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Westblade, L. F., Campbell, E. A., Pukhrambam, C., Padovan, J. C., Nickels, B. E., Lamour, V., and Darst, S. A. (2010) Structural basis for the bacterial transcription-repair coupling factor/RNA polymerase interaction. Nucleic Acids Res. 38, 8357-69
Syroegin, E. A., Flemmich, L., Klepacki, D., Vázquez-Laslop, N., Micura, R., and Polikanov, Y. S. (2022) Structural basis for the context-specific action of the classic peptidyl transferase inhibitor chloramphenicol. Nat Struct Mol Biol. 29, 152-161
Cuello, L. G., Jogini, V., D Cortes, M., Pan, A. C., Gagnon, D. G., Dalmas, O., Cordero-Morales, J. F., Chakrapani, S., Roux, B., and Perozo, E. (2010) Structural basis for the coupling between activation and inactivation gates in K(+) channels. Nature. 466, 272-5
Cuello, L. G., Jogini, V., D Cortes, M., Pan, A. C., Gagnon, D. G., Dalmas, O., Cordero-Morales, J. F., Chakrapani, S., Roux, B., and Perozo, E. (2010) Structural basis for the coupling between activation and inactivation gates in K(+) channels. Nature. 466, 272-5
Syroegin, E. A., Aleksandrova, E. V., and Polikanov, Y. S. (2022) Structural basis for the inability of chloramphenicol to inhibit peptide bond formation in the presence of A-site glycine. Nucleic Acids Res. 50, 7669-7679
Delmar, J. A., Chou, T. - H., Wright, C. C., Licon, M. H., Doh, J. K., Radhakrishnan, A., Kumar, N., Lei, H. - T., Bolla, J. Reddy, Rajashankar, K. R., Su, C. - C., Purdy, G. E., and Yu, E. W. (2015) Structural Basis for the Regulation of the MmpL Transporters of Mycobacterium tuberculosis. J Biol Chem. 290, 28559-74
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
Silverstein, T. D., Johnson, R. E., Jain, R., Prakash, L., Prakash, S., and Aggarwal, A. K. (2010) Structural basis for the suppression of skin cancers by DNA polymerase eta. Nature. 465, 1039-43
Silverstein, T. D., Johnson, R. E., Jain, R., Prakash, L., Prakash, S., and Aggarwal, A. K. (2010) Structural basis for the suppression of skin cancers by DNA polymerase eta. Nature. 465, 1039-43
Peisley, A., Wu, B., Xu, H., Chen, Z. J., and Hur, S. (2014) Structural basis for ubiquitin-mediated antiviral signal activation by RIG-I. Nature. 509, 110-4
Omattage, N. S., Deng, Z., Pinkner, J. S., Dodson, K. W., Almqvist, F., Yuan, P., and Hultgren, S. J. (2018) Structural basis for usher activation and intramolecular subunit transfer in P pilus biogenesis in Escherichia coli. Nat Microbiol. 10.1038/s41564-018-0255-y
Zong, Y., Zhang, B., Gu, S., Lee, K., Zhou, J., Yao, G., Figueiredo, D., Perry, K., Mei, L., and Jin, R. (2012) Structural basis of agrin-LRP4-MuSK signaling. Genes Dev. 26, 247-58
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
Zhang, Z., Yan, Y., Pang, J., Dai, L., Zhang, Q., and Yu, E. W. (2024) Structural basis of DNA recognition of the CosR regulator. mBio. 15, e0343023
Rechkoblit, O., Johnson, R. E., Gupta, Y. K., Prakash, L., Prakash, S., and Aggarwal, A. K. (2021) Structural basis of DNA synthesis opposite 8-oxoguanine by human PrimPol primase-polymerase. Nat Commun. 12, 4020
Rechkoblit, O., Johnson, R. E., Gupta, Y. K., Prakash, L., Prakash, S., and Aggarwal, A. K. (2021) Structural basis of DNA synthesis opposite 8-oxoguanine by human PrimPol primase-polymerase. Nat Commun. 12, 4020
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
Kumar, S., Athreya, A., Gulati, A., Nair, R. Mony, Mahendran, I., Ranjan, R., and Penmatsa, A. (2021) Structural basis of inhibition of a transporter from Staphylococcus aureus, NorC, through a single-domain camelid antibody. Commun Biol. 4, 836
Simanshu, D. K., Yamaguchi, Y., Park, J. - H., Inouye, M., and Patel, D. J. (2013) Structural basis of mRNA recognition and cleavage by toxin MazF and its regulation by antitoxin MazE in Bacillus subtilis. Mol Cell. 52, 447-58
Simanshu, D. K., Yamaguchi, Y., Park, J. - H., Inouye, M., and Patel, D. J. (2013) Structural basis of mRNA recognition and cleavage by toxin MazF and its regulation by antitoxin MazE in Bacillus subtilis. Mol Cell. 52, 447-58
Pidathala, S., Mallela, A. Kumar, Joseph, D., and Penmatsa, A. (2021) Structural basis of norepinephrine recognition and transport inhibition in neurotransmitter transporters. Nat Commun. 12, 2199
Pidathala, S., Mallela, A. Kumar, Joseph, D., and Penmatsa, A. (2021) Structural basis of norepinephrine recognition and transport inhibition in neurotransmitter transporters. Nat Commun. 12, 2199
Kumar, S., Zavaliev, R., Wu, Q., Zhou, Y., Cheng, J., Dillard, L., Powers, J., Withers, J., Zhao, J., Guan, Z., Borgnia, M. J., Bartesaghi, A., Dong, X., and Zhou, P. (2022) Structural basis of NPR1 in activating plant immunity. Nature. 605, 561-566
Hirano, Y., Gao, Y. - G., Stephenson, D. J., Vu, N. T., Malinina, L., Simanshu, D. K., Chalfant, C. E., Patel, D. J., and Brown, R. E. (2019) Structural basis of phosphatidylcholine recognition by the C2-domain of cytosolic phospholipase Aα.. Elife. 10.7554/eLife.44760
Dempsey, D. R., Viennet, T., Iwase, R., Park, E., Henriquez, S., Chen, Z., Jeliazkov, J. R., Palanski, B. A., Phan, K. L., Coote, P., Gray, J. J., Eck, M. J., Gabelli, S. B., Arthanari, H., and Cole, P. A. (2021) The structural basis of PTEN regulation by multi-site phosphorylation. Nat Struct Mol Biol. 28, 858-868

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