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Cavalier, M. C., Yim, Y. - S., Asamizu, S., Neau, D., Almabruk, K. H., Mahmud, T., and Lee, Y. - H. (2012) Mechanistic insights into validoxylamine A 7'-phosphate synthesis by VldE using the structure of the entire product complex. PLoS One. 7, e44934
Melnikov, S. V., Khabibullina, N. F., Mairhofer, E., Vargas-Rodriguez, O., Reynolds, N. M., Micura, R., Söll, D., and Polikanov, Y. S. (2018) Mechanistic insights into the slow peptide bond formation with D-amino acids in the ribosomal active site. Nucleic Acids Res. 10.1093/nar/gky1211
Matsuyama, B. Y., Krasteva, P. V., Baraquet, C., Harwood, C. S., Sondermann, H., and Navarro, M. V. A. S. (2016) Mechanistic insights into c-di-GMP-dependent control of the biofilm regulator FleQ from Pseudomonas aeruginosa. Proc Natl Acad Sci U S A. 113, E209-18
Jensen, J. L., Balbo, A., Neau, D. B., Chakravarthy, S., Zhao, H., Sinha, S. C., and Colbert, C. L. (2015) Mechanistic Implications of the Unique Structural Features and Dimerization of the Cytoplasmic Domain of the Pseudomonas Sigma Regulator, PupR. Biochemistry. 54, 5867-77
Grossmann, N., Vakkasoglu, A. S., Hulpke, S., Abele, R., Gaudet, R., and Tampé, R. (2014) Mechanistic determinants of the directionality and energetics of active export by a heterodimeric ABC transporter. Nat Commun. 5, 5419
Liou, G., Chiang, Y. - C., Wang, Y., and Weng, J. - K. (2018) Mechanistic basis for the evolution of chalcone synthase catalytic cysteine reactivity in land plants. J Biol Chem. 10.1074/jbc.RA118.005695
Fang, J., Jiang, J., Leichter, S. M., Liu, J., Biswal, M., Khudaverdyan, N., Zhong, X., and Song, J. (2022) Mechanistic basis for maintenance of CHG DNA methylation in plants. Nat Commun. 13, 3877
Youn, B., Kim, S. - J., Moinuddin, S. G. A., Lee, C., Bedgar, D. L., Harper, A. R., Davin, L. B., Lewis, N. G., and Kang, C. (2006) Mechanistic and structural studies of apoform, binary, and ternary complexes of the Arabidopsis alkenal double bond reductase At5g16970. J Biol Chem. 281, 40076-88
Adachi, M. S., Taylor, A. B., P Hart, J., and Fitzpatrick, P. F. (2012) Mechanistic and structural analyses of the roles of active site residues in yeast polyamine oxidase Fms1: characterization of the N195A and D94N enzymes. Biochemistry. 51, 8690-7
Adachi, M. S., Taylor, A. B., P Hart, J., and Fitzpatrick, P. F. (2012) Mechanistic and structural analyses of the role of His67 in the yeast polyamine oxidase Fms1. Biochemistry. 51, 4888-97
Ruangprasert, A., Maehigashi, T., Miles, S. J., Giridharan, N., Liu, J. X., and Dunham, C. M. (2014) Mechanisms of toxin inhibition and transcriptional repression by Escherichia coli DinJ-YafQ. J Biol Chem. 289, 20559-69
Geiger, T., Lara-Tejero, M., Xiong, Y., and Galán, J. E. (2020) Mechanisms of substrate recognition by a typhoid toxin secretion-associated muramidase. Elife. 10.7554/eLife.53473
Ubah, O. C., Lake, E. W., Gunaratne, G. S., Gallant, J. P., Fernie, M., Robertson, A. J., Marchant, J. S., Bold, T. D., Langlois, R. A., Matchett, W. E., Thiede, J. M., Shi, K., Yin, L., Moeller, N. H., Banerjee, S., Ferguson, L., Kovaleva, M., Porter, A. J., Aihara, H., LeBeau, A. M., and Barelle, C. J. (2021) Mechanisms of SARS-CoV-2 neutralization by shark variable new antigen receptors elucidated through X-ray crystallography. Nat Commun. 12, 7325
Yang, H., Jiang, X., Li, B., Yang, H. J., Miller, M., Yang, A., Dhar, A., and Pavletich, N. P. (2017) Mechanisms of mTORC1 activation by RHEB and inhibition by PRAS40. Nature. 552, 368-373
Wu, K., Peng, G., Wilken, M., Geraghty, R. J., and Li, F. (2012) Mechanisms of host receptor adaptation by severe acute respiratory syndrome coronavirus. J Biol Chem. 287, 8904-11
Kamadurai, H. B., Qiu, Y., Deng, A., Harrison, J. S., Macdonald, C., Actis, M., Rodrigues, P., Miller, D. J., Souphron, J., Lewis, S. M., Kurinov, I., Fujii, N., Hammel, M., Piper, R., Kuhlman, B., and Schulman, B. A. (2013) Mechanism of ubiquitin ligation and lysine prioritization by a HECT E3. Elife. 2, e00828
Hong, S., Sunita, S., Maehigashi, T., Hoffer, E. D., Dunkle, J. A., and Dunham, C. M. (2018) Mechanism of tRNA-mediated +1 ribosomal frameshifting. Proc Natl Acad Sci U S A. 10.1073/pnas.1809319115
Xiong, Y., and Steitz, T. A. (2004) Mechanism of transfer RNA maturation by CCA-adding enzyme without using an oligonucleotide template. Nature. 430, 640-5
Latorraca, N. R., Fastman, N. M., Venkatakrishnan, A. J., Frommer, W. B., Dror, R. O., and Feng, L. (2017) Mechanism of Substrate Translocation in an Alternating Access Transporter. Cell. 169, 96-107.e12
Lemma, B., Zhang, D., Vamisetti, G. B., Wentz, B. G., Suga, H., Brik, A., Lubkowski, J., and Fushman, D. (2023) Mechanism of selective recognition of Lys48-linked polyubiquitin by macrocyclic peptide inhibitors of proteasomal degradation. Nat Commun. 14, 7212
Brown, N. G., Watson, E. R., Weissmann, F., Jarvis, M. A., VanderLinden, R., Grace, C. R. R., Frye, J. J., Qiao, R., Dube, P., Petzold, G., Cho, S. Ei, Alsharif, O., Bao, J., Davidson, I. F., Zheng, J. J., Nourse, A., Kurinov, I., Peters, J. - M., Stark, H., and Schulman, B. A. (2014) Mechanism of polyubiquitination by human anaphase-promoting complex: RING repurposing for ubiquitin chain assembly. Mol Cell. 56, 246-260
Song, X., Jensen, M. Ø., Jogini, V., Stein, R. A., Lee, C. - H., Mchaourab, H. S., Shaw, D. E., and Gouaux, E. (2018) Mechanism of NMDA receptor channel block by MK-801 and memantine. Nature. 10.1038/s41586-018-0039-9
Matarlo, J. S., Evans, C. E., Sharma, I., Lavaud, L. J., Ngo, S. C., Shek, R., Rajashankar, K. R., French, J. B., Tan, D. S., and Tonge, P. J. (2015) Mechanism of MenE inhibition by acyl-adenylate analogues and discovery of novel antibacterial agents. Biochemistry. 54, 6514-6524
Sever, N., Miličić, G., Bodnar, N. O., Wu, X., and Rapoport, T. A. (2020) Mechanism of Lamellar Body Formation by Lung Surfactant Protein B. Mol Cell. 10.1016/j.molcel.2020.10.042
Roy, R. N., Lomakin, I. B., Gagnon, M. G., and Steitz, T. A. (2015) The mechanism of inhibition of protein synthesis by the proline-rich peptide oncocin. Nat Struct Mol Biol. 22, 466-9

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