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Scott, D. C., Chittori, S., Purser, N., King, M. T., Maiwald, S. A., Churion, K., Nourse, A., Lee, C., Paulo, J. A., Miller, D. J., Elledge, S. J., J Harper, W., Kleiger, G., and Schulman, B. A. (2024) Structural basis for C-degron selectivity across KLHDCX family E3 ubiquitin ligases. Nat Commun. 15, 9899

Scott, D. C., Chittori, S., Purser, N., King, M. T., Maiwald, S. A., Churion, K., Nourse, A., Lee, C., Paulo, J. A., Miller, D. J., Elledge, S. J., J Harper, W., Kleiger, G., and Schulman, B. A. (2024) Structural basis for C-degron selectivity across KLHDCX family E3 ubiquitin ligases. Nat Commun. 15, 9899

Cappadocia, L., Pichler, A., and Lima, C. D. (2015) Structural basis for catalytic activation by the human ZNF451 SUMO E3 ligase. Nat Struct Mol Biol. 22, 968-75

Dufrisne, M. Belcher, Petrou, V. I., Clarke, O. B., and Mancia, F. (2017) Structural basis for catalysis at the membrane-water interface. Biochim Biophys Acta Mol Cell Biol Lipids. 1862, 1368-1385

Liu, Z., Lee, P. - G., Krez, N., Lam, K. - H., Liu, H., Przykopanski, A., Chen, P., Yao, G., Zhang, S., Tremblay, J. M., Perry, K., Shoemaker, C. B., Rummel, A., Dong, M., and Jin, R. (2023) Structural basis for botulinum neurotoxin E recognition of synaptic vesicle protein 2. Nat Commun. 14, 2338

Liu, Z., Lee, P. - G., Krez, N., Lam, K. - H., Liu, H., Przykopanski, A., Chen, P., Yao, G., Zhang, S., Tremblay, J. M., Perry, K., Shoemaker, C. B., Rummel, A., Dong, M., and Jin, R. (2023) Structural basis for botulinum neurotoxin E recognition of synaptic vesicle protein 2. Nat Commun. 14, 2338

Zuo, H., Glaaser, I., Zhao, Y., Kurinov, I., Mosyak, L., Wang, H., Liu, J., Park, J., Frangaj, A., Sturchler, E., Zhou, M., McDonald, P., Geng, Y., Slesinger, P. A., and Fan, Q. R. (2019) Structural basis for auxiliary subunit KCTD16 regulation of the GABA receptor. Proc Natl Acad Sci U S A. 116, 8370-8379

Lee, K., Perry, K., Xu, M., Veillard, I., Kumar, R., Rao, T. Dharma, Rueda, B. R., Spriggs, D. R., and Yeku, O. O. (2024) Structural basis for antibody recognition of the proximal MUC16 ectodomain. J Ovarian Res. 17, 41

Borovinskaya, M. A., Pai, R. D., Zhang, W., Schuwirth, B. S., Holton, J. M., Hirokawa, G., Kaji, H., Kaji, A., and Cate, J. H. Doudna (2007) Structural basis for aminoglycoside inhibition of bacterial ribosome recycling. Nat Struct Mol Biol. 14, 727-32

Fairman, J. Wesley, Wijerathna, S. Ranjan, Ahmad, M. Faiz, Xu, H., Nakano, R., Jha, S., Prendergast, J., R Welin, M., Flodin, S., Roos, A., Nordlund, P., Li, Z., Walz, T., and Dealwis, C. Godfrey (2011) Structural basis for allosteric regulation of human ribonucleotide reductase by nucleotide-induced oligomerization. Nat Struct Mol Biol. 18, 316-22

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

Shelke, S. A., Shao, Y., Laski, A., Koirala, D., Weissman, B. P., Fuller, J. R., Tan, X., Constantin, T. P., Waggoner, A. S., Bruchez, M. P., Armitage, B. A., and Piccirilli, J. A. (2018) Structural basis for activation of fluorogenic dyes by an RNA aptamer lacking a G-quadruplex motif. Nat Commun. 9, 4542

Wang, H., Goehring, A., Wang, K. H., Penmatsa, A., Ressler, R., and Gouaux, E. (2013) Structural basis for action by diverse antidepressants on biogenic amine transporters. Nature. 503, 141-5

Das, N. Krishna, Vogt, J., Patel, A., Banna, H. Al, and Koirala, D. (2024) Structural basis for a highly conserved RNA-mediated enteroviral genome replication. Nucleic Acids Res. 10.1093/nar/gkae627

Guettler, S., LaRose, J., Petsalaki, E., Gish, G., Scotter, A., Pawson, T., Rottapel, R., and Sicheri, F. (2011) Structural basis and sequence rules for substrate recognition by Tankyrase explain the basis for cherubism disease. Cell. 147, 1340-54

Guettler, S., LaRose, J., Petsalaki, E., Gish, G., Scotter, A., Pawson, T., Rottapel, R., and Sicheri, F. (2011) Structural basis and sequence rules for substrate recognition by Tankyrase explain the basis for cherubism disease. Cell. 147, 1340-54

Olenginski, G. M., Piacentini, J., Harris, D. R., Runko, N. A., Papoutsis, B. M., Alter, J. R., Hess, K. R., Brewer, S. H., and Phillips-Piro, C. M. (2021) Structural and spectrophotometric investigation of two unnatural amino-acid altered chromophores in the superfolder green fluorescent protein. Acta Crystallogr D Struct Biol. 77, 1010-1018

Olenginski, G. M., Piacentini, J., Harris, D. R., Runko, N. A., Papoutsis, B. M., Alter, J. R., Hess, K. R., Brewer, S. H., and Phillips-Piro, C. M. (2021) Structural and spectrophotometric investigation of two unnatural amino-acid altered chromophores in the superfolder green fluorescent protein. Acta Crystallogr D Struct Biol. 77, 1010-1018

Olenginski, G. M., Piacentini, J., Harris, D. R., Runko, N. A., Papoutsis, B. M., Alter, J. R., Hess, K. R., Brewer, S. H., and Phillips-Piro, C. M. (2021) Structural and spectrophotometric investigation of two unnatural amino-acid altered chromophores in the superfolder green fluorescent protein. Acta Crystallogr D Struct Biol. 77, 1010-1018

Peng, G., Yang, Y., Pasquarella, J. R., Xu, L., Qian, Z., Holmes, K. V., and Li, F. (2017) Structural and Molecular Evidence Suggesting Coronavirus-driven Evolution of Mouse Receptor. J Biol Chem. 292, 2174-2181

Peng, G., Yang, Y., Pasquarella, J. R., Xu, L., Qian, Z., Holmes, K. V., and Li, F. (2017) Structural and Molecular Evidence Suggesting Coronavirus-driven Evolution of Mouse Receptor. J Biol Chem. 292, 2174-2181

Settembre, E. C., Dorrestein, P. C., Park, J. - H., Augustine, A. M., Begley, T. P., and Ealick, S. E. (2003) Structural and mechanistic studies on ThiO, a glycine oxidase essential for thiamin biosynthesis in Bacillus subtilis. Biochemistry. 42, 2971-81

Hoelper, D., Huang, H., Jain, A. Y., Patel, D. J., and Lewis, P. W. (2017) Structural and mechanistic insights into ATRX-dependent and -independent functions of the histone chaperone DAXX. Nat Commun. 8, 1193

Choi, P. H., Vu, T. Minh Ngoc, Pham, H. Thi, Woodward, J. J., Turner, M. S., and Tong, L. (2017) Structural and functional studies of pyruvate carboxylase regulation by cyclic di-AMP in lactic acid bacteria. Proc Natl Acad Sci U S A. 114, E7226-E7235

Porter, N. J., Christianson, N. H., Decroos, C., and Christianson, D. W. (2016) Structural and Functional Influence of the Glycine-Rich Loop G(302)GGGY on the Catalytic Tyrosine of Histone Deacetylase 8. Biochemistry. 55, 6718-6729

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The Northeastern Collaborative Access Team (NE-CAT) facility at the Advanced Photon Source at Argonne National Laboratory is managed by Cornell University and consists of eight member institutions:

Columbia University
Cornell University
Genentech
Harvard University
Memorial Sloan-Kettering Cancer Center
Massachusetts Institute of Technology
Rockefeller University
Yale University

Primary funding for this project comes from the National Institute of General Medical Sciences (NIGMS), a division of the National Institutes of Health (NIH). Additional financial support for NE-CAT comes from the member institutions.