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Cavalier, M. C., Kim, S. - G., Neau, D., and Lee, Y. - H. (2012) Molecular basis of the fructose-2,6-bisphosphatase reaction of PFKFB3: transition state and the C-terminal function. Proteins. 80, 1143-53
Cheng, S., Ashley, J., Kurleto, J. D., Lobb-Rabe, M., Park, Y. Jenny, Carrillo, R. A., and zkan, E. Ö. (2019) Molecular basis of synaptic specificity by immunoglobulin superfamily receptors in . Elife. 10.7554/eLife.41028
Román-Hernández, G., Grant, R. A., Sauer, R. T., and Baker, T. A. (2009) Molecular basis of substrate selection by the N-end rule adaptor protein ClpS. Proc Natl Acad Sci U S A. 106, 8888-93
Goodman, K. M., Yamagata, M., Jin, X., Mannepalli, S., Katsamba, P. S., Ahlsen, G., Sergeeva, A. P., Honig, B., Sanes, J. R., and Shapiro, L. (2016) Molecular basis of sidekick-mediated cell-cell adhesion and specificity. Elife. 10.7554/eLife.19058
Albright, R. A., Ornstein, D. L., Cao, W., Chang, W. C., Robert, D., Tehan, M., Hoyer, D., Liu, L., Stabach, P., Yang, G., De La Cruz, E. M., and Braddock, D. T. (2014) Molecular basis of purinergic signal metabolism by ectonucleotide pyrophosphatase/phosphodiesterases 4 and 1 and implications in stroke. J Biol Chem. 289, 3294-306
Wang, K. H., Román-Hernández, G., Grant, R. A., Sauer, R. T., and Baker, T. A. (2008) The molecular basis of N-end rule recognition. Mol Cell. 32, 406-14
Dong, C., Zhang, H., Li, L., Tempel, W., Loppnau, P., and Min, J. (2018) Molecular basis of GID4-mediated recognition of degrons for the Pro/N-end rule pathway. Nat Chem Biol. 14, 466-473
Dawson, C. D., Irwin, S. M., Backman, L. R. F., Le, C., Wang, J. X., Vennelakanti, V., Yang, Z., Kulik, H. J., Drennan, C. L., and Balskus, E. P. (2021) Molecular basis of C-S bond cleavage in the glycyl radical enzyme isethionate sulfite-lyase. Cell Chem Biol. 10.1016/j.chembiol.2021.03.001
Srivastava, D., Gowribidanur-Chinnaswamy, P., Gaur, P., Spies, M., Swaroop, A., and Artemyev, N. O. (2024) Molecular basis of CRX/DNA recognition and stoichiometry at the Ret4 response element. Structure. 10.1016/j.str.2024.07.004
Dowling, D. P., Miles, Z. D., Köhrer, C., Maiocco, S. J., Elliott, S. J., Bandarian, V., and Drennan, C. L. (2016) Molecular basis of cobalamin-dependent RNA modification. Nucleic Acids Res. 44, 9965-9976
Bodea, S., Funk, M. A., Balskus, E. P., and Drennan, C. L. (2016) Molecular Basis of C-N Bond Cleavage by the Glycyl Radical Enzyme Choline Trimethylamine-Lyase. Cell Chem Biol. 23, 1206-1216
Govande, A. A., Duncan-Lowey, B., Eaglesham, J. B., Whiteley, A. T., and Kranzusch, P. J. (2021) Molecular basis of CD-NTase nucleotide selection in CBASS anti-phage defense. Cell Rep. 35, 109206
Yan, X., Wang, X., Li, Y., Zhou, M., Li, Y., Song, L., Mi, W., Min, J., and Dong, C. (2021) Molecular basis for ubiquitin ligase CRL2-mediated recognition of C-degron. Nat Chem Biol. 10.1038/s41589-020-00703-4
Lin, S. - C., Chung, J. Y., Lamothe, B., Rajashankar, K., Lu, M., Lo, Y. - C., Lam, A. Y., Darnay, B. G., and Wu, H. (2008) Molecular basis for the unique deubiquitinating activity of the NF-kappaB inhibitor A20. J Mol Biol. 376, 526-40
Porter, N. J., Shen, S., Barinka, C., Kozikowski, A. P., and Christianson, D. W. (2018) Molecular Basis for the Selective Inhibition of Histone Deacetylase 6 by a Mercaptoacetamide Inhibitor. ACS Med Chem Lett. 9, 1301-1305
Zhang, Y., Shan, C. - M., Wang, J., Bao, K., Tong, L., and Jia, S. (2017) Molecular basis for the role of oncogenic histone mutations in modulating H3K36 methylation. Sci Rep. 7, 43906
Dias, S. M. G., Wilson, K. F., Rojas, K. S., Ambrosio, A. L. B., and Cerione, R. A. (2009) The molecular basis for the regulation of the cap-binding complex by the importins. Nat Struct Mol Biol. 16, 930-7
Silvaroli, J. A., Plau, J., Adams, C. H., Banerjee, S., Widjaja-Adhi, M. Airanthi K., Blaner, W. S., and Golczak, M. (2021) Molecular basis for the interaction of cellular retinol-binding protein 2 (CRBP2) with non-retinoid ligands. J Lipid Res. 10.1016/j.jlr.2021.100054
Wu, Y., Albrecht, T. R., Baillat, D., Wagner, E. J., and Tong, L. (2017) Molecular basis for the interaction between Integrator subunits IntS9 and IntS11 and its functional importance. Proc Natl Acad Sci U S A. 114, 4394-4399
Montemayor, E. J., Virta, J. M., Hayes, S. M., Nomura, Y., Brow, D. A., and Butcher, S. E. (2020) Molecular basis for the distinct cellular functions of the Lsm1-7 and Lsm2-8 complexes. RNA. 10.1261/rna.075879.120
Mulvaney, K. M., Blomquist, C., Acharya, N., Li, R., Ranaghan, M. J., O'Keefe, M., Rodriguez, D. J., Young, M. J., Kesar, D., Pal, D., Stokes, M., Nelson, A. J., Jain, S. S., Yang, A., Mullin-Bernstein, Z., Columbus, J., Bozal, F. K., Skepner, A., Raymond, D., LaRussa, S., McKinney, D. C., Freyzon, Y., Baidi, Y., Porter, D., Aguirre, A. J., Ianari, A., McMillan, B., and Sellers, W. R. (2021) Molecular basis for substrate recruitment to the PRMT5 methylosome. Mol Cell. 81, 3481-3495.e7
Horenkamp, F. A., Valverde, D. P., Nunnari, J., and Reinisch, K. M. (2018) Molecular basis for sterol transport by StART-like lipid transfer domains. EMBO J. 10.15252/embj.201798002
Li, H., Ilin, S., Wang, W., Duncan, E. M., Wysocka, J., C Allis, D., and Patel, D. J. (2006) Molecular basis for site-specific read-out of histone H3K4me3 by the BPTF PHD finger of NURF. Nature. 442, 91-5
Das, A., Hand, T. H., Smith, C. L., Wickline, E., Zawrotny, M., and Li, H. (2020) The molecular basis for recognition of 5'-NNNCC-3' PAM and its methylation state by Acidothermus cellulolyticus Cas9. Nat Commun. 11, 6346
Bilokapic, S., and Schwartz, T. U. (2012) Molecular basis for Nup37 and ELY5/ELYS recruitment to the nuclear pore complex. Proc Natl Acad Sci U S A. 109, 15241-6

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