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Scrima, A., Konícková, R., Czyzewski, B. K., Kawasaki, Y., Jeffrey, P. D., Groisman, R., Nakatani, Y., Iwai, S., Pavletich, N. P., and Thomä, N. H. (2008) Structural basis of UV DNA-damage recognition by the DDB1-DDB2 complex. Cell. 135, 1213-23

Teplova, M., Farazi, T. A., Tuschl, T., and Patel, D. J. (2016) Structural basis underlying CAC RNA recognition by the RRM domain of dimeric RNA-binding protein RBPMS. Q Rev Biophys. 49, e1

Teplova, M., Farazi, T. A., Tuschl, T., and Patel, D. J. (2016) Structural basis underlying CAC RNA recognition by the RRM domain of dimeric RNA-binding protein RBPMS. Q Rev Biophys. 49, e1

Tang, H., Demir, Ö., Kurniawan, F., Brown, W. L., Shi, K., Moeller, N. H., Carpenter, M. A., Belica, C., Orellana, K., Du, G., LeBeau, A. M., Amaro, R. E., Harris, R. S., and Aihara, H. (2021) Structural Characterization of a Minimal Antibody against Human APOBEC3B. Viruses. 10.3390/v13040663

Toms, A. V., Haas, A. L., Park, J. - H., Begley, T. P., and Ealick, S. E. (2005) Structural characterization of the regulatory proteins TenA and TenI from Bacillus subtilis and identification of TenA as a thiaminase II. Biochemistry. 44, 2319-29

Choudhary, D., Narui, Y., Neel, B. L., Wimalasena, L. N., Klanseck, C. F., De-la-Torre, P., Chen, C., Araya-Secchi, R., Tamilselvan, E., and Sotomayor, M. (2020) Structural determinants of protocadherin-15 mechanics and function in hearing and balance perception. Proc Natl Acad Sci U S A. 10.1073/pnas.1920444117

Donaldson, T. M., Ting, L. - M., Zhan, C., Shi, W., Zheng, R., Almo, S. C., and Kim, K. (2014) Structural determinants of the 5'-methylthioinosine specificity of Plasmodium purine nucleoside phosphorylase. PLoS One. 9, e84384

Khare, B., Krishnan, V., Rajashankar, K. R., I-Hsiu, H., Xin, M., Ton-That, H., and Narayana, S. V. (2011) Structural differences between the Streptococcus agalactiae housekeeping and pilus-specific sortases: SrtA and SrtC1. PLoS One. 6, e22995

Dowling, D. P., Kung, Y., Croft, A. K., Taghizadeh, K., Kelly, W. L., Walsh, C. T., and Drennan, C. L. (2016) Structural elements of an NRPS cyclization domain and its intermodule docking domain. Proc Natl Acad Sci U S A. 113, 12432-12437

Tripathi, S., and Paukstelis, P. J. (2016) Structural Implications of Homopyrimidine Base Pairs in the Parallel-Stranded d(YGA) Motif. Chembiochem. 17, 1177-83

Jin, X., Townley, R., and Shapiro, L. (2007) Structural insight into AMPK regulation: ADP comes into play. Structure. 15, 1285-95

Thomas, S. R., Keller, C. A., Szyk, A., Cannon, J. R., and Laronde-Leblanc, N. A. (2011) Structural insight into the functional mechanism of Nep1/Emg1 N1-specific pseudouridine methyltransferase in ribosome biogenesis. Nucleic Acids Res. 39, 2445-57

Luo, M., Zhou, B., Reddem, E. R., Tang, B., Chen, B., Zhou, R., Liu, H., Liu, L., Katsamba, P. S., Au, K. - K., Man, H. - O., To, K. Kai- Wang, Yuen, K. - Y., Shapiro, L., Dang, S., Ho, D. D., and Chen, Z. (2022) Structural insights into broadly neutralizing antibodies against SARS-CoV-2 elicited by hybrid immunity. Emerg Microbes Infect. 10.1080/22221751.2022.2146538

Luo, M., Zhou, B., Reddem, E. R., Tang, B., Chen, B., Zhou, R., Liu, H., Liu, L., Katsamba, P. S., Au, K. - K., Man, H. - O., To, K. Kai- Wang, Yuen, K. - Y., Shapiro, L., Dang, S., Ho, D. D., and Chen, Z. (2022) Structural insights into broadly neutralizing antibodies against SARS-CoV-2 elicited by hybrid immunity. Emerg Microbes Infect. 10.1080/22221751.2022.2146538

Chung, B. C., Mashalidis, E. H., Tanino, T., Kim, M., Matsuda, A., Hong, J., Ichikawa, S., and Lee, S. - Y. (2016) Structural insights into inhibition of lipid I production in bacterial cell wall synthesis. Nature. 533, 557-560

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

Lam, K. - H., Tremblay, J. M., Vazquez-Cintron, E., Perry, K., Ondeck, C., Webb, R. P., McNutt, P. M., Shoemaker, C. B., and Jin, R. (2020) Structural Insights into Rational Design of Single-Domain Antibody-Based Antitoxins against Botulinum Neurotoxins. Cell Rep. 30, 2526-2539.e6

Mahbub, L., Kozlov, G., Zong, P., Lee, E. L., Tetteh, S., Nethramangalath, T., Knorn, C., Jiang, J., Shahsavan, A., Yue, L., Runnels, L., and Gehring, K. (2023) Structural insights into regulation of CNNM-TRPM7 divalent cation uptake by the small GTPase ARL15. Elife. 10.7554/eLife.86129

Teplova, M., Song, J., Gaw, H. Yan, Teplov, A., and Patel, D. J. (2010) Structural insights into RNA recognition by the alternate-splicing regulator CUG-binding protein 1. Structure. 18, 1364-77

Teplova, M., Song, J., Gaw, H. Yan, Teplov, A., and Patel, D. J. (2010) Structural insights into RNA recognition by the alternate-splicing regulator CUG-binding protein 1. Structure. 18, 1364-77

Teplova, M., and Patel, D. J. (2008) Structural insights into RNA recognition by the alternative-splicing regulator muscleblind-like MBNL1. Nat Struct Mol Biol. 15, 1343-51

Hofmann, L., Tsybovsky, Y., Alexander, N. S., Babino, D., Leung, N. Y., Montell, C., Banerjee, S., von Lintig, J., and Palczewski, K. (2016) Structural Insights into the Drosophila melanogaster Retinol Dehydrogenase, a Member of the Short-Chain Dehydrogenase/Reductase Family. Biochemistry. 55, 6545-6557

Cao, R., Gozlan, O., Airich, A., Tveriakhina, L., Zhou, H., Jiang, H., Cole, P. A., Aster, J. C., Klein, T., Sprinzak, D., and Blacklow, S. C. (2024) Structural requirements for activity of Mind bomb1 in Notch signaling. Structure. 32, 1667-1676.e5

Pemberton, T. A., Srivastava, D., Sanyal, N., Henzl, M. T., Becker, D. F., and Tanner, J. J. (2014) Structural studies of yeast Δ(1)-pyrroline-5-carboxylate dehydrogenase (ALDH4A1): active site flexibility and oligomeric state.. Biochemistry. 53, 1350-9

T, R., Sharma, D., Lin, F., Choong, Y. Khai, Lim, C., Jobichen, C., and Zhang, C. (2023) Structural Understanding of Fungal Terpene Synthases for the Formation of Linear or Cyclic Terpene Products. ACS Catal. 13, 4949-4959

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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.