Publications

Found 2777 results
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Chen, S., Wiewiora, R. P., Meng, F., Babault, N., Ma, A., Yu, W., Qian, K., Hu, H., Zou, H., Wang, J., Fan, S., Blum, G., Pittella-Silva, F., Beauchamp, K. A., Tempel, W., Jiang, H., Chen, K., Skene, R. J., Zheng, Y. George, Brown, P. J., Jin, J., Luo, C., Chodera, J. D., and Luo, M. (2019) The dynamic conformational landscape of the protein methyltransferase SETD8. Elife. 10.7554/eLife.45403
Swain, M., Ageeli, A. A., Kasprzak, W. K., Li, M., Miller, J. T., Sztuba-Solinska, J., Schneekloth, J. S., Koirala, D., Piccirili, J., Fraboni, A. J., Murelli, R. P., Wlodawer, A., Shapiro, B. A., Baird, N., and Le Grice, S. F. J. (2021) Dynamic bulge nucleotides in the KSHV PAN ENE triple helix provide a unique binding platform for small molecule ligands. Nucleic Acids Res. 49, 13179-13193
Fu, J. Y., Muroski, J. M., Arbing, M. A., Salguero, J. A., Wofford, N. Q., McInerney, M. J., Gunsalus, R. P., Loo, J. A., and Loo, R. R. Ogorzale (2022) Dynamic acylome reveals metabolite driven modifications in . Front Microbiol. 13, 1018220
Doamekpor, S. K., Grudzien-Nogalska, E., Mlynarska-Cieslak, A., Kowalska, J., Kiledjian, M., and Tong, L. (2020) DXO/Rai1 enzymes remove 5'-end FAD and dephospho-CoA caps on RNAs. Nucleic Acids Res. 48, 6136-6148
Yi, C., Chen, B., Qi, B., Zhang, W., Jia, G., Zhang, L., Li, C. J., Dinner, A. R., Yang, C. - G., and He, C. (2012) Duplex interrogation by a direct DNA repair protein in search of base damage. Nat Struct Mol Biol. 19, 671-6
Brown, N. G., VanderLinden, R., Watson, E. R., Weissmann, F., Ordureau, A., Wu, K. - P., Zhang, W., Yu, S., Mercredi, P. Y., Harrison, J. S., Davidson, I. F., Qiao, R., Lu, Y., Dube, P., Brunner, M. R., Grace, C. R. R., Miller, D. J., Haselbach, D., Jarvis, M. A., Yamaguchi, M., Yanishevski, D., Petzold, G., Sidhu, S. S., Kuhlman, B., Kirschner, M. W., J Harper, W., Peters, J. - M., Stark, H., and Schulman, B. A. (2016) Dual RING E3 Architectures Regulate Multiubiquitination and Ubiquitin Chain Elongation by APC/C. Cell. 165, 1440-1453
Remillard, D., Buckley, D. L., Seo, H. - S., Ferguson, F. M., Dhe-Paganon, S., Bradner, J. E., and Gray, N. S. (2019) Dual Inhibition of TAF1 and BET Bromodomains from the BI-2536 Kinase Inhibitor Scaffold. ACS Med Chem Lett. 10, 1443-1449
Rajakumara, E., Law, J. A., Simanshu, D. K., Voigt, P., Johnson, L. M., Reinberg, D., Patel, D. J., and Jacobsen, S. E. (2011) A dual flip-out mechanism for 5mC recognition by the Arabidopsis SUVH5 SRA domain and its impact on DNA methylation and H3K9 dimethylation in vivo. Genes Dev. 25, 137-52
Scott, D. C., Monda, J. K., Grace, C. R. R., Duda, D. M., Kriwacki, R. W., Kurz, T., and Schulman, B. A. (2010) A dual E3 mechanism for Rub1 ligation to Cdc53. Mol Cell. 39, 784-96
Goodman, M. C., Xu, S., Rouzer, C. A., Banerjee, S., Ghebreselasie, K., Migliore, M., Piomelli, D., and Marnett, L. J. (2018) Dual cyclooxygenase-fatty acid amide hydrolase inhibitor exploits novel binding interactions in the cyclooxygenase active site. J Biol Chem. 10.1074/jbc.M117.802058
Ji, C., Kittredge, A., Hopiavuori, A., Ward, N., Chen, S., Fukuda, Y., Zhang, Y., and Yang, T. (2019) Dual Ca-dependent gates in human Bestrophin1 underlie disease-causing mechanisms of gain-of-function mutations. Commun Biol. 2, 240
Du, J., Zhong, X., Bernatavichute, Y. V., Stroud, H., Feng, S., Caro, E., Vashisht, A. A., Terragni, J., Chin, H. Gyeong, Tu, A., Hetzel, J., Wohlschlegel, J. A., Pradhan, S., Patel, D. J., and Jacobsen, S. E. (2012) Dual binding of chromomethylase domains to H3K9me2-containing nucleosomes directs DNA methylation in plants. Cell. 151, 167-80
Waschbüsch, D., Purlyte, E., and Khan, A. R. (2021) Dual arginine recognition of LRRK2 phosphorylated Rab GTPases. Biophys J. 10.1016/j.bpj.2021.03.030
Winter, G. E., Buckley, D. L., Paulk, J., Roberts, J. M., Souza, A., Dhe-Paganon, S., and Bradner, J. E. (2015) DRUG DEVELOPMENT. Phthalimide conjugation as a strategy for in vivo target protein degradation. Science. 348, 1376-81
Zhang, J., and Ferré-D'Amaré, A. R. (2014) Dramatic improvement of crystals of large RNAs by cation replacement and dehydration. Structure. 22, 1363-71
Ferreira-Cerca, S., Kiburu, I., Thomson, E., LaRonde, N., and Hurt, E. (2014) Dominant Rio1 kinase/ATPase catalytic mutant induces trapping of late pre-40S biogenesis factors in 80S-like ribosomes. Nucleic Acids Res. 42, 8635-47
Paul, D., Chatterjee, A., Begley, T. P., and Ealick, S. E. (2010) Domain organization in Candida glabrata THI6, a bifunctional enzyme required for thiamin biosynthesis in eukaryotes. Biochemistry. 49, 9922-34
Meisburger, S. P., Taylor, A. B., Khan, C. A., Zhang, S., Fitzpatrick, P. F., and Ando, N. (2016) Domain Movements upon Activation of Phenylalanine Hydroxylase Characterized by Crystallography and Chromatography-Coupled Small-Angle X-ray Scattering. J Am Chem Soc. 138, 6506-16
Schoeffler, A. J., May, A. P., and Berger, J. M. (2010) A domain insertion in Escherichia coli GyrB adopts a novel fold that plays a critical role in gyrase function. Nucleic Acids Res. 38, 7830-44
Lv, Z., Yuan, L., Atkison, J. H., Aldana-Masangkay, G., Chen, Y., and Olsen, S. K. (2017) Domain alternation and active site remodeling are conserved structural features of ubiquitin E1. J Biol Chem. 292, 12089-12099
Yu, Y., Zhu, J., Huang, P. - S., Wang, J. -huai, Pullen, N., and Springer, T. A. (2013) Domain 1 of mucosal addressin cell adhesion molecule has an I1-set fold and a flexible integrin-binding loop. J Biol Chem. 288, 6284-94
Bhandari, S., Biswas, S., Chaudhary, A., Dutta, S., and Suguna, K. (2019) Dodecameric structure of a small heat shock protein from Mycobacterium marinum M. Proteins. 10.1002/prot.25657
Ren, W., Fan, H., Grimm, S. A., Kim, J. Jin, Li, L., Guo, Y., Petell, C. James, Tan, X. - F., Zhang, Z. - M., Coan, J. P., Yin, J., Kim, D. In, Gao, L., Cai, L., Khudaverdyan, N., Çetin, B., Patel, D. J., Wang, Y., Cui, Q., Strahl, B. D., Gozani, O., Miller, K. M., O'Leary, S. E., Wade, P. A., Wang, G. Greg, and Song, J. (2021) DNMT1 reads heterochromatic H4K20me3 to reinforce LINE-1 DNA methylation. Nat Commun. 12, 2490
Ryder, B. D., Boyer, D. R., Ustyantseva, E., Mendoza-Oliva, A., Kuska, M. I., Wydorski, P. M., Sawaya, M., Diamond, M. I., Eisenberg, D. S., Kampinga, H. H., and Joachimiak, L. A. (2023) DNAJB8 oligomerization is mediated by an aromatic-rich motif that is dispensable for substrate activity. bioRxiv. 10.1101/2023.03.06.531355
Ryder, B. D., Ustyantseva, E., Boyer, D. R., Mendoza-Oliva, A., Kuska, M. I., Wydorski, P. M., Macierzyńska, P., Morgan, N., Sawaya, M. R., Diamond, M. I., Kampinga, H. H., and Joachimiak, L. A. (2024) DNAJB8 oligomerization is mediated by an aromatic-rich motif that is dispensable for substrate activity. Structure. 32, 662-678.e8

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