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Hitosugi, T., Zhou, L., Fan, J., Elf, S., Zhang, L., Xie, J., Wang, Y., Gu, T. - L., Alečković, M., LeRoy, G., Kang, Y., Kang, H. - B., Seo, J. - H., Shan, C., Jin, P., Gong, W., Lonial, S., Arellano, M. L., Khoury, H. J., Chen, G. Z., Shin, D. M., Khuri, F. R., Boggon, T. J., Kang, S., He, C., and Chen, J. (2013) Tyr26 phosphorylation of PGAM1 provides a metabolic advantage to tumours by stabilizing the active conformation. Nat Commun. 4, 1790
Hitosugi, T., Zhou, L., Fan, J., Elf, S., Zhang, L., Xie, J., Wang, Y., Gu, T. - L., Alečković, M., LeRoy, G., Kang, Y., Kang, H. - B., Seo, J. - H., Shan, C., Jin, P., Gong, W., Lonial, S., Arellano, M. L., Khoury, H. J., Chen, G. Z., Shin, D. M., Khuri, F. R., Boggon, T. J., Kang, S., He, C., and Chen, J. (2013) Tyr26 phosphorylation of PGAM1 provides a metabolic advantage to tumours by stabilizing the active conformation. Nat Commun. 4, 1790
Hitosugi, T., Zhou, L., Fan, J., Elf, S., Zhang, L., Xie, J., Wang, Y., Gu, T. - L., Alečković, M., LeRoy, G., Kang, Y., Kang, H. - B., Seo, J. - H., Shan, C., Jin, P., Gong, W., Lonial, S., Arellano, M. L., Khoury, H. J., Chen, G. Z., Shin, D. M., Khuri, F. R., Boggon, T. J., Kang, S., He, C., and Chen, J. (2013) Tyr26 phosphorylation of PGAM1 provides a metabolic advantage to tumours by stabilizing the active conformation. Nat Commun. 4, 1790
Hitosugi, T., Zhou, L., Fan, J., Elf, S., Zhang, L., Xie, J., Wang, Y., Gu, T. - L., Alečković, M., LeRoy, G., Kang, Y., Kang, H. - B., Seo, J. - H., Shan, C., Jin, P., Gong, W., Lonial, S., Arellano, M. L., Khoury, H. J., Chen, G. Z., Shin, D. M., Khuri, F. R., Boggon, T. J., Kang, S., He, C., and Chen, J. (2013) Tyr26 phosphorylation of PGAM1 provides a metabolic advantage to tumours by stabilizing the active conformation. Nat Commun. 4, 1790
Hitosugi, T., Zhou, L., Fan, J., Elf, S., Zhang, L., Xie, J., Wang, Y., Gu, T. - L., Alečković, M., LeRoy, G., Kang, Y., Kang, H. - B., Seo, J. - H., Shan, C., Jin, P., Gong, W., Lonial, S., Arellano, M. L., Khoury, H. J., Chen, G. Z., Shin, D. M., Khuri, F. R., Boggon, T. J., Kang, S., He, C., and Chen, J. (2013) Tyr26 phosphorylation of PGAM1 provides a metabolic advantage to tumours by stabilizing the active conformation. Nat Commun. 4, 1790
Ha, B. Hak, Davis, M. J., Chen, C., Lou, H. Jane, Gao, J., Zhang, R., Krauthammer, M., Halaban, R., Schlessinger, J., Turk, B. E., and Boggon, T. J. (2012) Type II p21-activated kinases (PAKs) are regulated by an autoinhibitory pseudosubstrate. Proc Natl Acad Sci U S A. 109, 16107-12
Mishra, A., Devarajan, B., Reardon, M. E., Dwivedi, P., Krishnan, V., Cisar, J. O., Das, A., Narayana, S. V. L., and Ton-That, H. (2011) Two autonomous structural modules in the fimbrial shaft adhesin FimA mediate Actinomyces interactions with streptococci and host cells during oral biofilm development. Mol Microbiol. 81, 1205-20
Bassetto, M., Zaluski, J., Li, B., Zhang, J., Badiee, M., Kiser, P. D., and Tochtrop, G. P. (2023) Tuning the Metabolic Stability of Visual Cycle Modulators through Modification of an RPE65 Recognition Motif. J Med Chem. 66, 8140-8158
Golani, L. K., Wallace-Povirk, A., Deis, S. M., Wong, J., Ke, J., Gu, X., Raghavan, S., Wilson, M. R., Li, X., Polin, L., de Waal, P. W., White, K., Kushner, J., O'Connor, C., Hou, Z., H Xu, E., Melcher, K., Dann, C. E., Matherly, L. H., and Gangjee, A. (2016) Tumor Targeting with Novel 6-Substituted Pyrrolo [2,3-d] Pyrimidine Antifolates with Heteroatom Bridge Substitutions via Cellular Uptake by Folate Receptor α and the Proton-Coupled Folate Transporter and Inhibition of de Novo Purine Nucleotide Biosynthes. J Med Chem. 59, 7856-76
Golani, L. K., Wallace-Povirk, A., Deis, S. M., Wong, J., Ke, J., Gu, X., Raghavan, S., Wilson, M. R., Li, X., Polin, L., de Waal, P. W., White, K., Kushner, J., O'Connor, C., Hou, Z., H Xu, E., Melcher, K., Dann, C. E., Matherly, L. H., and Gangjee, A. (2016) Tumor Targeting with Novel 6-Substituted Pyrrolo [2,3-d] Pyrimidine Antifolates with Heteroatom Bridge Substitutions via Cellular Uptake by Folate Receptor α and the Proton-Coupled Folate Transporter and Inhibition of de Novo Purine Nucleotide Biosynthes. J Med Chem. 59, 7856-76
Grigg, J. C., Price, I. R., and Ke, A. (2022) tRNA Fusion to Streamline RNA Structure Determination: Case Studies in Probing Aminoacyl-tRNA Sensing Mechanisms by the T-Box Riboswitch. doi:10.3390/cryst12050694
Mondal, S., Jacoby, G., Sawaya, M. R., Arnon, Z. A., Adler-Abramovich, L., Rehak, P., Vuković, L., Shimon, L. J. W., Král, P., Beck, R., and Gazit, E. (2018) Transition of metastable cross-α crystals into cross-β fibrils by β-turn flipping.. J Am Chem Soc. 10.1021/jacs.8b10289
Shigdel, U. K., Ovchinnikov, V., Lee, S. - J., Shih, J. A., Karplus, M., Nam, K., and Verdine, G. L. (2020) The trajectory of intrahelical lesion recognition and extrusion by the human 8-oxoguanine DNA glycosylase. Nat Commun. 11, 4437
Soragni, A., Yousefi, S., Stoeckle, C., Soriaga, A. B., Sawaya, M. R., Kozlowski, E., Schmid, I., Radonjic-Hoesli, S., Boutet, S., Williams, G. J., Messerschmidt, M., M Seibert, M., Cascio, D., Zatsepin, N. A., Burghammer, M., Riekel, C., Colletier, J. - P., Riek, R., Eisenberg, D. S., and Simon, H. - U. (2015) Toxicity of eosinophil MBP is repressed by intracellular crystallization and promoted by extracellular aggregation. Mol Cell. 57, 1011-21
Kamtekar, S., Hohn, M. J., Park, H. - S., Schnitzbauer, M., Sauerwald, A., Söll, D., and Steitz, T. A. (2007) Toward understanding phosphoseryl-tRNACys formation: the crystal structure of Methanococcus maripaludis phosphoseryl-tRNA synthetase. Proc Natl Acad Sci U S A. 104, 2620-5
Mandal, K., and Kent, S. B. H. (2011) Total chemical synthesis of biologically active vascular endothelial growth factor. Angew Chem Int Ed Engl. 50, 8029-33
Zhao, S., Lu, J., Pan, B., Fan, H., Byrum, S. D., Xu, C., Kim, A., Guo, Y., Kanchi, K. L., Gong, W., Sun, T., Storey, A. J., Burkholder, N. T., Mackintosh, S. G., Kuhlers, P. C., Edmondson, R. D., Strahl, B. D., Diao, Y., Tackett, A. J., Raab, J. R., Cai, L., Song, J., and Wang, G. Greg (2023) TNRC18 engages H3K9me3 to mediate silencing of endogenous retrotransposons. Nature. 623, 633-642
Zhao, S., Lu, J., Pan, B., Fan, H., Byrum, S. D., Xu, C., Kim, A., Guo, Y., Kanchi, K. L., Gong, W., Sun, T., Storey, A. J., Burkholder, N. T., Mackintosh, S. G., Kuhlers, P. C., Edmondson, R. D., Strahl, B. D., Diao, Y., Tackett, A. J., Raab, J. R., Cai, L., Song, J., and Wang, G. Greg (2023) TNRC18 engages H3K9me3 to mediate silencing of endogenous retrotransposons. Nature. 623, 633-642
Zhao, S., Lu, J., Pan, B., Fan, H., Byrum, S. D., Xu, C., Kim, A., Guo, Y., Kanchi, K. L., Gong, W., Sun, T., Storey, A. J., Burkholder, N. T., Mackintosh, S. G., Kuhlers, P. C., Edmondson, R. D., Strahl, B. D., Diao, Y., Tackett, A. J., Raab, J. R., Cai, L., Song, J., and Wang, G. Greg (2023) TNRC18 engages H3K9me3 to mediate silencing of endogenous retrotransposons. Nature. 623, 633-642
Koirala, S., Klein, J., Zheng, Y., Glenn, N. O., Eisemann, T., Tacer, K. Fon, Miller, D. J., Kulak, O., Lu, M., Finkelstein, D. B., Neale, G., Tillman, H., Vogel, P., Strand, D. W., Lum, L., Brautigam, C. A., Pascal, J. M., Clements, W. K., and Potts, P. Ryan (2020) Tissue-Specific Regulation of the Wnt/β-Catenin Pathway by PAGE4 Inhibition of Tankyrase.. Cell Rep. 32, 107922

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