlmair, A. (2023) RNase L-activating 2'-5' oligoadenylates bind ABCF1, ABCF3 and Decr-1. J Gen Virol. 10.1099/jgv.0.001890
Kolyadko, V. N., Layzer, J. M., Perry, K., Sullenger, B. A., and Krishnaswamy, S. (2024) An RNA aptamer exploits exosite-dependent allostery to achieve specific inhibition of coagulation factor IXa. Proc Natl Acad Sci U S A. 121, e2401136121
Brown, N. G., VanderLinden, R., Watson, E. R., Qiao, R., Grace, C. R. R., Yamaguchi, M., Weissmann, F., Frye, J. J., Dube, P., Cho, S. Ei, Actis, M. L., Rodrigues, P., Fujii, N., Peters, J. - M., Stark, H., and Schulman, B. A. (2015) RING E3 mechanism for ubiquitin ligation to a disordered substrate visualized for human anaphase-promoting complex. Proc Natl Acad Sci U S A. 112, 5272-9
Peek, J., Lilic, M., Montiel, D., Milshteyn, A., Woodworth, I., Biggins, J. B., Ternei, M. A., Calle, P. Y., Danziger, M., Warrier, T., Saito, K., Braffman, N., Fay, A., Glickman, M. S., Darst, S. A., Campbell, E. A., and Brady, S. F. (2018) Rifamycin congeners kanglemycins are active against rifampicin-resistant bacteria via a distinct mechanism. Nat Commun. 9, 4147
Wang, X., Pernicone, N., Pertz, L., Hua, D., Zhang, T., Listovsky, T., and Xie, W. (2019) REV7 has a dynamic adaptor region to accommodate small GTPase RAN/Shigella IpaB ligands and its activity is regulated by RanGTP/GDP switch.. J Biol Chem. 10.1074/jbc.RA119.010123

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