Publications

Found 818 results
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Journal Article
Zeqiraj, E., Tang, X., Hunter, R. W., García-Rocha, M., Judd, A., Deak, M., von Wilamowitz-Moellendorff, A., Kurinov, I., Guinovart, J. J., Tyers, M., Sakamoto, K., and Sicheri, F. (2014) Structural basis for the recruitment of glycogen synthase by glycogenin. Proc Natl Acad Sci U S A. 111, E2831-40
Zeqiraj, E., Tang, X., Hunter, R. W., García-Rocha, M., Judd, A., Deak, M., von Wilamowitz-Moellendorff, A., Kurinov, I., Guinovart, J. J., Tyers, M., Sakamoto, K., and Sicheri, F. (2014) Structural basis for the recruitment of glycogen synthase by glycogenin. Proc Natl Acad Sci U S A. 111, E2831-40
Dong, C., Liu, Y., Lyu, T. - J., Beldar, S., Lamb, K. N., Tempel, W., Li, Y., Li, Z., James, L. I., Qin, S., Wang, Y., and Min, J. (2020) Structural Basis for the Binding Selectivity of Human CDY Chromodomains. Cell Chem Biol. 10.1016/j.chembiol.2020.05.007
Wu, A., Salom, D., Hong, J. D., Tworak, A., Watanabe, K., Pardon, E., Steyaert, J., Kandori, H., Katayama, K., Kiser, P. D., and Palczewski, K. (2023) Structural basis for the allosteric modulation of rhodopsin by nanobody binding to its extracellular domain. Nat Commun. 14, 5209
Dong, C., Mao, Y., Tempel, W., Qin, S., Li, L., Loppnau, P., Huang, R., and Min, J. (2015) Structural basis for substrate recognition by the human N-terminal methyltransferase 1. Genes Dev. 29, 2343-8
Liu, Z., Zhang, S., Chen, P., Tian, S., Zeng, J., Perry, K., Dong, M., and Jin, R. (2021) Structural basis for selective modification of Rho and Ras GTPases by toxin B. Sci Adv. 7, eabi4582
Zhou, D., Tanzawa, T., Lin, J., and Gagnon, M. G. (2020) Structural basis for ribosome recycling by RRF and tRNA. Nat Struct Mol Biol. 27, 25-32
McMillan, B. J., Tibbe, C., Drabek, A. A., Seegar, T. C. M., Blacklow, S. C., and Klein, T. (2017) Structural Basis for Regulation of ESCRT-III Complexes by Lgd. Cell Rep. 19, 1750-1757
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
Shi, K., Kurahashi, K., Gao, R., Tsutakawa, S. E., Tainer, J. A., Pommier, Y., and Aihara, H. (2012) Structural basis for recognition of 5'-phosphotyrosine adducts by Tdp2. Nat Struct Mol Biol. 19, 1372-7
Shi, K., Kurahashi, K., Gao, R., Tsutakawa, S. E., Tainer, J. A., Pommier, Y., and Aihara, H. (2012) Structural basis for recognition of 5'-phosphotyrosine adducts by Tdp2. Nat Struct Mol Biol. 19, 1372-7
Tian, Y., Simanshu, D. K., Ma, J. - B., and Patel, D. J. (2011) Structural basis for piRNA 2'-O-methylated 3'-end recognition by Piwi PAZ (Piwi/Argonaute/Zwille) domains. Proc Natl Acad Sci U S A. 108, 903-10
Clarke, O. B., Tomasek, D., Jorge, C. D., Dufrisne, M. Belcher, Kim, M., Banerjee, S., Rajashankar, K. R., Shapiro, L., Hendrickson, W. A., Santos, H., and Mancia, F. (2015) Structural basis for phosphatidylinositol-phosphate biosynthesis. Nat Commun. 6, 8505
Hamill, S., Lou, H. Jane, Turk, B. E., and Boggon, T. J. (2016) Structural Basis for Noncanonical Substrate Recognition of Cofilin/ADF Proteins by LIM Kinases. Mol Cell. 62, 397-408
Li, T., Stayrook, S. E., Tsutsui, Y., Zhang, J., Wang, Y., Li, H., Proffitt, A., Krimmer, S. G., Ahmed, M., Belliveau, O., Walker, I. X., Mudumbi, K. C., Suzuki, Y., Lax, I., Alvarado, D., Lemmon, M. A., Schlessinger, J., and Klein, D. E. (2021) Structural basis for ligand reception by anaplastic lymphoma kinase. Nature. 600, 148-152
Baranovskiy, A. G., Babayeva, N. D., Suwa, Y., Gu, J., Pavlov, Y. I., and Tahirov, T. H. (2014) Structural basis for inhibition of DNA replication by aphidicolin. Nucleic Acids Res. 42, 14013-21
Long, T., Hassan, A., Thompson, B. M., McDonald, J. G., Wang, J., and Li, X. (2019) Structural basis for human sterol isomerase in cholesterol biosynthesis and multidrug recognition. Nat Commun. 10, 2452
Trachman, R. J., Demeshkina, N. A., Lau, M. W. L., Panchapakesan, S. Shyam S., C Y Jeng, S., Unrau, P. J., and Ferré-D'Amaré, A. R. (2017) Structural basis for high-affinity fluorophore binding and activation by RNA Mango. Nat Chem Biol. 13, 807-813
Toor, N., Rajashankar, K., Keating, K. S., and Pyle, A. Marie (2008) Structural basis for exon recognition by a group II intron. Nat Struct Mol Biol. 15, 1221-2
Torrens-Spence, M. P., Chiang, Y. - C., Smith, T., Vicent, M. A., Wang, Y., and Weng, J. - K. (2020) Structural basis for divergent and convergent evolution of catalytic machineries in plant aromatic amino acid decarboxylase proteins. Proc Natl Acad Sci U S A. 10.1073/pnas.1920097117
Nabel, K. G., Clark, S. A., Shankar, S., Pan, J., Clark, L. E., Yang, P., Coscia, A., McKay, L. G. A., Varnum, H. H., Brusic, V., Tolan, N. V., Zhou, G., Desjardins, M., Turbett, S. E., Kanjilal, S., Sherman, A. C., Dighe, A., LaRocque, R. C., Ryan, E. T., Tylek, C., Cohen-Solal, J. F., Darcy, A. T., Tavella, D., Clabbers, A., Fan, Y., Griffiths, A., Correia, I. R., Seagal, J., Baden, L. R., Charles, R. C., and Abraham, J. (2021) Structural basis for continued antibody evasion by the SARS-CoV-2 receptor binding domain. Science
Nabel, K. G., Clark, S. A., Shankar, S., Pan, J., Clark, L. E., Yang, P., Coscia, A., McKay, L. G. A., Varnum, H. H., Brusic, V., Tolan, N. V., Zhou, G., Desjardins, M., Turbett, S. E., Kanjilal, S., Sherman, A. C., Dighe, A., LaRocque, R. C., Ryan, E. T., Tylek, C., Cohen-Solal, J. F., Darcy, A. T., Tavella, D., Clabbers, A., Fan, Y., Griffiths, A., Correia, I. R., Seagal, J., Baden, L. R., Charles, R. C., and Abraham, J. (2021) Structural basis for continued antibody evasion by the SARS-CoV-2 receptor binding domain. Science
Nabel, K. G., Clark, S. A., Shankar, S., Pan, J., Clark, L. E., Yang, P., Coscia, A., McKay, L. G. A., Varnum, H. H., Brusic, V., Tolan, N. V., Zhou, G., Desjardins, M., Turbett, S. E., Kanjilal, S., Sherman, A. C., Dighe, A., LaRocque, R. C., Ryan, E. T., Tylek, C., Cohen-Solal, J. F., Darcy, A. T., Tavella, D., Clabbers, A., Fan, Y., Griffiths, A., Correia, I. R., Seagal, J., Baden, L. R., Charles, R. C., and Abraham, J. (2021) Structural basis for continued antibody evasion by the SARS-CoV-2 receptor binding domain. Science
Nabel, K. G., Clark, S. A., Shankar, S., Pan, J., Clark, L. E., Yang, P., Coscia, A., McKay, L. G. A., Varnum, H. H., Brusic, V., Tolan, N. V., Zhou, G., Desjardins, M., Turbett, S. E., Kanjilal, S., Sherman, A. C., Dighe, A., LaRocque, R. C., Ryan, E. T., Tylek, C., Cohen-Solal, J. F., Darcy, A. T., Tavella, D., Clabbers, A., Fan, Y., Griffiths, A., Correia, I. R., Seagal, J., Baden, L. R., Charles, R. C., and Abraham, J. (2021) Structural basis for continued antibody evasion by the SARS-CoV-2 receptor binding domain. Science
Sciara, G., Clarke, O. B., Tomasek, D., Kloss, B., Tabuso, S., Byfield, R., Cohn, R., Banerjee, S., Rajashankar, K. R., Slavkovic, V., Graziano, J. H., Shapiro, L., and Mancia, F. (2014) Structural basis for catalysis in a CDP-alcohol phosphotransferase. Nat Commun. 5, 4068

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