Publications

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A
Xie, W., Lama, L., Yang, X., Kuryavyi, V., Bhattacharya, S., Nudelman, I., Yang, G., Ouerfelli, O., J Glickman, F., Jones, R. A., Tuschl, T., and Patel, D. J. (2023) Arabinose- and xylose-modified analogs of 2',3'-cGAMP act as STING agonists. Cell Chem Biol. 10.1016/j.chembiol.2023.07.002
Whittle, J. R. R., and Schwartz, T. U. (2009) Architectural nucleoporins Nup157/170 and Nup133 are structurally related and descend from a second ancestral element. J Biol Chem. 284, 28442-52
Ye, Q., West, A. M. V., Silletti, S., and Corbett, K. D. (2020) Architecture and self-assembly of the SARS-CoV-2 nucleocapsid protein. bioRxiv. 10.1101/2020.05.17.100685
Ye, Q., West, A. M. V., Silletti, S., and Corbett, K. D. (2020) Architecture and self-assembly of the SARS-CoV-2 nucleocapsid protein. Protein Sci. 10.1002/pro.3909
Bi, Y., Mann, E., Whitfield, C., and Zimmer, J. (2018) Architecture of a channel-forming O-antigen polysaccharide ABC transporter. Nature. 553, 361-365
Park, E., Rawson, S., Li, K., Kim, B. - W., Ficarro, S. B., Del Pino, G. Gonzalez-, Sharif, H., Marto, J. A., Jeon, H., and Eck, M. J. (2019) Architecture of autoinhibited and active BRAF-MEK1-14-3-3 complexes. Nature. 575, 545-550
Himanen, J. P., Yermekbayeva, L., Janes, P. W., Walker, J. R., Xu, K., Atapattu, L., Rajashankar, K. R., Mensinga, A., Lackmann, M., Nikolov, D. B., and Dhe-Paganon, S. (2010) Architecture of Eph receptor clusters. Proc Natl Acad Sci U S A. 107, 10860-5
Zhou, Q., Lai, Y., Bacaj, T., Zhao, M., Lyubimov, A. Y., Uervirojnangkoorn, M., Zeldin, O. B., Brewster, A. S., Sauter, N. K., Cohen, A. E., S Soltis, M., Alonso-Mori, R., Chollet, M., Lemke, H. T., Pfuetzner, R. A., Choi, U. B., Weis, W. I., Diao, J., Südhof, T. C., and Brunger, A. T. (2015) Architecture of the synaptotagmin-SNARE machinery for neuronal exocytosis. Nature. 525, 62-7
Montemayor, E. J., Didychuk, A. L., Yake, A. D., Sidhu, G. K., Brow, D. A., and Butcher, S. E. (2018) Architecture of the U6 snRNP reveals specific recognition of 3'-end processed U6 snRNA. Nat Commun. 9, 1749
Dayeh, D. M., Cantara, W. A., Kitzrow, J. P., Musier-Forsyth, K., and Nakanishi, K. (2018) Argonaute-based programmable RNase as a tool for cleavage of highly-structured RNA. Nucleic Acids Res. 46, e98
Ronnebaum, T. A., Gardner, S. M., and Christianson, D. W. (2020) An Aromatic Cluster in the Active Site of -Isozizaene Synthase Is an Electrostatic Toggle for Divergent Terpene Cyclization Pathways. Biochemistry. 10.1021/acs.biochem.0c00876
Watson, P. R., Bai, P., Wang, C., Cragin, A. D., Hooker, J. M., and Christianson, D. W. (2022) Aromatic Ring Fluorination Patterns Modulate Inhibitory Potency of Fluorophenylhydroxamates Complexed with Histone Deacetylase 6. Biochemistry. 10.1021/acs.biochem.2c00332
Kozono, S., Lin, Y. - M., Seo, H. - S., Pinch, B., Lian, X., Qiu, C., Herbert, M. K., Chen, C. - H., Tan, L., Gao, Z. Jeff, Massefski, W., Doctor, Z. M., Jackson, B. P., Chen, Y., Dhe-Paganon, S., Lu, K. Ping, and Zhou, X. Zhen (2018) Arsenic targets Pin1 and cooperates with retinoic acid to inhibit cancer-driving pathways and tumor-initiating cells. Nat Commun. 9, 3069
Joiner, C. M., Levine, Z. G., Aonbangkhen, C., Woo, C. M., and Walker, S. (2019) Aspartate Residues Far from the Active Site Drive O-GlcNAc Transferase Substrate Selection. J Am Chem Soc. 141, 12974-12978
Diao, J., Liu, R., Rong, Y., Zhao, M., Zhang, J., Lai, Y., Zhou, Q., Wilz, L. M., Li, J., Vivona, S., Pfuetzner, R. A., Brunger, A. T., and Zhong, Q. (2015) ATG14 promotes membrane tethering and fusion of autophagosomes to endolysosomes. Nature. 520, 563-6
Taherbhoy, A. M., Tait, S. W., Kaiser, S. E., Williams, A. H., Deng, A., Nourse, A., Hammel, M., Kurinov, I., Rock, C. O., Green, D. R., and Schulman, B. A. (2011) Atg8 transfer from Atg7 to Atg3: a distinctive E1-E2 architecture and mechanism in the autophagy pathway. Mol Cell. 44, 451-61
McPartland, L., Heller, D. M., Eisenberg, D. S., Hochschild, A., and Sawaya, M. R. (2018) Atomic insights into the genesis of cellular filaments by globular proteins. Nat Struct Mol Biol. 25, 705-714
Sangwan, S., Zhao, A., Adams, K. L., Jayson, C. K., Sawaya, M. R., Guenther, E. L., Pan, A. C., Ngo, J., Moore, D. M., Soriaga, A. B., Do, T. D., Goldschmidt, L., Nelson, R., Bowers, M. T., Koehler, C. M., Shaw, D. E., Novitch, B. G., and Eisenberg, D. S. (2017) Atomic structure of a toxic, oligomeric segment of SOD1 linked to amyotrophic lateral sclerosis (ALS). Proc Natl Acad Sci U S A. 114, 8770-8775
Diver, M. M., Pedi, L., Koide, A., Koide, S., and Long, S. B. (2018) Atomic structure of the eukaryotic intramembrane RAS methyltransferase ICMT. Nature. 10.1038/nature25439
Mao, D. Y. L., Neculai, D., Downey, M., Orlicky, S., Haffani, Y. Z., Ceccarelli, D. F., Ho, J. S. L., Szilard, R. K., Zhang, W., Ho, C. S., Wan, L., Fares, C., Rumpel, S., Kurinov, I., Arrowsmith, C. H., Durocher, D., and Sicheri, F. (2008) Atomic structure of the KEOPS complex: an ancient protein kinase-containing molecular machine. Mol Cell. 32, 259-75
Kelley, K., Knockenhauer, K. E., Kabachinski, G., and Schwartz, T. U. (2015) Atomic structure of the Y complex of the nuclear pore. Nat Struct Mol Biol. 22, 425-431
Sangwan, S., Sawaya, M. R., Murray, K. A., Hughes, M. P., and Eisenberg, D. S. (2018) Atomic structures of corkscrew-forming segments of SOD1 reveal varied oligomer conformations. Protein Sci. 10.1002/pro.3391
Krotee, P., Rodriguez, J. A., Sawaya, M. R., Cascio, D., Reyes, F. E., Shi, D., Hattne, J., Nannenga, B. L., Oskarsson, M. E., Philipp, S., Griner, S., Jiang, L., Glabe, C. G., Westermark, G. T., Gonen, T., and Eisenberg, D. S. (2017) Atomic structures of fibrillar segments of hIAPP suggest tightly mated β-sheets are important for cytotoxicity.. Elife. 10.7554/eLife.19273
Wiltzius, J. J. W., Sievers, S. A., Sawaya, M. R., and Eisenberg, D. (2009) Atomic structures of IAPP (amylin) fusions suggest a mechanism for fibrillation and the role of insulin in the process. Protein Sci. 18, 1521-30
Hughes, M. P., Sawaya, M. R., Boyer, D. R., Goldschmidt, L., Rodriguez, J. A., Cascio, D., Chong, L., Gonen, T., and Eisenberg, D. S. (2018) Atomic structures of low-complexity protein segments reveal kinked β sheets that assemble networks.. Science. 359, 698-701

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