Publications

Found 642 results
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Journal Article
Khadka, N., Farquhar, E. R., Hill, H. E., Shi, W., von Lintig, J., and Kiser, P. D. (2019) Evidence for distinct rate-limiting steps in the cleavage of alkenes by carotenoid cleavage dioxygenases. J Biol Chem. 10.1074/jbc.RA119.007535
Teng, M., Jiang, J., Ficarro, S. B., Seo, H. - S., Bae, J. Hyun, Donovan, K. A., Fischer, E. S., Zhang, T., Dhe-Paganon, S., Marto, J. A., and Gray, N. S. (2021) Exploring Ligand-Directed -Acyl--alkylsulfonamide-Based Acylation Chemistry for Potential Targeted Degrader Development. ACS Med Chem Lett. 12, 1302-1307
Teng, M., Jiang, J., Ficarro, S. B., Seo, H. - S., Bae, J. Hyun, Donovan, K. A., Fischer, E. S., Zhang, T., Dhe-Paganon, S., Marto, J. A., and Gray, N. S. (2021) Exploring Ligand-Directed -Acyl--alkylsulfonamide-Based Acylation Chemistry for Potential Targeted Degrader Development. ACS Med Chem Lett. 12, 1302-1307
Kearney, C., Olenginski, L. T., Hirn, T. D., Fowler, G. D., Tariq, D., Brewer, S. H., and Phillips-Piro, C. M. (2018) Exploring local solvation environments of a heme protein using the spectroscopic reporter 4-cyano-l-phenylalanine. RSC Adv. 8, 13503-13512
Hollander, K., Chan, A. H., Frey, K. M., Hunker, O., Ippolito, J. A., Spasov, K. A., Yeh, Y. - H. J., Jorgensen, W. L., Ho, Y. - C., and Anderson, K. S. (2023) Exploring novel HIV-1 reverse transcriptase inhibitors with drug-resistant mutants: A double mutant surprise. Protein Sci. 32, e4814
Moremen, K. W., Ramiah, A., Stuart, M., Steel, J., Meng, L., Forouhar, F., Moniz, H. A., Gahlay, G., Gao, Z., Chapla, D., Wang, S., Yang, J. - Y., Prabhakar, P. Kumar, Johnson, R., Rosa, M. Dela, Geisler, C., Nairn, A. V., Seetharaman, J., Wu, S. - C., Tong, L., Gilbert, H. J., LaBaer, J., and Jarvis, D. L. (2017) Expression system for structural and functional studies of human glycosylation enzymes. Nat Chem Biol. 10.1038/nchembio.2539
Williams, W. B., R Meyerhoff, R., Edwards, R. J., Li, H., Manne, K., Nicely, N. I., Henderson, R., Zhou, Y., Janowska, K., Mansouri, K., Gobeil, S., Evangelous, T., Hora, B., Berry, M., A Abuahmad, Y., Sprenz, J., Deyton, M., Stalls, V., Kopp, M., Hsu, A. L., Borgnia, M. J., Stewart-Jones, G. B. E., Lee, M. S., Bronkema, N., M Moody, A., Wiehe, K., Bradley, T., S Alam, M., Parks, R. J., Foulger, A., Oguin, T., Sempowski, G. D., Bonsignori, M., LaBranche, C. C., Montefiori, D. C., Seaman, M., Santra, S., Perfect, J., Francica, J. R., Lynn, G. M., Aussedat, B., Walkowicz, W. E., Laga, R., Kelsoe, G., Saunders, K. O., Fera, D., Kwong, P. D., Seder, R. A., Bartesaghi, A., Shaw, G. M., Acharya, P., and Haynes, B. F. (2021) Fab-dimerized glycan-reactive antibodies are a structural category of natural antibodies. Cell. 184, 2955-2972.e25
Williams, W. B., R Meyerhoff, R., Edwards, R. J., Li, H., Manne, K., Nicely, N. I., Henderson, R., Zhou, Y., Janowska, K., Mansouri, K., Gobeil, S., Evangelous, T., Hora, B., Berry, M., A Abuahmad, Y., Sprenz, J., Deyton, M., Stalls, V., Kopp, M., Hsu, A. L., Borgnia, M. J., Stewart-Jones, G. B. E., Lee, M. S., Bronkema, N., M Moody, A., Wiehe, K., Bradley, T., S Alam, M., Parks, R. J., Foulger, A., Oguin, T., Sempowski, G. D., Bonsignori, M., LaBranche, C. C., Montefiori, D. C., Seaman, M., Santra, S., Perfect, J., Francica, J. R., Lynn, G. M., Aussedat, B., Walkowicz, W. E., Laga, R., Kelsoe, G., Saunders, K. O., Fera, D., Kwong, P. D., Seder, R. A., Bartesaghi, A., Shaw, G. M., Acharya, P., and Haynes, B. F. (2021) Fab-dimerized glycan-reactive antibodies are a structural category of natural antibodies. Cell. 184, 2955-2972.e25
Williams, W. B., R Meyerhoff, R., Edwards, R. J., Li, H., Manne, K., Nicely, N. I., Henderson, R., Zhou, Y., Janowska, K., Mansouri, K., Gobeil, S., Evangelous, T., Hora, B., Berry, M., A Abuahmad, Y., Sprenz, J., Deyton, M., Stalls, V., Kopp, M., Hsu, A. L., Borgnia, M. J., Stewart-Jones, G. B. E., Lee, M. S., Bronkema, N., M Moody, A., Wiehe, K., Bradley, T., S Alam, M., Parks, R. J., Foulger, A., Oguin, T., Sempowski, G. D., Bonsignori, M., LaBranche, C. C., Montefiori, D. C., Seaman, M., Santra, S., Perfect, J., Francica, J. R., Lynn, G. M., Aussedat, B., Walkowicz, W. E., Laga, R., Kelsoe, G., Saunders, K. O., Fera, D., Kwong, P. D., Seder, R. A., Bartesaghi, A., Shaw, G. M., Acharya, P., and Haynes, B. F. (2021) Fab-dimerized glycan-reactive antibodies are a structural category of natural antibodies. Cell. 184, 2955-2972.e25
Do, T. D., LaPointe, N. E., Sangwan, S., Teplow, D. B., Feinstein, S. C., Sawaya, M. R., Eisenberg, D. S., and Bowers, M. T. (2014) Factors that drive peptide assembly from native to amyloid structures: experimental and theoretical analysis of [leu-5]-enkephalin mutants. J Phys Chem B. 118, 7247-56
Francis, J. William, Shao, Z., Narkhede, P., Trinh, A. Truc, Lu, J., Song, J., and Gozani, O. (2023) The FAM86 domain of FAM86A confers substrate specificity to promote EEF2-Lys525 methylation. J Biol Chem. 299, 104842
Moreno, M. V., Rockwell, N. C., Mora, M., Fisher, A. J., and J Lagarias, C. (2020) A far-red cyanobacteriochrome lineage specific for verdins. Proc Natl Acad Sci U S A. 10.1073/pnas.2016047117
Moody, J. D., Levy, S., Mathieu, J., Xing, Y., Kim, W., Dong, C., Tempel, W., Robitaille, A. M., Dang, L. T., Ferreccio, A., Detraux, D., Sidhu, S., Zhu, L., Carter, L., Xu, C., Valensisi, C., Wang, Y., R Hawkins, D., Min, J., Moon, R. T., Orkin, S. H., Baker, D., and Ruohola-Baker, H. (2017) First critical repressive H3K27me3 marks in embryonic stem cells identified using designed protein inhibitor. Proc Natl Acad Sci U S A. 10.1073/pnas.1706907114
Li, Y. L., Zee, C. - T., Lin, J. B., Basile, V. M., Muni, M., Flores, M. D., Munárriz, J., Kaner, R. B., Alexandrova, A. N., Houk, K. N., Tolbert, S. H., and Rubin, Y. (2020) Fjord-Edge Graphene Nanoribbons with Site-Specific Nitrogen Substitution. J Am Chem Soc. 142, 18093-18102
Anmangandla, A., Jana, S., Peng, K., Wallace, S. D., Bagde, S. R., Drown, B. S., Xu, J., Hergenrother, P. J., J Fromme, C., and Lin, H. (2023) A Fluorescence Polarization Assay for Macrodomains Facilitates the Identification of Potent Inhibitors of the SARS-CoV-2 Macrodomain. ACS Chem Biol. 18, 1200-1207
Truong, L., Kooshapur, H., Dey, S. Kumar, Li, X., Tjandra, N., Jaffrey, S. R., and Ferré-D'Amaré, A. R. (2021) The fluorescent aptamer Squash extensively repurposes the adenine riboswitch fold. Nat Chem Biol. 10.1038/s41589-021-00931-2
C Y Jeng, S., Trachman, R. J., Weissenboeck, F., Truong, L., Link, K. A., Jepsen, M. D. E., Knutson, J. R., Andersen, E. S., Ferré-D'Amaré, A. R., and Unrau, P. J. (2021) Fluorogenic aptamers resolve the flexibility of RNA junctions using orientation-dependent FRET. RNA. 27, 433-444
Fei, X., Ye, X., LaRonde, N. A., and Lorimer, G. H. (2014) Formation and structures of GroEL:GroES2 chaperonin footballs, the protein-folding functional form. Proc Natl Acad Sci U S A. 111, 12775-80
Richards, L. S., Flores, M. D., Millán, C., Glynn, C., Zee, C. - T., Sawaya, M. R., Gallagher-Jones, M., Borges, R. J., Usón, I., and Rodriguez, J. A. (2023) Fragment-Based Phasing of Peptidic Nanocrystals by MicroED. ACS Bio Med Chem Au. 3, 201-210
Fuse, S., Tsukamoto, H., Yuan, Y., Wang, T. - S. Andrew, Zhang, Y., Bolla, M., Walker, S., Sliz, P., and Kahne, D. (2010) Functional and structural analysis of a key region of the cell wall inhibitor moenomycin. ACS Chem Biol. 5, 701-11
Liu, L., Wilcox, X. E., Fisher, A. J., Boyd, S. D., Zhi, J., Winkler, D. D., and Bulla, L. A. (2022) Functional and Structural Analysis of the Toxin-Binding Site of the Cadherin G-Protein-Coupled Receptor, BT-R, for Cry1A Toxins of . Biochemistry. 61, 752-766
Gantt, S. M. Lucy, Decroos, C., Lee, M. S., Gullett, L. E., Bowman, C. M., Christianson, D. W., and Fierke, C. A. (2016) General Base-General Acid Catalysis in Human Histone Deacetylase 8. Biochemistry. 55, 820-32
Mehta, R. S., Mayers, J. R., Zhang, Y., Bhosle, A., Glasser, N. R., Nguyen, L. H., Ma, W., Bae, S., Branck, T., Song, K., Sebastian, L., Pacheco, J. Avila, Seo, H. - S., Clish, C., Dhe-Paganon, S., Ananthakrishnan, A. N., Franzosa, E. A., Balskus, E. P., Chan, A. T., and Huttenhower, C. (2023) Gut microbial metabolism of 5-ASA diminishes its clinical efficacy in inflammatory bowel disease. Nat Med. 29, 700-709
Saredi, G., Huang, H., Hammond, C. M., Alabert, C., Bekker-Jensen, S., Forne, I., Reverón-Gómez, N., Foster, B. M., Mlejnkova, L., Bartke, T., Cejka, P., Mailand, N., Imhof, A., Patel, D. J., and Groth, A. (2016) H4K20me0 marks post-replicative chromatin and recruits the TONSL–MMS22L DNA repair complex.. Nature. 534, 714-718
Saredi, G., Huang, H., Hammond, C. M., Alabert, C., Bekker-Jensen, S., Forne, I., Reverón-Gómez, N., Foster, B. M., Mlejnkova, L., Bartke, T., Cejka, P., Mailand, N., Imhof, A., Patel, D. J., and Groth, A. (2016) H4K20me0 marks post-replicative chromatin and recruits the TONSL–MMS22L DNA repair complex.. Nature. 534, 714-718

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