Publications

Found 862 results
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Journal Article
Alonzo, D. A., Chiche-Lapierre, C., Tarry, M. J., Wang, J., and T Schmeing, M. (2020) Structural basis of keto acid utilization in nonribosomal depsipeptide synthesis. Nat Chem Biol. 10.1038/s41589-020-0481-5
Jia, X., Weber, E., Tokarev, A., Lewinski, M., Rizk, M., Suarez, M., Guatelli, J., and Xiong, Y. (2014) Structural basis of HIV-1 Vpu-mediated BST2 antagonism via hijacking of the clathrin adaptor protein complex 1. Elife. 3, e02362
Bhattacharya, A., Alam, S. L., Fricke, T., Zadrozny, K., Sedzicki, J., Taylor, A. B., Demeler, B., Pornillos, O., Ganser-Pornillos, B. K., Diaz-Griffero, F., Ivanov, D. N., and Yeager, M. (2014) Structural basis of HIV-1 capsid recognition by PF74 and CPSF6. Proc Natl Acad Sci U S A. 111, 18625-30
Babayeva, N. D., Baranovskaya, O. I., and Tahirov, T. H. (2012) Structural basis of Ets1 cooperative binding to widely separated sites on promoter DNA. PLoS One. 7, e33698
Babayeva, N. D., Wilder, P. J., Shiina, M., Mino, K., Desler, M., Ogata, K., Rizzino, A., and Tahirov, T. H. (2010) Structural basis of Ets1 cooperative binding to palindromic sequences on stromelysin-1 promoter DNA. Cell Cycle. 9, 3054-62
Shrivastava, T., Mino, K., Babayeva, N. D., Baranovskaya, O. I., Rizzino, A., and Tahirov, T. H. (2014) Structural basis of Ets1 activation by Runx1. Leukemia. 28, 2040-8
Goodman, K. Marie, Rubinstein, R., Thu, C. Aye, Bahna, F., Mannepalli, S., Ahlsen, G., Rittenhouse, C., Maniatis, T., Honig, B., and Shapiro, L. (2016) Structural Basis of Diverse Homophilic Recognition by Clustered α- and β-Protocadherins.. Neuron. 90, 709-23
Aleksandrova, E. V., J Y Wu, K., Tresco, B. I. C., Syroegin, E. A., Killeavy, E. E., Balasanyants, S. M., Svetlov, M. S., Gregory, S. T., Atkinson, G. C., Myers, A. G., and Polikanov, Y. S. (2024) Structural basis of Cfr-mediated antimicrobial resistance and mechanisms to evade it. Nat Chem Biol. 20, 867-876
Ji, X., Tang, C., Zhao, Q., Wang, W., and Xiong, Y. (2014) Structural basis of cellular dNTP regulation by SAMHD1. Proc Natl Acad Sci U S A. 111, E4305-14
Bogner, A. N., Stiers, K. M., McKay, C. M., Becker, D. F., and Tanner, J. J. (2021) Structural Basis for the Stereospecific Inhibition of the Dual Proline/Hydroxyproline Catabolic Enzyme ALDH4A1 by Trans-4-Hydroxy-L-Proline. Protein Sci. 10.1002/pro.4131
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
Chitrakar, I., Iuliano, J. N., He, Y. L., Woroniecka, H. A., Collado, J. Tolentino, Wint, J. M., Walker, S. G., Tonge, P. J., and French, J. B. (2020) Structural Basis for the Regulation of Biofilm Formation and Iron Uptake in by the Blue-Light-Using Photoreceptor, BlsA. ACS Infect Dis. 6, 2592-2603
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

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