Publications

Found 84 results
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Journal Article
Unciuleac, M. - C., Goldgur, Y., and Shuman, S. (2017) Two-metal versus one-metal mechanisms of lysine adenylylation by ATP-dependent and NAD(+)-dependent polynucleotide ligases. Proc Natl Acad Sci U S A. 114, 2592-2597
Ackloo, S., Li, F., Szewczyk, M., Seitova, A., Loppnau, P., Zeng, H., Xu, J., Ahmad, S., Arnautova, Y. A., Baghaie, A. J., Beldar, S., Bolotokova, A., Centrella, P. A., Chau, I., Clark, M. A., Cuozzo, J. W., Dehghani-Tafti, S., Disch, J. S., Dong, A., Dumas, A., Feng, J. A., Ghiabi, P., Gibson, E., Gilmer, J., Goldman, B., Green, S. R., Guié, M. - A., Guilinger, J. P., Harms, N., Herasymenko, O., Houliston, S., Hutchinson, A., Kearnes, S., Keefe, A. D., Kimani, S. W., Kramer, T., Kutera, M., Kwak, H. A., Lento, C., Li, Y., Liu, J., Loup, J., Machado, R. A. C., Mulhern, C. J., Perveen, S., Righetto, G. L., Riley, P., Shrestha, S., Sigel, E. A., Silva, M., Sintchak, M. D., Slakman, B. L., Taylor, R. D., Thompson, J., Torng, W., Underkoffler, C., von Rechenberg, M., Walsh, R. T., Watson, I., Wilson, D. J., Wolf, E., Yadav, M., Yazdi, A. K., Zhang, J., Zhang, Y., Santhakumar, V., Edwards, A. M., Barsyte-Lovejoy, D., Schapira, M., Brown, P. J., Halabelian, L., and Arrowsmith, C. H. (2025) A Target Class Ligandability Evaluation of WD40 Repeat-Containing Proteins. J Med Chem. 68, 1092-1112
Lee, S., Bowman, B. R., Ueno, Y., Wang, S., and Verdine, G. L. (2008) Synthesis and structure of duplex DNA containing the genotoxic nucleobase lesion N7-methylguanine. J Am Chem Soc. 130, 11570-1
Kuzina, E. S., Ung, P. Man- Un, Mohanty, J., Tome, F., Choi, J., Pardon, E., Steyaert, J., Lax, I., Schlessinger, A., Schlessinger, J., and Lee, S. (2019) Structures of ligand-occupied β-Klotho complexes reveal a molecular mechanism underlying endocrine FGF specificity and activity.. Proc Natl Acad Sci U S A. 116, 7819-7824
Xu, H., Faber, C., Uchiki, T., Racca, J., and Dealwis, C. (2006) Structures of eukaryotic ribonucleotide reductase I define gemcitabine diphosphate binding and subunit assembly. Proc Natl Acad Sci U S A. 103, 4028-33
Unciuleac, M. - C., Goldgur, Y., and Shuman, S. (2019) Structures of ATP-bound DNA ligase D in a closed domain conformation reveal a network of amino acid and metal contacts to the ATP phosphates. J Biol Chem. 10.1074/jbc.RA119.007445
Trachman, R. J., Cojocaru, R., Wu, D., Piszczek, G., Ryckelynck, M., Unrau, P. J., and Ferré-D'Amaré, A. R. (2020) Structure-Guided Engineering of the Homodimeric Mango-IV Fluorescence Turn-on Aptamer Yields an RNA FRET Pair. Structure. 10.1016/j.str.2020.04.007
Ye, Q., Ur, S. N., Su, T. Y., and Corbett, K. D. (2016) Structure of the Saccharomyces cerevisiae Hrr25:Mam1 monopolin subcomplex reveals a novel kinase regulator. EMBO J. 35, 2139-2151
Jiang, J., Chan, H., Cash, D. D., Miracco, E. J., Loo, R. R. Ogorzale, Upton, H. E., Cascio, D., Johnson, R. O. 'Brien, Collins, K., Loo, J. A., Z Zhou, H., and Feigon, J. (2015) Structure of Tetrahymena telomerase reveals previously unknown subunits, functions, and interactions. Science. 350, aab4070
Ayres, C. A., Schormann, N., Senkovich, O., Fry, A., Banerjee, S., Ulett, G. C., and Chattopadhyay, D. (2014) Structure of Streptococcus agalactiae glyceraldehyde-3-phosphate dehydrogenase holoenzyme reveals a novel surface. Acta Crystallogr F Struct Biol Commun. 70, 1333-9
Unciuleac, M. - C., Goldgur, Y., and Shuman, S. (2015) Structure and two-metal mechanism of a eukaryal nick-sealing RNA ligase. Proc Natl Acad Sci U S A. 112, 13868-73
Sanches, M., Duffy, N. M., Talukdar, M., Thevakumaran, N., Chiovitti, D., Canny, M. D., Lee, K., Kurinov, I., Uehling, D., Al-awar, R., Poda, G., Prakesch, M., Wilson, B., Tam, V., Schweitzer, C., Toro, A., Lucas, J. L., Vuga, D., Lehmann, L., Durocher, D., Zeng, Q., Patterson, J. B., and Sicheri, F. (2014) Structure and mechanism of action of the hydroxy-aryl-aldehyde class of IRE1 endoribonuclease inhibitors. Nat Commun. 5, 4202
Trachman, R. J., Autour, A., C Y Jeng, S., Abdolahzadeh, A., Andreoni, A., Cojocaru, R., Garipov, R., Dolgosheina, E. V., Knutson, J. R., Ryckelynck, M., Unrau, P. J., and Ferré-D'Amaré, A. R. (2019) Structure and functional reselection of the Mango-III fluorogenic RNA aptamer. Nat Chem Biol. 15, 472-479
Liang, Q., Richey, S. T., Ur, S. N., Ye, Q., Lau, R. K., and Corbett, K. D. (2022) Structure and activity of a bacterial defense-associated 3'-5' exonuclease. Protein Sci. 31, e4374
Yan, W., Markegard, E., Dharmaiah, S., Urisman, A., Drew, M., Esposito, D., Scheffzek, K., Nissley, D. V., McCormick, F., and Simanshu, D. K. (2020) Structural Insights into the SPRED1-Neurofibromin-KRAS Complex and Disruption of SPRED1-Neurofibromin Interaction by Oncogenic EGFR. Cell Rep. 32, 107909
Sheetz, J. B., Mathea, S., Karvonen, H., Malhotra, K., Chatterjee, D., Niininen, W., Perttilä, R., Preuss, F., Suresh, K., Stayrook, S. E., Tsutsui, Y., Radhakrishnan, R., Ungureanu, D., Knapp, S., and Lemmon, M. A. (2020) Structural Insights into Pseudokinase Domains of Receptor Tyrosine Kinases. Mol Cell. 79, 390-405.e7
Hung, K. - W., Chang, Y. - W., Eng, E. T., Chen, J. - H., Chen, Y. - C., Sun, Y. - J., Hsiao, C. - D., Dong, G., Spasov, K. A., Unger, V. M., and Huang, T. - H. (2010) Structural fold, conservation and Fe(II) binding of the intracellular domain of prokaryote FeoB. J Struct Biol. 170, 501-12
Uljon, S., Xu, X., Durzynska, I., Stein, S., Adelmant, G., Marto, J. A., Pear, W. S., and Blacklow, S. C. (2016) Structural Basis for Substrate Selectivity of the E3 Ligase COP1. Structure. 24, 687-696
Born, D. A., Ulrich, E. C., San Ju, K. -, Peck, S. C., van der Donk, W. A., and Drennan, C. L. (2017) Structural basis for methylphosphonate biosynthesis. Science. 358, 1336-1339
Heppner, D. E., Wittlinger, F., Beyett, T. S., Shaurova, T., Urul, D. A., Buckley, B., Pham, C. D., Schaeffner, I. K., Yang, B., Ogboo, B. C., May, E. W., Schaefer, E. M., Eck, M. J., Laufer, S. A., and Hershberger, P. A. (2022) Structural Basis for Inhibition of Mutant EGFR with Lazertinib (YH25448). ACS Med Chem Lett. 13, 1856-1863
Horton, J. R., Upadhyay, A. K., Hashimoto, H., Zhang, X., and Cheng, X. (2011) Structural basis for human PHF2 Jumonji domain interaction with metal ions. J Mol Biol. 406, 1-8
Trachman, R. J., Demeshkina, N. A., Lau, M. W. L., Panchapakesan, S. Shyam S., C Y Jeng, S., Unrau, P. J., and Ferré-D'Amaré, A. R. (2017) Structural basis for high-affinity fluorophore binding and activation by RNA Mango. Nat Chem Biol. 13, 807-813
Sun, J., Paduch, M., Kim, S. - A., Kramer, R. M., Barrios, A. F., Lu, V., Luke, J., Usatyuk, S., Kossiakoff, A. A., and Tan, S. (2018) Structural basis for activation of SAGA histone acetyltransferase Gcn5 by partner subunit Ada2. Proc Natl Acad Sci U S A. 10.1073/pnas.1805343115
Kudalkar, S. N., Ullah, I., Bertoletti, N., Mandl, H. K., Cisneros, J. A., Beloor, J., Chan, A. H., Quijano, E., W Saltzman, M., Jorgensen, W. L., Kumar, P., and Anderson, K. S. (2019) Structural and pharmacological evaluation of a novel non-nucleoside reverse transcriptase inhibitor as a promising long acting nanoformulation for treating HIV. Antiviral Res. 167, 110-116
Durzynska, I., Xu, X., Adelmant, G., Ficarro, S. B., Marto, J. A., Sliz, P., Uljon, S., and Blacklow, S. C. (2017) STK40 Is a Pseudokinase that Binds the E3 Ubiquitin Ligase COP1.. Structure. 25, 287-294

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