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Robart, A. R., Chan, R. T., Peters, J. K., Rajashankar, K. R., and Toor, N. (2014) Crystal structure of a eukaryotic group II intron lariat. Nature. 514, 193-7

Hernandez, A. R., Shao, Y., Hoshika, S., Yang, Z., Shelke, S. A., Herrou, J., Kim, H. - J., Kim, M. - J., Piccirilli, J. A., and Benner, S. A. (2015) A Crystal Structure of a Functional RNA Molecule Containing an Artificial Nucleobase Pair. Angew Chem Int Ed Engl. 54, 9853-6

Chan, R. T., Robart, A. R., Rajashankar, K. R., Pyle, A. Marie, and Toor, N. (2012) Crystal structure of a group II intron in the pre-catalytic state. Nat Struct Mol Biol. 19, 555-7

Apostol, M. I., Perry, K., and Surewicz, W. K. (2013) Crystal structure of a human prion protein fragment reveals a motif for oligomer formation. J Am Chem Soc. 135, 10202-5

Cao, Y., Jin, X., Levin, E. J., Huang, H., Zong, Y., Quick, M., Weng, J., Pan, Y., Love, J., Punta, M., Rost, B., Hendrickson, W. A., Javitch, J. A., Rajashankar, K. R., and Zhou, M. (2011) Crystal structure of a phosphorylation-coupled saccharide transporter. Nature. 473, 50-4

Cao, Y., Jin, X., Levin, E. J., Huang, H., Zong, Y., Quick, M., Weng, J., Pan, Y., Love, J., Punta, M., Rost, B., Hendrickson, W. A., Javitch, J. A., Rajashankar, K. R., and Zhou, M. (2011) Crystal structure of a phosphorylation-coupled saccharide transporter. Nature. 473, 50-4

Cao, Y., Jin, X., Huang, H., Derebe, M. Getahun, Levin, E. J., Kabaleeswaran, V., Pan, Y., Punta, M., Love, J., Weng, J., Quick, M., Ye, S., Kloss, B., Bruni, R., Martinez-Hackert, E., Hendrickson, W. A., Rost, B., Javitch, J. A., Rajashankar, K. R., Jiang, Y., and Zhou, M. (2011) Crystal structure of a potassium ion transporter, TrkH. Nature. 471, 336-40

Cao, Y., Jin, X., Huang, H., Derebe, M. Getahun, Levin, E. J., Kabaleeswaran, V., Pan, Y., Punta, M., Love, J., Weng, J., Quick, M., Ye, S., Kloss, B., Bruni, R., Martinez-Hackert, E., Hendrickson, W. A., Rost, B., Javitch, J. A., Rajashankar, K. R., Jiang, Y., and Zhou, M. (2011) Crystal structure of a potassium ion transporter, TrkH. Nature. 471, 336-40

Toor, N., Keating, K. S., Taylor, S. D., and Pyle, A. Marie (2008) Crystal structure of a self-spliced group II intron. Science. 320, 77-82

Li, L., Park, E., Ling, J. J., Ingram, J., Ploegh, H., and Rapoport, T. A. (2016) Crystal structure of a substrate-engaged SecY protein-translocation channel. Nature. 531, 395-399

Li, L., Park, E., Ling, J. J., Ingram, J., Ploegh, H., and Rapoport, T. A. (2016) Crystal structure of a substrate-engaged SecY protein-translocation channel. Nature. 531, 395-399

Chu, B., Zhang, D., Hwang, W., and Paukstelis, P. J. (2018) Crystal Structure of a Tetrameric DNA Fold-Back Quadruplex. J Am Chem Soc. 10.1021/jacs.8b10153

Ranjan, B., Choi, P. H., Pillai, S., Permaul, K., Tong, L., and Singh, S. (2021) Crystal structure of a thermophilic fungal cyanase and its implications on the catalytic mechanism for bioremediation. Sci Rep. 11, 277

Ranjan, B., Choi, P. H., Pillai, S., Permaul, K., Tong, L., and Singh, S. (2021) Crystal structure of a thermophilic fungal cyanase and its implications on the catalytic mechanism for bioremediation. Sci Rep. 11, 277

Chen, E. V., Nicoludis, J. M., Powell, B. M., Li, K. S., and Yatsunyk, L. A. (2023) Crystal structure of a three-tetrad, parallel, K-stabilized human telomeric G-quadruplex at 1.35 Å resolution.. Acta Crystallogr F Struct Biol Commun. 79, 144-150

Arndt, J. W., Schwarzenbacher, R., Page, R., Abdubek, P., Ambing, E., Biorac, T., Canaves, J. M., Chiu, H. - J., Dai, X., Deacon, A. M., DiDonato, M., Elsliger, M. - A., Godzik, A., Grittini, C., Grzechnik, S. K., Hale, J., Hampton, E., Han, G. Won, Haugen, J., Hornsby, M., Klock, H. E., Koesema, E., Kreusch, A., Kuhn, P., Jaroszewski, L., Lesley, S. A., Levin, I., McMullan, D., McPhillips, T. M., Miller, M. D., Morse, A., Moy, K., Nigoghossian, E., Ouyang, J., Peti, W. S., Quijano, K., Reyes, R., Sims, E., Spraggon, G., Stevens, R. C., van den Bedem, H., Velasquez, J., Vincent, J., von Delft, F., Wang, X., West, B., White, A., Wolf, G., Xu, Q., Zagnitko, O., Hodgson, K. O., Wooley, J., and Wilson, I. A. (2005) Crystal structure of an alpha/beta serine hydrolase (YDR428C) from Saccharomyces cerevisiae at 1.85 A resolution. Proteins. 58, 755-8

Arndt, J. W., Schwarzenbacher, R., Page, R., Abdubek, P., Ambing, E., Biorac, T., Canaves, J. M., Chiu, H. - J., Dai, X., Deacon, A. M., DiDonato, M., Elsliger, M. - A., Godzik, A., Grittini, C., Grzechnik, S. K., Hale, J., Hampton, E., Han, G. Won, Haugen, J., Hornsby, M., Klock, H. E., Koesema, E., Kreusch, A., Kuhn, P., Jaroszewski, L., Lesley, S. A., Levin, I., McMullan, D., McPhillips, T. M., Miller, M. D., Morse, A., Moy, K., Nigoghossian, E., Ouyang, J., Peti, W. S., Quijano, K., Reyes, R., Sims, E., Spraggon, G., Stevens, R. C., van den Bedem, H., Velasquez, J., Vincent, J., von Delft, F., Wang, X., West, B., White, A., Wolf, G., Xu, Q., Zagnitko, O., Hodgson, K. O., Wooley, J., and Wilson, I. A. (2005) Crystal structure of an alpha/beta serine hydrolase (YDR428C) from Saccharomyces cerevisiae at 1.85 A resolution. Proteins. 58, 755-8

Pavone, V., Zhang, S. - Q., Merlino, A., Lombardi, A., Wu, Y., and DeGrado, W. F. (2014) Crystal structure of an amphiphilic foldamer reveals a 48-mer assembly comprising a hollow truncated octahedron. Nat Commun. 5, 3581

Dowling, D. P., Ilies, M., Olszewski, K. L., Portugal, S., Mota, M. M., Llinás, M., and Christianson, D. W. (2010) Crystal structure of arginase from Plasmodium falciparum and implications for L-arginine depletion in malarial infection . Biochemistry. 49, 5600-8

Pakotiprapha, D., Inuzuka, Y., Bowman, B. R., Moolenaar, G. F., Goosen, N., Jeruzalmi, D., and Verdine, G. L. (2008) Crystal structure of Bacillus stearothermophilus UvrA provides insight into ATP-modulated dimerization, UvrB interaction, and DNA binding. Mol Cell. 29, 122-33

Adams, M. C., Schiltz, C. J., Sun, J., Hosford, C. J., Johnson, V. M., Pan, H., Borbat, P. P., Freed, J. H., Thomason, L. C., Court, C., Court, D. L., and Chappie, J. S. (2024) The crystal structure of bacteriophage λ RexA provides novel insights into the DNA binding properties of Rex-like phage exclusion proteins.. Nucleic Acids Res. 52, 4659-4675

Peng, G., Xu, L., Lin, Y. - L., Chen, L., Pasquarella, J. R., Holmes, K. V., and Li, F. (2012) Crystal structure of bovine coronavirus spike protein lectin domain. J Biol Chem. 287, 41931-8

Peng, G., Xu, L., Lin, Y. - L., Chen, L., Pasquarella, J. R., Holmes, K. V., and Li, F. (2012) Crystal structure of bovine coronavirus spike protein lectin domain. J Biol Chem. 287, 41931-8

Silvers, M. A., Pakhomova, S., Neau, D. B., Silvers, W. C., Anzalone, N., Taylor, C. M., and Waldrop, G. L. (2016) Crystal Structure of Carboxyltransferase from Staphylococcus aureus Bound to the Antibacterial Agent Moiramide B. Biochemistry. 55, 4666-74

Kumar, R. P., Matos, J. O., Black, B. Y., Ellenburg, W. H., Chen, J., Patterson, M. K., Gehtman, J. A., Theobald, D. L., Krauss, I. J., and Oprian, D. D. (2024) Crystal Structure of Caryolan-1-ol Synthase, a Sesquiterpene Synthase Catalyzing an Initial Anti-Markovnikov Cyclization Reaction. Biochemistry. 63, 2904-2915

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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.