Publications

Found 2777 results
Journal Article
Stokes-Rees, I., Levesque, I., Murphy, F. V., Yang, W., Deacon, A., and Sliz, P. (2012) Adapting federated cyberinfrastructure for shared data collection facilities in structural biology. J Synchrotron Radiat. 19, 462-7
Wang, E. S., Verano, A. L., Nowak, R. P., J Yuan, C., Donovan, K. A., Eleuteri, N. A., Yue, H., Ngo, K. H., Lizotte, P. H., Gokhale, P. C., Gray, N. S., and Fischer, E. S. (2021) Acute pharmacological degradation of Helios destabilizes regulatory T cells. Nat Chem Biol. 17, 711-717
Henneberg, L. T., Singh, J., Duda, D. M., Baek, K., Yanishevski, D., Murray, P. J., Mann, M., Sidhu, S. S., and Schulman, B. A. (2023) Activity-based profiling of cullin-RING E3 networks by conformation-specific probes. Nat Chem Biol. 19, 1513-1523
Tei, R., Bagde, S. R., J Fromme, C., and Baskin, J. M. (2023) Activity-based directed evolution of a membrane editor in mammalian cells. Nat Chem. 15, 1030-1039
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 crystal structures of inhibitor-bound SARS-CoV-2 papain-like protease: A framework for anti-COVID-19 drug design. Sci Adv. 10.1126/sciadv.abd4596
Ejaz, A., Goldgur, Y., and Shuman, S. (2019) Activity and structure of MPE, a manganese-dependent single-strand DNA endonuclease encoded in a nucleic acid repair gene cluster. J Biol Chem. 10.1074/jbc.RA119.008049
Baranovskiy, A. G., Duong, V. N., Babayeva, N. D., Zhang, Y., Pavlov, Y. I., Anderson, K. S., and Tahirov, T. H. (2018) Activity and fidelity of human DNA polymerase α depend on primer structure.. J Biol Chem. 10.1074/jbc.RA117.001074
Januszyk, K., Liu, Q., and Lima, C. D. (2011) Activities of human RRP6 and structure of the human RRP6 catalytic domain. RNA. 17, 1566-77
Soriano, E. V., Zhang, Y., Colabroy, K. L., Sanders, J. M., Settembre, E. C., Dorrestein, P. C., Begley, T. P., and Ealick, S. E. (2013) Active-site models for complexes of quinolinate synthase with substrates and intermediates. Acta Crystallogr D Biol Crystallogr. 69, 1685-96
Sit, B., Crowley, S. M., Bhullar, K., Lai, C. Chieh- Lin, Tang, C., Hooda, Y., Calmettes, C., Khambati, H., Ma, C., Brumell, J. H., Schryvers, A. B., Vallance, B. A., and Moraes, T. F. (2015) Active Transport of Phosphorylated Carbohydrates Promotes Intestinal Colonization and Transmission of a Bacterial Pathogen. PLoS Pathog. 11, e1005107
Olsen, S. K., Capili, A. D., Lu, X., Tan, D. S., and Lima, C. D. (2010) Active site remodelling accompanies thioester bond formation in the SUMO E1. Nature. 463, 906-12
Mealka, M., Sierra, N. A., Matteo, D. Avellaneda, Albekioni, E., Khoury, R., Mai, T., Conley, B. M., Coleman, N. J., Sabo, K. A., Komives, E. A., Bobkov, A. A., Cooksy, A. L., Silletti, S., Schiffer, J. M., Huxford, T., and Sohl, C. D. (2024) Active site remodeling in tumor-relevant IDH1 mutants drives distinct kinetic features and potential resistance mechanisms. Nat Commun. 15, 3785
Shi, K., Demir, Ö., Carpenter, M. A., Banerjee, S., Harki, D. A., Amaro, R. E., Harris, R. S., and Aihara, H. (2020) Active site plasticity and possible modes of chemical inhibition of the human DNA deaminase APOBEC3B. FASEB Bioadv. 2, 49-58
Rechkoblit, O., Sciaky, D., Kreitler, D. F., Buku, A., Kottur, J., and Aggarwal, A. K. (2024) Activation of CBASS Cap5 endonuclease immune effector by cyclic nucleotides. Nat Struct Mol Biol. 10.1038/s41594-024-01220-x
Atapattu, L., Saha, N., Chheang, C., Eissman, M. F., Xu, K., Vail, M. E., Hii, L., Llerena, C., Liu, Z., Horvay, K., Abud, H. E., Kusebauch, U., Moritz, R. L., Ding, B. - S., Cao, Z., Rafii, S., Ernst, M., Scott, A. M., Nikolov, D. B., Lackmann, M., and Janes, P. W. (2016) An activated form of ADAM10 is tumor selective and regulates cancer stem-like cells and tumor growth. J Exp Med. 213, 1741-57
Blobaum, A. L., Xu, S., Rowlinson, S. W., Duggan, K. C., Banerjee, S., Kudalkar, S. N., Birmingham, W. R., Ghebreselasie, K., and Marnett, L. J. (2015) Action at a distance: mutations of peripheral residues transform rapid reversible inhibitors to slow, tight binders of cyclooxygenase-2. J Biol Chem. 290, 12793-803
Pan, C., Zimmer, A., Shah, M., Huynh, M. Sang, Lai, C. Chieh- Lin, Sit, B., Hooda, Y., Curran, D. M., and Moraes, T. F. (2021) Actinobacillus utilizes a binding-protein dependent ABC transporter to acquire the active form of Vitamin B. J Biol Chem. 10.1016/j.jbc.2021.101046
Sagar, V., and Wistow, G. (2022) Acquired disorder and asymmetry in a domain-swapped model for γ-crystallin aggregation.. J Mol Biol. 10.1016/j.jmb.2022.167559
Polikanov, Y. S., and Moore, P. B. (2015) Acoustic vibrations contribute to the diffuse scatter produced by ribosome crystals. Acta Crystallogr D Biol Crystallogr. 71, 2021-31
Sidibé, A., Mykuliak, V. V., Zhang, P., Hytönen, V. P., Wu, J., and Wehrle-Haller, B. (2024) Acetyl-NPKY of integrin-β1 binds KINDLIN2 to control endothelial cell proliferation and junctional integrity.. iScience. 27, 110129
Lu-Culligan, W. J., Connor, L. J., Xie, Y., Ekundayo, B. E., Rose, B. T., Machyna, M., Pintado-Urbanc, A. P., Zimmer, J. T., Vock, I. W., Bhanu, N. V., King, M. C., Garcia, B. A., Bleichert, F., and Simon, M. D. (2023) Acetyl-methyllysine marks chromatin at active transcription start sites. Nature. 622, 173-179
Mikhaylov, V., Brambley, C. A., Keller, G. L. J., Arbuiso, A. G., Weiss, L. I., Baker, B. M., and Levine, A. J. (2023) Accurate modeling of peptide-MHC structures with AlphaFold. Structure. 10.1016/j.str.2023.11.011
Bale, J. B., Gonen, S., Liu, Y., Sheffler, W., Ellis, D., Thomas, C., Cascio, D., Yeates, T. O., Gonen, T., King, N. P., and Baker, D. (2016) Accurate design of megadalton-scale two-component icosahedral protein complexes. Science. 353, 389-94
King, N. P., Bale, J. B., Sheffler, W., McNamara, D. E., Gonen, S., Gonen, T., Yeates, T. O., and Baker, D. (2014) Accurate design of co-assembling multi-component protein nanomaterials. Nature. 510, 103-8
Bhardwaj, G., O'Connor, J., Rettie, S., Huang, Y. - H., Ramelot, T. A., Mulligan, V. Khipple, Alpkilic, G. Gokce, Palmer, J., Bera, A. K., Bick, M. J., Di Piazza, M., Li, X., Hosseinzadeh, P., Craven, T. W., Tejero, R., Lauko, A., Choi, R., Glynn, C., Dong, L., Griffin, R., van Voorhis, W. C., Rodriguez, J., Stewart, L., Montelione, G. T., Craik, D., and Baker, D. (2022) Accurate de novo design of membrane-traversing macrocycles. Cell. 10.1016/j.cell.2022.07.019

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