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Hayes, R. P., Xiao, Y., Ding, F., van Erp, P. B. G., Rajashankar, K., Bailey, S., Wiedenheft, B., and Ke, A. (2016) Structural basis for promiscuous PAM recognition in type I-E Cascade from E. coli. Nature. 530, 499-503
Zuo, Y., Vincent, H. A., Zhang, J., Wang, Y., Deutscher, M. P., and Malhotra, A. (2006) Structural basis for processivity and single-strand specificity of RNase II. Mol Cell. 24, 149-56
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
Li, J., Ma, X., Banerjee, S., Baruah, S., Schnicker, N. J., Roh, E., Ma, W., Liu, K., Bode, A. M., and Dong, Z. (2020) Structural basis for multifunctional roles of human Ints3 C-terminal domain. J Biol Chem. 10.1074/jbc.RA120.016393
Born, D. A., Ulrich, E. C., San Ju, K. -, Peck, S. C., van der Donk, W. A., and Drennan, C. L. (2017) Structural basis for methylphosphonate biosynthesis. Science. 358, 1336-1339
Li, H., Fischle, W., Wang, W., Duncan, E. M., Liang, L., Murakami-Ishibe, S., C Allis, D., and Patel, D. J. (2007) Structural basis for lower lysine methylation state-specific readout by MBT repeats of L3MBTL1 and an engineered PHD finger. Mol Cell. 28, 677-91
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
Jost, M., Fernández-Zapata, J., Polanco, M. Carmen, Ortiz-Guerrero, J. Manuel, Chen, P. Yang- Ting, Kang, G., Padmanabhan, S., Elías-Arnanz, M., and Drennan, C. L. (2015) Structural basis for gene regulation by a B12-dependent photoreceptor. Nature. 526, 536-41
Prew, M. S., Camara, C. M., Botzanowski, T., Moroco, J. A., Bloch, N. B., Levy, H. R., Seo, H. - S., Dhe-Paganon, S., Bird, G. H., Herce, H. D., Gygi, M. A., Escudero, S., Wales, T. E., Engen, J. R., and Walensky, L. D. (2022) Structural basis for defective membrane targeting of mutant enzyme in human VLCAD deficiency. Nat Commun. 13, 3669
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
Dufrisne, M. Belcher, Petrou, V. I., Clarke, O. B., and Mancia, F. (2017) Structural basis for catalysis at the membrane-water interface. Biochim Biophys Acta Mol Cell Biol Lipids. 1862, 1368-1385
Daruwalla, A., Zhang, J., Lee, H. Jun, Khadka, N., Farquhar, E. R., Shi, W., von Lintig, J., and Kiser, P. D. (2020) Structural basis for carotenoid cleavage by an archaeal carotenoid dioxygenase. Proc Natl Acad Sci U S A. 117, 19914-19925
Ramagopal, U. A., Liu, W., Garrett-Thomson, S. C., Bonanno, J. B., Yan, Q., Srinivasan, M., Wong, S. C., Bell, A., Mankikar, S., Rangan, V. S., Deshpande, S., Korman, A. J., and Almo, S. C. (2017) Structural basis for cancer immunotherapy by the first-in-class checkpoint inhibitor ipilimumab. Proc Natl Acad Sci U S A. 114, E4223-E4232
Liu, Z., Lee, P. - G., Krez, N., Lam, K. - H., Liu, H., Przykopanski, A., Chen, P., Yao, G., Zhang, S., Tremblay, J. M., Perry, K., Shoemaker, C. B., Rummel, A., Dong, M., and Jin, R. (2023) Structural basis for botulinum neurotoxin E recognition of synaptic vesicle protein 2. Nat Commun. 14, 2338
Deaconescu, A. M., Chambers, A. L., Smith, A. J., Nickels, B. E., Hochschild, A., Savery, N. J., and Darst, S. A. (2006) Structural basis for bacterial transcription-coupled DNA repair. Cell. 124, 507-20
Deaconescu, A. M., Chambers, A. L., Smith, A. J., Nickels, B. E., Hochschild, A., Savery, N. J., and Darst, S. A. (2006) Structural basis for bacterial transcription-coupled DNA repair. Cell. 124, 507-20
Yu, X., Seegar, T. C. M., Dalton, A. C., Tzvetkova-Robev, D., Goldgur, Y., Rajashankar, K. R., Nikolov, D. B., and Barton, W. A. (2013) Structural basis for angiopoietin-1-mediated signaling initiation. Proc Natl Acad Sci U S A. 110, 7205-10
Fairman, J. Wesley, Wijerathna, S. Ranjan, Ahmad, M. Faiz, Xu, H., Nakano, R., Jha, S., Prendergast, J., R Welin, M., Flodin, S., Roos, A., Nordlund, P., Li, Z., Walz, T., and Dealwis, C. Godfrey (2011) Structural basis for allosteric regulation of human ribonucleotide reductase by nucleotide-induced oligomerization. Nat Struct Mol Biol. 18, 316-22
Cai, Y., Chin, H. F., Lazarova, D., Menon, S., Fu, C., Cai, H., Sclafani, A., Rodgers, D. W., De La Cruz, E. M., Ferro-Novick, S., and Reinisch, K. M. (2008) The structural basis for activation of the Rab Ypt1p by the TRAPP membrane-tethering complexes. Cell. 133, 1202-13
Malakhova, M., Tereshko, V., Lee, S. - Y., Yao, K., Cho, Y. - Y., Bode, A., and Dong, Z. (2008) Structural basis for activation of the autoinhibitory C-terminal kinase domain of p90 RSK2. Nat Struct Mol Biol. 15, 112-3
Das, N. Krishna, Vogt, J., Patel, A., Banna, H. Al, and Koirala, D. (2024) Structural basis for a highly conserved RNA-mediated enteroviral genome replication. Nucleic Acids Res. 10.1093/nar/gkae627
Grell, T. A. J., Kincannon, W. M., Bruender, N. A., Blaesi, E. J., Krebs, C., Bandarian, V., and Drennan, C. L. (2018) Structural and spectroscopic analyses of the sporulation killing factor biosynthetic enzyme SkfB, a bacterial AdoMet radical sactisynthase. J Biol Chem. 10.1074/jbc.RA118.005369
Maiti, A., Buffalo, C. Z., Saurabh, S., Montecinos-Franjola, F., Hachey, J. S., Conlon, W. J., Tran, G. N., Hassan, B., Walters, K. J., Drobizhev, M., Moerner, W. E., Ghosh, P., Matsuo, H., Tsien, R. Y., Lin, J. Y., and Rodriguez, E. A. (2023) Structural and photophysical characterization of the small ultra-red fluorescent protein. Nat Commun. 14, 4155

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