Publications

Found 14 results
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Journal Article
Sun, Z. - W., Waybright, J. M., Beldar, S., Chen, L., Foley, C. A., Norris-Drouin, J. L., Lyu, T. - J., Dong, A., Min, J., Wang, Y. - P., James, L. I., and Wang, Y. (2022) Cdyl Deficiency Brakes Neuronal Excitability and Nociception through Promoting Kcnb1 Transcription in Peripheral Sensory Neurons. Adv Sci (Weinh). 9, e2104317
Cai, X. - C., Zhang, T., Kim, E. - J., Jiang, M., Wang, K., Wang, J., Chen, S., Zhang, N., Wu, H., Li, F., Seña, C. C. Dela, Zeng, H., Vivcharuk, V., Niu, X., Zheng, W., Lee, J. P., Chen, Y., Barsyte, D., Szewczyk, M., Hajian, T., Ibáñez, G., Dong, A., Dombrovski, L., Zhang, Z., Deng, H., Min, J., Arrowsmith, C. H., Mazutis, L., Shi, L., Vedadi, M., Brown, P. J., Xiang, J., Qin, L. - X., Xu, W., and Luo, M. (2019) A chemical probe of CARM1 alters epigenetic plasticity against breast cancer cell invasion. Elife. 10.7554/eLife.47110
Kimani, S. W., Perveen, S., Szewezyk, M., Zeng, H., Dong, A., Li, F., Ghiabi, P., Li, Y., Chau, I., Arrowsmith, C. H., Barsyte-Lovejoy, D., Santhakumar, V., Vedadi, M., and Halabelian, L. (2023) The co-crystal structure of Cbl-b and a small-molecule inhibitor reveals the mechanism of Cbl-b inhibition. Commun Biol. 6, 1272
Mélin, L., Abdullayev, S., Fnaiche, A., Vu, V., Suárez, N. González, Zeng, H., Szewczyk, M. M., Li, F., Senisterra, G., Allali-Hassani, A., Chau, I., Dong, A., Woo, S., Annabi, B., Halabelian, L., LaPlante, S. R., Vedadi, M., Barsyte-Lovejoy, D., Santhakumar, V., and Gagnon, A. (2021) Development of LM98, a Small-Molecule TEAD Inhibitor Derived from Flufenamic Acid. ChemMedChem. 16, 2982-3002
Ahmad, S., Xu, J., Feng, J. A., Hutchinson, A., Zeng, H., Ghiabi, P., Dong, A., Centrella, P. A., Clark, M. A., Guié, M. - A., Guilinger, J. P., Keefe, A. D., Zhang, Y., Cerruti, T., Cuozzo, J. W., von Rechenberg, M., Bolotokova, A., Li, Y., Loppnau, P., Seitova, A., Li, Y. - Y., Santhakumar, V., Brown, P. J., Ackloo, S., and Halabelian, L. (2023) Discovery of a First-in-Class Small-Molecule Ligand for WDR91 Using DNA-Encoded Chemical Library Selection Followed by Machine Learning. J Med Chem. 66, 16051-16061
Kimani, S. W., Owen, J., Green, S. R., Li, F., Li, Y., Dong, A., Brown, P. J., Ackloo, S., Kuter, D., Yang, C., MacAskill, M., MacKinnon, S. Scott, Arrowsmith, C. H., Schapira, M., Shahani, V., and Halabelian, L. (2023) Discovery of a Novel DCAF1 Ligand Using a Drug-Target Interaction Prediction Model: Generalizing Machine Learning to New Drug Targets. J Chem Inf Model. 63, 4070-4078
Xiong, Y., Li, F., Babault, N., Dong, A., Zeng, H., Wu, H., Chen, X., Arrowsmith, C. H., Brown, P. J., Liu, J., Vedadi, M., and Jin, J. (2017) Discovery of Potent and Selective Inhibitors for G9a-Like Protein (GLP) Lysine Methyltransferase. J Med Chem. 60, 1876-1891
Shen, Y., Li, F., Szewczyk, M. M., Halabelian, L., Chau, I., Eram, M. S., Seña, Cdela, Park, K. - S., Meng, F., Chen, H., Zeng, H., Dong, A., Wu, H., Trush, V. V., McLeod, D., Zepeda-Velázquez, C. A., Campbell, R. M., Mader, M. M., Watson, B. M., Schapira, M., Arrowsmith, C. H., Al-awar, R., Barsyte-Lovejoy, D., H Kaniskan, Ü., Brown, P. J., Vedadi, M., and Jin, J. (2021) A First-in-Class, Highly Selective and Cell-Active Allosteric Inhibitor of Protein Arginine Methyltransferase 6. J Med Chem. 64, 3697-3706
Eram, M. S., Shen, Y., Szewczyk, M., Wu, H., Senisterra, G., Li, F., Butler, K. V., H Kaniskan, Ü., Speed, B. A., Seña, Cdela, Dong, A., Zeng, H., Schapira, M., Brown, P. J., Arrowsmith, C. H., Barsyte-Lovejoy, D., Liu, J., Vedadi, M., and Jin, J. (2016) A Potent, Selective, and Cell-Active Inhibitor of Human Type I Protein Arginine Methyltransferases. ACS Chem Biol. 11, 772-781
de Araujo, E. D., Erdogan, F., Neubauer, H. A., Meneksedag-Erol, D., Manaswiyoungkul, P., Eram, M. S., Seo, H. - S., Qadree, A. K., Israelian, J., Orlova, A., Suske, T., Pham, H. T. T., Boersma, A., Tangermann, S., Kenner, L., Rülicke, T., Dong, A., Ravichandran, M., Brown, P. J., Audette, G. F., Rauscher, S., Dhe-Paganon, S., Moriggl, R., and Gunning, P. T. (2019) Structural and functional consequences of the STAT5B driver mutation. Nat Commun. 10, 2517
Zhou, M., Ehsan, F., Gan, L., Dong, A., Li, Y., Liu, K., and Min, J. (2021) Structural basis for the recognition of the S2, S5-phosphorylated RNA polymerase II CTD by the mRNA anti-terminator protein hSCAF4. FEBS Lett. 10.1002/1873-3468.14256
Mann, M. K., Zepeda-Velázquez, C. A., González-Álvarez, H., Dong, A., Kiyota, T., Aman, A. M., Loppnau, P., Li, Y., Wilson, B., Arrowsmith, C. H., Al-awar, R., Harding, R. J., and Schapira, M. (2021) Structure-Activity Relationship of USP5 Inhibitors. J Med Chem. 64, 15017-15036
Xiong, Y., Li, F., Babault, N., Wu, H., Dong, A., Zeng, H., Chen, X., Arrowsmith, C. H., Brown, P. J., Liu, J., Vedadi, M., and Jin, J. (2017) Structure-activity relationship studies of G9a-like protein (GLP) inhibitors. Bioorg Med Chem. 25, 4414-4423
Deng, Y., Song, X., Iyamu, I. D., Dong, A., Min, J., and Huang, R. (2023) A unique binding pocket induced by a noncanonical SAH mimic to develop potent and selective PRMT inhibitors. Acta Pharm Sin B. 13, 4893-4905