Publications

Found 1620 results
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2021
Mulvaney, K. M., Blomquist, C., Acharya, N., Li, R., Ranaghan, M. J., O'Keefe, M., Rodriguez, D. J., Young, M. J., Kesar, D., Pal, D., Stokes, M., Nelson, A. J., Jain, S. S., Yang, A., Mullin-Bernstein, Z., Columbus, J., Bozal, F. K., Skepner, A., Raymond, D., LaRussa, S., McKinney, D. C., Freyzon, Y., Baidi, Y., Porter, D., Aguirre, A. J., Ianari, A., McMillan, B., and Sellers, W. R. (2021) Molecular basis for substrate recruitment to the PRMT5 methylosome. Mol Cell. 81, 3481-3495.e7
Zahid, H., Buchholz, C. R., Singh, M., Ciccone, M. F., Chan, A., Nithianantham, S., Shi, K., Aihara, H., Fischer, M., Schönbrunn, E., Santos, C. O. Dos, Landry, J. W., and Pomerantz, W. C. K. (2021) New Design Rules for Developing Potent Cell-Active Inhibitors of the Nucleosome Remodeling Factor (NURF) via BPTF Bromodomain Inhibition. J Med Chem. 64, 13902-13917
Zahid, H., Buchholz, C. R., Singh, M., Ciccone, M. F., Chan, A., Nithianantham, S., Shi, K., Aihara, H., Fischer, M., Schönbrunn, E., Santos, C. O. Dos, Landry, J. W., and Pomerantz, W. C. K. (2021) New Design Rules for Developing Potent Cell-Active Inhibitors of the Nucleosome Remodeling Factor (NURF) via BPTF Bromodomain Inhibition. J Med Chem. 64, 13902-13917
Capel, M. (2021) New endstations at NE-CAT: MD3UP microdiffractometer and 30 puck ALS-style loader. Current and Future Trends in Macromolecular Crystallography Experiments: Focus on Automation, High Data Rate Analysis and User Interfaces
Yu, C. H., Bhattacharya, A., Persaud, M., Taylor, A. B., Wang, Z., Bulnes-Ramos, A., Xu, J., Selyutina, A., Martinez-Lopez, A., Cano, K., Demeler, B., Kim, B., Hardies, S. C., Diaz-Griffero, F., and Ivanov, D. N. (2021) Nucleic acid binding by SAMHD1 contributes to the antiretroviral activity and is enhanced by the GpsN modification. Nat Commun. 12, 731
Sea, K. W., Taylor, A. B., Thomas, S. T., Liba, A., Bergman, I. B., Holloway, S. P., Cao, X., Gralla, E. B., Valentine, J. S., P Hart, J., and Galaleldeen, A. (2021) A pH Switch Controls Zinc Binding in Tomato Copper-Zinc Superoxide Dismutase. Biochemistry. 60, 1597-1608
Chen, S., Tjin, C. Chandra, Gao, X., Xue, Y., Jiao, H., Zhang, R., Wu, M., He, Z., Ellman, J., and Ha, Y. (2021) Pharmacological inhibition of PI5P4Kα/β disrupts cell energy metabolism and selectively kills p53-null tumor cells.. Proc Natl Acad Sci U S A. 10.1073/pnas.2002486118
Campbell, A. C., Prater, A. R., Bogner, A. N., Quinn, T. P., Gates, K. S., Becker, D. F., and Tanner, J. J. (2021) Photoinduced Covalent Irreversible Inactivation of Proline Dehydrogenase by S-Heterocycles. ACS Chem Biol. 10.1021/acschembio.1c00427
Cerutti, G., Guo, Y., Zhou, T., Gorman, J., Lee, M., Rapp, M., Reddem, E. R., Yu, J., Bahna, F., Bimela, J., Huang, Y., Katsamba, P. S., Liu, L., Nair, M. S., Rawi, R., Olia, A. S., Wang, P., Zhang, B., Chuang, G. - Y., Ho, D. D., Sheng, Z., Kwong, P. D., and Shapiro, L. (2021) Potent SARS-CoV-2 neutralizing antibodies directed against spike N-terminal domain target a single supersite. Cell Host Microbe. 10.1016/j.chom.2021.03.005
Cerutti, G., Guo, Y., Zhou, T., Gorman, J., Lee, M., Rapp, M., Reddem, E. R., Yu, J., Bahna, F., Bimela, J., Huang, Y., Katsamba, P. S., Liu, L., Nair, M. S., Rawi, R., Olia, A. S., Wang, P., Zhang, B., Chuang, G. - Y., Ho, D. D., Sheng, Z., Kwong, P. D., and Shapiro, L. (2021) Potent SARS-CoV-2 neutralizing antibodies directed against spike N-terminal domain target a single supersite. Cell Host Microbe. 10.1016/j.chom.2021.03.005
Castel, P., Dharmaiah, S., Sale, M. J., Messing, S., Rizzuto, G., Cuevas-Navarro, A., Cheng, A., Trnka, M. J., Urisman, A., Esposito, D., Simanshu, D. K., and McCormick, F. (2021) RAS interaction with Sin1 is dispensable for mTORC2 assembly and activity. Proc Natl Acad Sci U S A. 10.1073/pnas.2103261118
Castel, P., Dharmaiah, S., Sale, M. J., Messing, S., Rizzuto, G., Cuevas-Navarro, A., Cheng, A., Trnka, M. J., Urisman, A., Esposito, D., Simanshu, D. K., and McCormick, F. (2021) RAS interaction with Sin1 is dispensable for mTORC2 assembly and activity. Proc Natl Acad Sci U S A. 10.1073/pnas.2103261118
Castel, P., Dharmaiah, S., Sale, M. J., Messing, S., Rizzuto, G., Cuevas-Navarro, A., Cheng, A., Trnka, M. J., Urisman, A., Esposito, D., Simanshu, D. K., and McCormick, F. (2021) RAS interaction with Sin1 is dispensable for mTORC2 assembly and activity. Proc Natl Acad Sci U S A. 10.1073/pnas.2103261118
LoVerde, P. T., Alwan, S. N., Taylor, A. B., Rhodes, J., Chevalier, F. D., Anderson, T. Jc, and McHardy, S. F. (2021) Rational approach to drug discovery for human schistosomiasis. Int J Parasitol Drugs Drug Resist. 16, 140-147
Clark, S. A., Clark, L. E., Pan, J., Coscia, A., McKay, L. G. A., Shankar, S., Johnson, R. I., Griffiths, A., and Abraham, J. (2021) SARS-CoV-2 evolution in an immunocompromised host reveals shared neutralization escape mechanisms. Cell. 10.1101/2020.11.13.381533
Clark, S. A., Clark, L. E., Pan, J., Coscia, A., McKay, L. G. A., Shankar, S., Johnson, R. I., Griffiths, A., and Abraham, J. (2021) SARS-CoV-2 evolution in an immunocompromised host reveals shared neutralization escape mechanisms. Cell. 10.1101/2020.11.13.381533
Clark, S. A., Clark, L. E., Pan, J., Coscia, A., McKay, L. G. A., Shankar, S., Johnson, R. I., Griffiths, A., and Abraham, J. (2021) SARS-CoV-2 evolution in an immunocompromised host reveals shared neutralization escape mechanisms. Cell. 10.1101/2020.11.13.381533
Shabdar, S., Anaclet, B., Castineiras, A. Garcia, Desir, N., Choe, N., Crane, E. J., and Sazinsky, M. H. (2021) Structural and Kinetic Characterization of Hyperthermophilic NADH-Dependent Persulfide Reductase from . Archaea. 2021, 8817136
Shabdar, S., Anaclet, B., Castineiras, A. Garcia, Desir, N., Choe, N., Crane, E. J., and Sazinsky, M. H. (2021) Structural and Kinetic Characterization of Hyperthermophilic NADH-Dependent Persulfide Reductase from . Archaea. 2021, 8817136
Shabdar, S., Anaclet, B., Castineiras, A. Garcia, Desir, N., Choe, N., Crane, E. J., and Sazinsky, M. H. (2021) Structural and Kinetic Characterization of Hyperthermophilic NADH-Dependent Persulfide Reductase from . Archaea. 2021, 8817136
Nabel, K. G., Clark, S. A., Shankar, S., Pan, J., Clark, L. E., Yang, P., Coscia, A., McKay, L. G. A., Varnum, H. H., Brusic, V., Tolan, N. V., Zhou, G., Desjardins, M., Turbett, S. E., Kanjilal, S., Sherman, A. C., Dighe, A., LaRocque, R. C., Ryan, E. T., Tylek, C., Cohen-Solal, J. F., Darcy, A. T., Tavella, D., Clabbers, A., Fan, Y., Griffiths, A., Correia, I. R., Seagal, J., Baden, L. R., Charles, R. C., and Abraham, J. (2021) Structural basis for continued antibody evasion by the SARS-CoV-2 receptor binding domain. Science
Nabel, K. G., Clark, S. A., Shankar, S., Pan, J., Clark, L. E., Yang, P., Coscia, A., McKay, L. G. A., Varnum, H. H., Brusic, V., Tolan, N. V., Zhou, G., Desjardins, M., Turbett, S. E., Kanjilal, S., Sherman, A. C., Dighe, A., LaRocque, R. C., Ryan, E. T., Tylek, C., Cohen-Solal, J. F., Darcy, A. T., Tavella, D., Clabbers, A., Fan, Y., Griffiths, A., Correia, I. R., Seagal, J., Baden, L. R., Charles, R. C., and Abraham, J. (2021) Structural basis for continued antibody evasion by the SARS-CoV-2 receptor binding domain. Science
Nabel, K. G., Clark, S. A., Shankar, S., Pan, J., Clark, L. E., Yang, P., Coscia, A., McKay, L. G. A., Varnum, H. H., Brusic, V., Tolan, N. V., Zhou, G., Desjardins, M., Turbett, S. E., Kanjilal, S., Sherman, A. C., Dighe, A., LaRocque, R. C., Ryan, E. T., Tylek, C., Cohen-Solal, J. F., Darcy, A. T., Tavella, D., Clabbers, A., Fan, Y., Griffiths, A., Correia, I. R., Seagal, J., Baden, L. R., Charles, R. C., and Abraham, J. (2021) Structural basis for continued antibody evasion by the SARS-CoV-2 receptor binding domain. Science
Nabel, K. G., Clark, S. A., Shankar, S., Pan, J., Clark, L. E., Yang, P., Coscia, A., McKay, L. G. A., Varnum, H. H., Brusic, V., Tolan, N. V., Zhou, G., Desjardins, M., Turbett, S. E., Kanjilal, S., Sherman, A. C., Dighe, A., LaRocque, R. C., Ryan, E. T., Tylek, C., Cohen-Solal, J. F., Darcy, A. T., Tavella, D., Clabbers, A., Fan, Y., Griffiths, A., Correia, I. R., Seagal, J., Baden, L. R., Charles, R. C., and Abraham, J. (2021) Structural basis for continued antibody evasion by the SARS-CoV-2 receptor binding domain. Science
Nabel, K. G., Clark, S. A., Shankar, S., Pan, J., Clark, L. E., Yang, P., Coscia, A., McKay, L. G. A., Varnum, H. H., Brusic, V., Tolan, N. V., Zhou, G., Desjardins, M., Turbett, S. E., Kanjilal, S., Sherman, A. C., Dighe, A., LaRocque, R. C., Ryan, E. T., Tylek, C., Cohen-Solal, J. F., Darcy, A. T., Tavella, D., Clabbers, A., Fan, Y., Griffiths, A., Correia, I. R., Seagal, J., Baden, L. R., Charles, R. C., and Abraham, J. (2021) Structural basis for continued antibody evasion by the SARS-CoV-2 receptor binding domain. Science

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