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Aguilar, E. N., Sagar, S., Murray, B. R., Rajesh, C., Lei, E. K., Michaud, S. A., Goodlett, D. R., Caffrey, T. C., Grandgenett, P. M., Swanson, B., Brooks, T. M., Black, A. R., van Faassen, H., Hussack, G., Henry, K. A., Hollingsworth, M. A., Brooks, C. L., and Radhakrishnan, P. (2024) Structural Basis for Multivalent MUC16 Recognition and Robust Anti-Pancreatic Cancer Activity of Humanized Antibody AR9.6. Mol Cancer Ther. 23, 836-853
Chen, L., Lin, Y. - L., Peng, G., and Li, F. (2012) Structural basis for multifunctional roles of mammalian aminopeptidase N. Proc Natl Acad Sci U S A. 109, 17966-71
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
M Puno, R., and Lima, C. D. (2018) Structural basis for MTR4-ZCCHC8 interactions that stimulate the MTR4 helicase in the nuclear exosome-targeting complex. Proc Natl Acad Sci U S A. 10.1073/pnas.1803530115
Zhang, W., Shi, K., Hsueh, F. - C., Mendoza, A., Ye, G., Huang, L., Perlman, S., Aihara, H., and Li, F. (2024) Structural basis for mouse receptor recognition by bat SARS2-like coronaviruses. Proc Natl Acad Sci U S A. 121, e2322600121
Ren, A., Wang, X. C., Kellenberger, C. A., Rajashankar, K. R., Jones, R. A., Hammond, M. C., and Patel, D. J. (2015) Structural basis for molecular discrimination by a 3',3'-cGAMP sensing riboswitch. Cell Rep. 11, 1-12
Schirle, N. T., Sheu-Gruttadauria, J., and MacRae, I. J. (2014) Structural basis for microRNA targeting. Science. 346, 608-13
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
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
Emptage, R. P., Lemmon, M. A., Ferguson, K. M., and Marmorstein, R. (2018) Structural Basis for MARK1 Kinase Autoinhibition by Its KA1 Domain. Structure. 26, 1137-1143.e3
Dharmaiah, S., Bonsor, D. A., Mo, S. P., Fernandez-Cabrera, A., Chan, A. H., Messing, S., Drew, M., Vega, M., Nissley, D. V., Esposito, D., Castel, P., and Simanshu, D. K. (2025) Structural basis for LZTR1 recognition of RAS GTPases for degradation. Science. 389, 1112-1117
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
Lyu, J., Liu, C., Zhang, T., Schrecke, S., Elam, N. P., Packianathan, C., Hochberg, G. K. A., Russell, D., Zhao, M., and Laganowsky, A. (2022) Structural basis for lipid and copper regulation of the ABC transporter MsbA. Nat Commun. 13, 7291
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
Reiss, C. W., and Strobel, S. A. (2017) Structural basis for ligand binding to the guanidine-II riboswitch. RNA. 23, 1338-1343
Reiss, C. W., Xiong, Y., and Strobel, S. A. (2017) Structural Basis for Ligand Binding to the Guanidine-I Riboswitch. Structure. 25, 195-202
Saxton, R. A., Knockenhauer, K. E., Wolfson, R. L., Chantranupong, L., Pacold, M. E., Wang, T., Schwartz, T. U., and Sabatini, D. M. (2016) Structural basis for leucine sensing by the Sestrin2-mTORC1 pathway. Science. 351, 53-8
Polley, S., Bin Huang, D. -, Hauenstein, A. V., Fusco, A. J., Zhong, X., Vu, D., Schröfelbauer, B., Kim, Y., Hoffmann, A., Verma, I. M., Ghosh, G., and Huxford, T. (2013) A structural basis for IκB kinase 2 activation via oligomerization-dependent trans auto-phosphorylation.. PLoS Biol. 11, e1001581
Zhang, X., Eser, B. E., Chanani, P. K., Begley, T. P., and Ealick, S. E. (2016) Structural Basis for Iron-Mediated Sulfur Transfer in Archael and Yeast Thiazole Synthases. Biochemistry. 55, 1826-38
Heppner, D. E., Wittlinger, F., Beyett, T. S., Shaurova, T., Urul, D. A., Buckley, B., Pham, C. D., Schaeffner, I. K., Yang, B., Ogboo, B. C., May, E. W., Schaefer, E. M., Eck, M. J., Laufer, S. A., and Hershberger, P. A. (2022) Structural Basis for Inhibition of Mutant EGFR with Lazertinib (YH25448). ACS Med Chem Lett. 13, 1856-1863
Bu, W., Settembre, E. C., Kouni, M. H. el, and Ealick, S. E. (2005) Structural basis for inhibition of Escherichia coli uridine phosphorylase by 5-substituted acyclouridines. Acta Crystallogr D Biol Crystallogr. 61, 863-72
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
Ren, X., Gelinas, A. D., von Carlowitz, I., Janjic, N., and Pyle, A. Marie (2017) Structural basis for IL-1α recognition by a modified DNA aptamer that specifically inhibits IL-1α signaling.. Nat Commun. 8, 810
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
Horton, J. R., Upadhyay, A. K., Hashimoto, H., Zhang, X., and Cheng, X. (2011) Structural basis for human PHF2 Jumonji domain interaction with metal ions. J Mol Biol. 406, 1-8

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