Publications

Found 2724 results
Journal Article
Bogner, A. N., Ji, J., and Tanner, J. J. (2022) Structure-based engineering of minimal Proline dehydrogenase domains for inhibitor discovery. Protein Eng Des Sel. 10.1093/protein/gzac016
Seo, M., Kim, J. - D., Neau, D., Sehgal, I., and Lee, Y. - H. (2011) Structure-based development of small molecule PFKFB3 inhibitors: a framework for potential cancer therapeutic agents targeting the Warburg effect. PLoS One. 6, e24179
Hu, D. X., Patel, S., Chen, H., Wang, S., Staben, S. T., Dimitrova, Y. N., Wallweber, H. Ackerly, Lee, J. Y., Chan, G. Ka Yan, Sneeringer, C. J., Prangley, M. S., Moffat, J. G., Wu, K. C., Schutt, L. K., Salphati, L., Pang, J., McNamara, E., Huang, H., Chen, Y., Wang, Y., Zhao, W., Lim, J., Murthy, A., and Siu, M. (2021) Structure-Based Design of Potent, Selective, and Orally Bioavailable VPS34 Kinase Inhibitors. J Med Chem. 10.1021/acs.jmedchem.1c01180
Sievers, S. A., Karanicolas, J., Chang, H. W., Zhao, A., Jiang, L., Zirafi, O., Stevens, J. T., Münch, J., Baker, D., and Eisenberg, D. (2011) Structure-based design of non-natural amino-acid inhibitors of amyloid fibril formation. Nature. 475, 96-100
Abskharon, R., Pan, H., Sawaya, M. R., Seidler, P. M., Olivares, E. J., Chen, Y., Murray, K. A., Zhang, J., Lantz, C., Bentzel, M., Boyer, D. R., Cascio, D., Nguyen, B. A., Hou, K., Cheng, X., Pardon, E., Williams, C. K., Nana, A. L., Vinters, H. V., Spina, S., Grinberg, L. T., Seeley, W. W., Steyaert, J., Glabe, C. G., Loo, R. R. Ogorzale, Loo, J. A., and Eisenberg, D. S. (2023) Structure-based design of nanobodies that inhibit seeding of Alzheimer's patient-extracted tau fibrils. Proc Natl Acad Sci U S A. 120, e2300258120
Lanier, M., Pickens, J., Bigi, S. V., Bradshaw-Pierce, E. L., Chambers, A., Cheruvallath, Z. S., Cole, D., Dougan, D. R., Ermolieff, J., Gibson, T., Halkowycz, P., Hirokawa, A., Ivetac, A., Miura, J., Nunez, E., Sabat, M., Tyhonas, J., Wang, H., Wang, X., and Swann, S. (2017) Structure-Based Design of ASK1 Inhibitors as Potential Agents for Heart Failure. ACS Med Chem Lett. 8, 316-320
Cui, H., Divakaran, A., Hoell, Z. J., Ellingson, M. O., Scholtz, C. R., Zahid, H., Johnson, J. A., Griffith, E. C., Gee, C. T., Lee, A. L., Khanal, S., Shi, K., Aihara, H., Shah, V. H., Lee, R. E., Harki, D. A., and Pomerantz, W. C. K. (2022) A Structure-based Design Approach for Generating High Affinity BRD4 D1-Selective Chemical Probes. J Med Chem. 10.1021/acs.jmedchem.1c01779
Choi, J. Yong, Fuerst, R., Knapinska, A. M., Taylor, A. B., Smith, L., Cao, X., P Hart, J., Fields, G. B., and Roush, W. R. (2017) Structure-Based Design and Synthesis of Potent and Selective Matrix Metalloproteinase 13 Inhibitors. J Med Chem. 60, 5816-5825
Lalonde, J. M., Le-Khac, M., Jones, D. M., Courter, J. R., Park, J., Schön, A., Princiotto, A. M., Wu, X., Mascola, J. R., Freire, E., Sodroski, J., Madani, N., Hendrickson, W. A., and Smith, A. B. (2013) Structure-Based Design and Synthesis of an HIV-1 Entry Inhibitor Exploiting X-Ray and Thermodynamic Characterization. ACS Med Chem Lett. 4, 338-343
Rudolph, M. J., Dutta, A., Tsymbal, A. M., McLaughlin, J. E., Chen, Y., Davis, S. A., Theodorous, S. A., Pierce, M., Algava, B., Zhang, X., Szekely, Z., Roberge, J. Y., Li, X. - P., and Tumer, N. E. (2024) Structure-based design and optimization of a new class of small molecule inhibitors targeting the P-stalk binding pocket of ricin. Bioorg Med Chem. 100, 117614
Sheng, G., Zhao, H., Wang, J., Rao, Y., Tian, W., Swarts, D. C., van der Oost, J., Patel, D. J., and Wang, Y. (2014) Structure-based cleavage mechanism of Thermus thermophilus Argonaute DNA guide strand-mediated DNA target cleavage. Proc Natl Acad Sci U S A. 111, 652-7
D'Antonio, E. L., Deinema, M. S., Kearns, S. P., Frey, T. A., Tanghe, S., Perry, K., Roy, T. A., Gracz, H. S., Rodriguez, A., and D'Antonio, J. (2015) Structure-based approach to the identification of a novel group of selective glucosamine analogue inhibitors of Trypanosoma cruzi glucokinase. Mol Biochem Parasitol. 204, 64-76
Kucera, K., A Koblansky, A., Saunders, L. P., Frederick, K. B., De La Cruz, E. M., Ghosh, S., and Modis, Y. (2010) Structure-based analysis of Toxoplasma gondii profilin: a parasite-specific motif is required for recognition by Toll-like receptor 11. J Mol Biol. 403, 616-29
Sanghai, Z. Assur, Liu, Q., Clarke, O. B., Belcher-Dufrisne, M., Wiriyasermkul, P., M Giese, H., Leal-Pinto, E., Kloss, B., Tabuso, S., Love, J., Punta, M., Banerjee, S., Rajashankar, K. R., Rost, B., Logothetis, D., Quick, M., Hendrickson, W. A., and Mancia, F. (2018) Structure-based analysis of CysZ-mediated cellular uptake of sulfate. Elife. 10.7554/eLife.27829
Bogner, A. N., and Tanner, J. J. (2022) Structure-affinity relationships of reversible proline analog inhibitors targeting proline dehydrogenase. Org Biomol Chem. 10.1039/d1ob02328d
Manz, T. D., Sivakumaren, S. C., Yasgar, A., Hall, M. D., Davis, M. I., Seo, H. - S., Card, J. D., Ficarro, S. B., Shim, H., Marto, J. A., Dhe-Paganon, S., Sasaki, A. T., Boxer, M. B., Simeonov, A., Cantley, L. C., Shen, M., Zhang, T., Ferguson, F. M., and Gray, N. S. (2020) Structure-Activity Relationship Study of Covalent Pan-phosphatidylinositol 5-Phosphate 4-Kinase Inhibitors. ACS Med Chem Lett. 11, 346-352
Xiong, Y., Li, F., Babault, N., Wu, H., Dong, A., Zeng, H., Chen, X., Arrowsmith, C. H., Brown, P. J., Liu, J., Vedadi, M., and Jin, J. (2017) Structure-activity relationship studies of G9a-like protein (GLP) inhibitors. Bioorg Med Chem. 25, 4414-4423
Mann, M. K., Zepeda-Velázquez, C. A., González-Álvarez, H., Dong, A., Kiyota, T., Aman, A. M., Loppnau, P., Li, Y., Wilson, B., Arrowsmith, C. H., Al-awar, R., Harding, R. J., and Schapira, M. (2021) Structure-Activity Relationship of USP5 Inhibitors. J Med Chem. 64, 15017-15036
Sudhamsu, J., Lee, G. In, Klessig, D. F., and Crane, B. R. (2008) The structure of YqeH. An AtNOS1/AtNOA1 ortholog that couples GTP hydrolysis to molecular recognition. J Biol Chem. 283, 32968-76
Nakanishi, K., Weinberg, D. E., Bartel, D. P., and Patel, D. J. (2012) Structure of yeast Argonaute with guide RNA. Nature. 486, 368-74
Grasty, K. C., Guzik, C., D'Lauro, E. J., Padrick, S. B., Beld, J., and Loll, P. J. (2023) Structure of VanS from vancomycin-resistant enterococci: A sensor kinase with weak ATP binding.. J Biol Chem. 299, 103001
Callahan, S. J., Luyten, Y. A., Gupta, Y. K., Wilson, G. G., Roberts, R. J., Morgan, R. D., and Aggarwal, A. K. (2016) Structure of Type IIL Restriction-Modification Enzyme MmeI in Complex with DNA Has Implications for Engineering New Specificities. PLoS Biol. 14, e1002442
Banerjee, A., Munir, A., Abdullahu, L., Damha, M. J., Goldgur, Y., and Shuman, S. (2019) Structure of tRNA splicing enzyme Tpt1 illuminates the mechanism of RNA 2'-PO recognition and ADP-ribosylation. Nat Commun. 10, 218
French, J. B., Begley, T. P., and Ealick, S. E. (2011) Structure of trifunctional THI20 from yeast. Acta Crystallogr D Biol Crystallogr. 67, 784-91
Zhang, Y., Kouni, M. H. el, and Ealick, S. E. (2006) Structure of Toxoplasma gondii adenosine kinase in complex with an ATP analog at 1.1 angstroms resolution. Acta Crystallogr D Biol Crystallogr. 62, 140-5

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