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2018

Novikova, I. V., Sharma, N., Moser, T., Sontag, R., Liu, Y., Collazo, M. J., Cascio, D., Shokuhfar, T., Hellmann, H., Knoblauch, M., and Evans, J. E. (2018) Protein structural biology using cell-free platform from wheat germ. Adv Struct Chem Imaging. 4, 13

Peek, J., Lilic, M., Montiel, D., Milshteyn, A., Woodworth, I., Biggins, J. B., Ternei, M. A., Calle, P. Y., Danziger, M., Warrier, T., Saito, K., Braffman, N., Fay, A., Glickman, M. S., Darst, S. A., Campbell, E. A., and Brady, S. F. (2018) Rifamycin congeners kanglemycins are active against rifampicin-resistant bacteria via a distinct mechanism. Nat Commun. 9, 4147

Peek, J., Lilic, M., Montiel, D., Milshteyn, A., Woodworth, I., Biggins, J. B., Ternei, M. A., Calle, P. Y., Danziger, M., Warrier, T., Saito, K., Braffman, N., Fay, A., Glickman, M. S., Darst, S. A., Campbell, E. A., and Brady, S. F. (2018) Rifamycin congeners kanglemycins are active against rifampicin-resistant bacteria via a distinct mechanism. Nat Commun. 9, 4147

Macdonald, R., Cascio, D., Collazo, M. J., Phillips, M., and Clubb, R. T. (2018) The Shr protein captures human hemoglobin using two structurally unique binding domains. J Biol Chem. 293, 18365-18377

Macdonald, R., Cascio, D., Collazo, M. J., Phillips, M., and Clubb, R. T. (2018) The Shr protein captures human hemoglobin using two structurally unique binding domains. J Biol Chem. 293, 18365-18377

Macdonald, R., Cascio, D., Collazo, M. J., Phillips, M., and Clubb, R. T. (2018) The Shr protein captures human hemoglobin using two structurally unique binding domains. J Biol Chem. 293, 18365-18377

Merz, G. E., Borbat, P. P., Muok, A. R., Srivastava, M., Bunck, D. N., Freed, J. H., and Crane, B. R. (2018) Site-Specific Incorporation of a Cu Spin-Label Into Proteins for Measuring Distances by Pulsed Dipolar ESR Spectroscopy. J Phys Chem B. 10.1021/acs.jpcb.8b05619

Fontán, L., Qiao, Q., Hatcher, J. M., Casalena, G., Us, I., Teater, M., Durant, M., Du, G., Xia, M., Bilchuk, N., Chennamadhavuni, S., Palladino, G., Inghirami, G., Philippar, U., Wu, H., Scott, D. A., Gray, N. S., and Melnick, A. (2018) Specific covalent inhibition of MALT1 paracaspase suppresses B cell lymphoma growth. J Clin Invest. 128, 4397-4412

Fontán, L., Qiao, Q., Hatcher, J. M., Casalena, G., Us, I., Teater, M., Durant, M., Du, G., Xia, M., Bilchuk, N., Chennamadhavuni, S., Palladino, G., Inghirami, G., Philippar, U., Wu, H., Scott, D. A., Gray, N. S., and Melnick, A. (2018) Specific covalent inhibition of MALT1 paracaspase suppresses B cell lymphoma growth. J Clin Invest. 128, 4397-4412

Liu, H., Wang, C., Lee, S., Ning, F., Wang, Y., Zhang, Q., Chen, Z., Zang, J., Nix, J., Dai, S., Marrack, P., Hagman, J., Kappler, J., and Zhang, G. (2018) Specific Recognition of Arginine Methylated Histone Tails by JMJD5 and JMJD7. Sci Rep. 8, 3275

Shen, G., Li, S., Cui, W., Liu, S., Liu, Q., Yang, Y., Gross, M., and Li, W. (2018) Stabilization of warfarin-binding pocket of VKORC1 and VKORL1 by a peripheral region determines their different sensitivity to warfarin inhibition. J Thromb Haemost. 16, 1164-1175

Santiago, Ada Silva, Couñago, R. M., Ramos, P. Zonzini, Godoi, P. H. C., Massirer, K. B., Gileadi, O., and Elkins, J. M. (2018) Structural Analysis of Inhibitor Binding to CAMKK1 Identifies Features Necessary for Design of Specific Inhibitors. Sci Rep. 8, 14800

Chiang, Y. - C., Levsh, O., Lam, C. Kei, Weng, J. - K., and Wang, Y. (2018) Structural and dynamic basis of substrate permissiveness in hydroxycinnamoyltransferase (HCT). PLoS Comput Biol. 14, e1006511

Nomura, Y., Roston, D., Montemayor, E. J., Cui, Q., and Butcher, S. E. (2018) Structural and mechanistic basis for preferential deadenylation of U6 snRNA by Usb1. Nucleic Acids Res. 10.1093/nar/gky812

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

Xiong, S., Lorenzen, K., Couzens, A. L., Templeton, C. M., Rajendran, D., Mao, D. Y. L., Juang, Y. - C., Chiovitti, D., Kurinov, I., Guettler, S., Gingras, A. - C., and Sicheri, F. (2018) Structural Basis for Auto-Inhibition of the NDR1 Kinase Domain by an Atypically Long Activation Segment. Structure. 26, 1101-1115.e6

Xiong, S., Lorenzen, K., Couzens, A. L., Templeton, C. M., Rajendran, D., Mao, D. Y. L., Juang, Y. - C., Chiovitti, D., Kurinov, I., Guettler, S., Gingras, A. - C., and Sicheri, F. (2018) Structural Basis for Auto-Inhibition of the NDR1 Kinase Domain by an Atypically Long Activation Segment. Structure. 26, 1101-1115.e6

Knecht, K. M., Buzovetsky, O., Schneider, C., Thomas, D., Srikanth, V., Kaderali, L., Tofoleanu, F., Reiss, K., Ferreirós, N., Geisslinger, G., Batista, V. S., Ji, X., Cinatl, J., Keppler, O. T., and Xiong, Y. (2018) The structural basis for cancer drug interactions with the catalytic and allosteric sites of SAMHD1. Proc Natl Acad Sci U S A. 10.1073/pnas.1805593115

Zhang, Z. - M., Lu, R., Wang, P., Yu, Y., Chen, D., Gao, L., Liu, S., Ji, D., Rothbart, S. B., Wang, Y., Wang, G. Greg, and Song, J. (2018) Structural basis for DNMT3A-mediated de novo DNA methylation. Nature. 554, 387-391

Cooper, R. S., Georgieva, E. R., Borbat, P. P., Freed, J. H., and Heldwein, E. E. (2018) Structural basis for membrane anchoring and fusion regulation of the herpes simplex virus fusogen gB. Nat Struct Mol Biol. 25, 416-424

Rechkoblit, O., Choudhury, J. Roy, Buku, A., Prakash, L., Prakash, S., and Aggarwal, A. K. (2018) Structural basis for polymerase η-promoted resistance to the anticancer nucleoside analog cytarabine.. Sci Rep. 8, 12702

Coleman, J. A., and Gouaux, E. (2018) Structural basis for recognition of diverse antidepressants by the human serotonin transporter. Nat Struct Mol Biol. 10.1038/s41594-018-0026-8

Chen, P., Tao, L., Wang, T., Zhang, J., He, A., Lam, K. - H., Liu, Z., He, X., Perry, K., Dong, M., and Jin, R. (2018) Structural basis for recognition of frizzled proteins by toxin B. Science. 360, 664-669

Chan, R. T., Peters, J. K., Robart, A. R., Wiryaman, T., Rajashankar, K. R., and Toor, N. (2018) Structural basis for the second step of group II intron splicing. Nat Commun. 9, 4676

Wang, W., Chen, X., Wolin, S. L., and Xiong, Y. (2018) Structural Basis for tRNA Mimicry by a Bacterial Y RNA. Structure. 10.1016/j.str.2018.09.001

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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.