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Su, C. - C., Radhakrishnan, A., Kumar, N., Long, F., Bolla, J. Reddy, Lei, H. - T., Delmar, J. A., Do, S. V., Chou, T. - H., Rajashankar, K. R., Zhang, Q., and Yu, E. W. (2014) Crystal structure of the Campylobacter jejuni CmeC outer membrane channel. Protein Sci. 23, 954-61

Chowdary, T. K., Cairns, T. M., Atanasiu, D., Cohen, G. H., Eisenberg, R. J., and Heldwein, E. E. (2010) Crystal structure of the conserved herpesvirus fusion regulator complex gH-gL. Nat Struct Mol Biol. 17, 882-8

Chowdary, T. K., Cairns, T. M., Atanasiu, D., Cohen, G. H., Eisenberg, R. J., and Heldwein, E. E. (2010) Crystal structure of the conserved herpesvirus fusion regulator complex gH-gL. Nat Struct Mol Biol. 17, 882-8

Chowdary, T. K., Cairns, T. M., Atanasiu, D., Cohen, G. H., Eisenberg, R. J., and Heldwein, E. E. (2010) Crystal structure of the conserved herpesvirus fusion regulator complex gH-gL. Nat Struct Mol Biol. 17, 882-8

Ji, T., Corbalán-García, S., and Hubbard, S. R. (2018) Crystal structure of the C-terminal four-helix bundle of the potassium channel KCa3.1. PLoS One. 13, e0199942

Larson, M. R., Rajashankar, K. R., Crowley, P. J., Kelly, C., Mitchell, T. J., L Brady, J., and Deivanayagam, C. (2011) Crystal structure of the C-terminal region of Streptococcus mutans antigen I/II and characterization of salivary agglutinin adherence domains. J Biol Chem. 286, 21657-66

Shi, K., Carpenter, M. A., Kurahashi, K., Harris, R. S., and Aihara, H. (2015) Crystal Structure of the DNA Deaminase APOBEC3B Catalytic Domain. J Biol Chem. 290, 28120-30

Tao, X., Avalos, J. L., Chen, J., and MacKinnon, R. (2009) Crystal structure of the eukaryotic strong inward-rectifier K+ channel Kir2.2 at 3.1 A resolution. Science. 326, 1668-74

Xu, K., Rockx, B., Xie, Y., DeBuysscher, B. L., Fusco, D. L., Zhu, Z., Chan, Y. - P., Xu, Y., Luu, T., Cer, R. Z., Feldmann, H., Mokashi, V., Dimitrov, D. S., Bishop-Lilly, K. A., Broder, C. C., and Nikolov, D. B. (2013) Crystal structure of the Hendra virus attachment G glycoprotein bound to a potent cross-reactive neutralizing human monoclonal antibody. PLoS Pathog. 9, e1003684

Xu, K., Rockx, B., Xie, Y., DeBuysscher, B. L., Fusco, D. L., Zhu, Z., Chan, Y. - P., Xu, Y., Luu, T., Cer, R. Z., Feldmann, H., Mokashi, V., Dimitrov, D. S., Bishop-Lilly, K. A., Broder, C. C., and Nikolov, D. B. (2013) Crystal structure of the Hendra virus attachment G glycoprotein bound to a potent cross-reactive neutralizing human monoclonal antibody. PLoS Pathog. 9, e1003684

Pos, W., Sethi, D. K., Call, M. J., Schulze, M. - S. E. D., Anders, A. - K., Pyrdol, J., and Wucherpfennig, K. W. (2012) Crystal structure of the HLA-DM-HLA-DR1 complex defines mechanisms for rapid peptide selection. Cell. 151, 1557-68

Coburn, K., Melville, Z., Aligholizadeh, E., Roth, B. M., Varney, K. M., Carrier, F., Pozharski, E., and Weber, D. J. (2017) Crystal structure of the human heterogeneous ribonucleoprotein A18 RNA-recognition motif. Acta Crystallogr F Struct Biol Commun. 73, 209-214

Coburn, K., Melville, Z., Aligholizadeh, E., Roth, B. M., Varney, K. M., Carrier, F., Pozharski, E., and Weber, D. J. (2017) Crystal structure of the human heterogeneous ribonucleoprotein A18 RNA-recognition motif. Acta Crystallogr F Struct Biol Commun. 73, 209-214

Li, J., Ma, X., Banerjee, S., Chen, H., Ma, W., Bode, A. M., and Dong, Z. (2021) Crystal structure of the human PRPK-TPRKB complex. Commun Biol. 4, 167

Hosford, C. J., and Chappie, J. S. (2018) The crystal structure of the LlaJI.R1 N-terminal domain provides a model for site-specific DNA binding. J Biol Chem. 293, 11758-11771

Van den Berg, B., Black, P. N., Clemons, W. M., and Rapoport, T. A. (2004) Crystal structure of the long-chain fatty acid transporter FadL. Science. 304, 1506-9

C Y Kuk, A., Mashalidis, E. H., and Lee, S. - Y. (2017) Crystal structure of the MOP flippase MurJ in an inward-facing conformation. Nat Struct Mol Biol. 24, 171-176

Arbing, M. A., Kaufmann, M., Phan, T., Chan, S., Cascio, D., and Eisenberg, D. (2010) The crystal structure of the Mycobacterium tuberculosis Rv3019c-Rv3020c ESX complex reveals a domain-swapped heterotetramer. Protein Sci. 19, 1692-703

Arbing, M. A., Kaufmann, M., Phan, T., Chan, S., Cascio, D., and Eisenberg, D. (2010) The crystal structure of the Mycobacterium tuberculosis Rv3019c-Rv3020c ESX complex reveals a domain-swapped heterotetramer. Protein Sci. 19, 1692-703

Chou, T. - H., Delmar, J. A., Wright, C. C., Kumar, N., Radhakrishnan, A., Doh, J. K., Licon, M. H., Bolla, J. Reddy, Lei, H. - T., Rajashankar, K. R., Su, C. - C., Purdy, G. E., and Yu, E. W. (2015) Crystal structure of the Mycobacterium tuberculosis transcriptional regulator Rv0302. Protein Sci. 24, 1942-55

Bolla, J. Reddy, Su, C. - C., Do, S. V., Radhakrishnan, A., Kumar, N., Long, F., Chou, T. - H., Delmar, J. A., Lei, H. - T., Rajashankar, K. R., Shafer, W. M., and Yu, E. W. (2014) Crystal structure of the Neisseria gonorrhoeae MtrD inner membrane multidrug efflux pump. PLoS One. 9, e97903

Schreiter, E. R., Sintchak, M. D., Guo, Y., Chivers, P. T., Sauer, R. T., and Drennan, C. L. (2003) Crystal structure of the nickel-responsive transcription factor NikR. Nat Struct Biol. 10, 794-9

Lei, H. - T., Chou, T. - H., Su, C. - C., Bolla, J. Reddy, Kumar, N., Radhakrishnan, A., Long, F., Delmar, J. A., Do, S. V., Rajashankar, K. R., Shafer, W. M., and Yu, E. W. (2014) Crystal structure of the open state of the Neisseria gonorrhoeae MtrE outer membrane channel. PLoS One. 9, e97475

Xu, K., Chan, Y. - P., Bradel-Tretheway, B., Akyol-Ataman, Z., Zhu, Y., Dutta, S., Yan, L., Feng, Y. R., Wang, L. - F., Skiniotis, G., Lee, B., Z Zhou, H., Broder, C. C., Aguilar, H. C., and Nikolov, D. B. (2015) Crystal Structure of the Pre-fusion Nipah Virus Fusion Glycoprotein Reveals a Novel Hexamer-of-Trimers Assembly. PLoS Pathog. 11, e1005322

Chen, Y., Rajashankar, K. R., Yang, Y., Agnihothram, S. S., Liu, C., Lin, Y. - L., Baric, R. S., and Li, F. (2013) Crystal structure of the receptor-binding domain from newly emerged Middle East respiratory syndrome coronavirus. J Virol. 87, 10777-83

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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 seven member institutions:

Columbia University
Cornell University
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.