Publications

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Journal Article
Erdmann, K. S., Mao, Y., McCrea, H. J., Zoncu, R., Lee, S., Paradise, S., Modregger, J., Biemesderfer, D., Toomre, D., and De Camilli, P. (2007) A role of the Lowe syndrome protein OCRL in early steps of the endocytic pathway. Dev Cell. 13, 377-90
Duggan, K. C., Hermanson, D. J., Musee, J., Prusakiewicz, J. J., Scheib, J. L., Carter, B. D., Banerjee, S., Oates, J. A., and Marnett, L. J. (2011) (R)-Profens are substrate-selective inhibitors of endocannabinoid oxygenation by COX-2. Nat Chem Biol. 7, 803-9
Cai, Y., Deng, Y., Horenkamp, F., Reinisch, K. M., and Burd, C. G. (2014) Sac1-Vps74 structure reveals a mechanism to terminate phosphoinositide signaling in the Golgi apparatus. J Cell Biol. 206, 485-91
Dhayalan, B., Mandal, K., Rege, N., Weiss, M. A., Eitel, S. H., Meier, T., Schoenleber, R. O., and Kent, S. B. H. (2017) Scope and Limitations of Fmoc Chemistry SPPS-Based Approaches to the Total Synthesis of Insulin Lispro via Ester Insulin. Chemistry. 23, 1709-1716
Liosi, M. - E., Krimmer, S. G., Newton, A. S., Dawson, T., Puleo, D. E., Cutrona, K. J., Suzuki, Y., Schlessinger, J., and Jorgensen, W. L. (2020) Selective Janus Kinase 2 (JAK2) Pseudokinase Ligands with a Diaminotriazole Core. J Med Chem. 10.1021/acs.jmedchem.0c00192
Kruidenier, L., Chung, C. -wa, Cheng, Z., Liddle, J., Che, K. H., Joberty, G., Bantscheff, M., Bountra, C., Bridges, A., Diallo, H., Eberhard, D., Hutchinson, S., Jones, E., Katso, R., Leveridge, M., Mander, P. K., Mosley, J., Ramirez-Molina, C., Rowland, P., Schofield, C. J., Sheppard, R. J., Smith, J. E., Swales, C., Tanner, R., Thomas, P., Tumber, A., Drewes, G., Oppermann, U., Patel, D. J., Lee, K., and Wilson, D. M. (2012) A selective jumonji H3K27 demethylase inhibitor modulates the proinflammatory macrophage response. Nature. 488, 404-8
Kruidenier, L., Chung, C. -wa, Cheng, Z., Liddle, J., Che, K. H., Joberty, G., Bantscheff, M., Bountra, C., Bridges, A., Diallo, H., Eberhard, D., Hutchinson, S., Jones, E., Katso, R., Leveridge, M., Mander, P. K., Mosley, J., Ramirez-Molina, C., Rowland, P., Schofield, C. J., Sheppard, R. J., Smith, J. E., Swales, C., Tanner, R., Thomas, P., Tumber, A., Drewes, G., Oppermann, U., Patel, D. J., Lee, K., and Wilson, D. M. (2012) A selective jumonji H3K27 demethylase inhibitor modulates the proinflammatory macrophage response. Nature. 488, 404-8
Pomerantz, W. Charles Kr, Cui, H., Divakaran, A., Pandey, A. K., Johnson, J. A., Zahid, H., Hoell, Z. J., Ellingson, M. O., Shi, K., Aihara, H., and Harki, D. A. (2020) Selective N-terminal BRD4 bromodomain inhibitors by targeting non-conserved residues and structured water displacement. Angew Chem Int Ed Engl. 10.1002/anie.202008625
Chen, W. - H., Hajduczki, A., Martinez, E. J., Bai, H., Matz, H., Hill, T. M., Lewitus, E., Chang, W. C., Dawit, L., Peterson, C. E., Rees, P. A., Ajayi, A. B., Golub, E. S., Swafford, I., Dussupt, V., David, S., Mayer, S. V., Soman, S., Kuklis, C., Corbitt, C., King, J., Choe, M., Sankhala, R. S., Thomas, P. V., Zemil, M., Wieczorek, L., Hart, T., Duso, D., Kummer, L., Yan, L., Sterling, S. L., Laing, E. D., Broder, C. C., Williams, J. K., Davidson, E., Doranz, B. J., Krebs, S. J., Polonis, V. R., Paquin-Proulx, D., Rolland, M., Reiley, W. W., Gromowski, G. D., Modjarrad, K., Dooley, H., and M Joyce, G. (2023) Shark nanobodies with potent SARS-CoV-2 neutralizing activity and broad sarbecovirus reactivity. Nat Commun. 14, 580
Chen, W. - H., Hajduczki, A., Martinez, E. J., Bai, H., Matz, H., Hill, T. M., Lewitus, E., Chang, W. C., Dawit, L., Peterson, C. E., Rees, P. A., Ajayi, A. B., Golub, E. S., Swafford, I., Dussupt, V., David, S., Mayer, S. V., Soman, S., Kuklis, C., Corbitt, C., King, J., Choe, M., Sankhala, R. S., Thomas, P. V., Zemil, M., Wieczorek, L., Hart, T., Duso, D., Kummer, L., Yan, L., Sterling, S. L., Laing, E. D., Broder, C. C., Williams, J. K., Davidson, E., Doranz, B. J., Krebs, S. J., Polonis, V. R., Paquin-Proulx, D., Rolland, M., Reiley, W. W., Gromowski, G. D., Modjarrad, K., Dooley, H., and M Joyce, G. (2023) Shark nanobodies with potent SARS-CoV-2 neutralizing activity and broad sarbecovirus reactivity. Nat Commun. 14, 580
Chen, W. - H., Hajduczki, A., Martinez, E. J., Bai, H., Matz, H., Hill, T. M., Lewitus, E., Chang, W. C., Dawit, L., Peterson, C. E., Rees, P. A., Ajayi, A. B., Golub, E. S., Swafford, I., Dussupt, V., David, S., Mayer, S. V., Soman, S., Kuklis, C., Corbitt, C., King, J., Choe, M., Sankhala, R. S., Thomas, P. V., Zemil, M., Wieczorek, L., Hart, T., Duso, D., Kummer, L., Yan, L., Sterling, S. L., Laing, E. D., Broder, C. C., Williams, J. K., Davidson, E., Doranz, B. J., Krebs, S. J., Polonis, V. R., Paquin-Proulx, D., Rolland, M., Reiley, W. W., Gromowski, G. D., Modjarrad, K., Dooley, H., and M Joyce, G. (2023) Shark nanobodies with potent SARS-CoV-2 neutralizing activity and broad sarbecovirus reactivity. Nat Commun. 14, 580
Chen, W. - H., Hajduczki, A., Martinez, E. J., Bai, H., Matz, H., Hill, T. M., Lewitus, E., Chang, W. C., Dawit, L., Peterson, C. E., Rees, P. A., Ajayi, A. B., Golub, E. S., Swafford, I., Dussupt, V., David, S., Mayer, S. V., Soman, S., Kuklis, C., Corbitt, C., King, J., Choe, M., Sankhala, R. S., Thomas, P. V., Zemil, M., Wieczorek, L., Hart, T., Duso, D., Kummer, L., Yan, L., Sterling, S. L., Laing, E. D., Broder, C. C., Williams, J. K., Davidson, E., Doranz, B. J., Krebs, S. J., Polonis, V. R., Paquin-Proulx, D., Rolland, M., Reiley, W. W., Gromowski, G. D., Modjarrad, K., Dooley, H., and M Joyce, G. (2023) Shark nanobodies with potent SARS-CoV-2 neutralizing activity and broad sarbecovirus reactivity. Nat Commun. 14, 580
Chen, W. - H., Hajduczki, A., Martinez, E. J., Bai, H., Matz, H., Hill, T. M., Lewitus, E., Chang, W. C., Dawit, L., Peterson, C. E., Rees, P. A., Ajayi, A. B., Golub, E. S., Swafford, I., Dussupt, V., David, S., Mayer, S. V., Soman, S., Kuklis, C., Corbitt, C., King, J., Choe, M., Sankhala, R. S., Thomas, P. V., Zemil, M., Wieczorek, L., Hart, T., Duso, D., Kummer, L., Yan, L., Sterling, S. L., Laing, E. D., Broder, C. C., Williams, J. K., Davidson, E., Doranz, B. J., Krebs, S. J., Polonis, V. R., Paquin-Proulx, D., Rolland, M., Reiley, W. W., Gromowski, G. D., Modjarrad, K., Dooley, H., and M Joyce, G. (2023) Shark nanobodies with potent SARS-CoV-2 neutralizing activity and broad sarbecovirus reactivity. Nat Commun. 14, 580
Chen, W. - H., Hajduczki, A., Martinez, E. J., Bai, H., Matz, H., Hill, T. M., Lewitus, E., Chang, W. C., Dawit, L., Peterson, C. E., Rees, P. A., Ajayi, A. B., Golub, E. S., Swafford, I., Dussupt, V., David, S., Mayer, S. V., Soman, S., Kuklis, C., Corbitt, C., King, J., Choe, M., Sankhala, R. S., Thomas, P. V., Zemil, M., Wieczorek, L., Hart, T., Duso, D., Kummer, L., Yan, L., Sterling, S. L., Laing, E. D., Broder, C. C., Williams, J. K., Davidson, E., Doranz, B. J., Krebs, S. J., Polonis, V. R., Paquin-Proulx, D., Rolland, M., Reiley, W. W., Gromowski, G. D., Modjarrad, K., Dooley, H., and M Joyce, G. (2023) Shark nanobodies with potent SARS-CoV-2 neutralizing activity and broad sarbecovirus reactivity. Nat Commun. 14, 580
Chen, W. - H., Hajduczki, A., Martinez, E. J., Bai, H., Matz, H., Hill, T. M., Lewitus, E., Chang, W. C., Dawit, L., Peterson, C. E., Rees, P. A., Ajayi, A. B., Golub, E. S., Swafford, I., Dussupt, V., David, S., Mayer, S. V., Soman, S., Kuklis, C., Corbitt, C., King, J., Choe, M., Sankhala, R. S., Thomas, P. V., Zemil, M., Wieczorek, L., Hart, T., Duso, D., Kummer, L., Yan, L., Sterling, S. L., Laing, E. D., Broder, C. C., Williams, J. K., Davidson, E., Doranz, B. J., Krebs, S. J., Polonis, V. R., Paquin-Proulx, D., Rolland, M., Reiley, W. W., Gromowski, G. D., Modjarrad, K., Dooley, H., and M Joyce, G. (2023) Shark nanobodies with potent SARS-CoV-2 neutralizing activity and broad sarbecovirus reactivity. Nat Commun. 14, 580
To, C., Jang, J., Chen, T., Park, E., Mushajiang, M., De Clercq, D. J. H., Xu, M., Wang, S., Cameron, M. D., Heppner, D. E., Shin, B. Hee, Gero, T. W., Yang, A., Dahlberg, S. E., Wong, K. - K., Eck, M. J., Gray, N. S., and Jänne, P. A. (2019) Single and Dual Targeting of Mutant EGFR with an Allosteric Inhibitor. Cancer Discov. 9, 926-943
To, C., Jang, J., Chen, T., Park, E., Mushajiang, M., De Clercq, D. J. H., Xu, M., Wang, S., Cameron, M. D., Heppner, D. E., Shin, B. Hee, Gero, T. W., Yang, A., Dahlberg, S. E., Wong, K. - K., Eck, M. J., Gray, N. S., and Jänne, P. A. (2019) Single and Dual Targeting of Mutant EGFR with an Allosteric Inhibitor. Cancer Discov. 9, 926-943
Adak, S., Ye, N., Calderone, L. A., Duan, M., Lubeck, W., Schäfer, R. J. B., Lukowski, A. L., Houk, K. N., Pandelia, M. - E., Drennan, C. L., and Moore, B. S. (2024) A single diiron enzyme catalyses the oxidative rearrangement of tryptophan to indole nitrile. Nat Chem. 16, 1989-1998
Adak, S., Ye, N., Calderone, L. A., Duan, M., Lubeck, W., Schäfer, R. J. B., Lukowski, A. L., Houk, K. N., Pandelia, M. - E., Drennan, C. L., and Moore, B. S. (2024) A single diiron enzyme catalyses the oxidative rearrangement of tryptophan to indole nitrile. Nat Chem. 16, 1989-1998
Czajka, T. F., Vance, D. J., Davis, S., Rudolph, M. J., and Mantis, N. J. (2022) Single-domain antibodies neutralize ricin toxin intracellularly by blocking access to ribosomal P-stalk proteins. J Biol Chem. 298, 101742
Ma, J. K., Carrell, C. J., F Mathews, S., and Davidson, V. L. (2006) Site-directed mutagenesis of proline 52 to glycine in amicyanin converts a true electron transfer reaction into one that is conformationally gated. Biochemistry. 45, 8284-93
Dow, B. A., Sukumar, N., Matos, J. O., Choi, M., Schulte, A., Tatulian, S. A., and Davidson, V. L. (2014) The sole tryptophan of amicyanin enhances its thermal stability but does not influence the electronic properties of the type 1 copper site. Arch Biochem Biophys. 550-551, 20-7
Dow, B. A., Sukumar, N., Matos, J. O., Choi, M., Schulte, A., Tatulian, S. A., and Davidson, V. L. (2014) The sole tryptophan of amicyanin enhances its thermal stability but does not influence the electronic properties of the type 1 copper site. Arch Biochem Biophys. 550-551, 20-7
Wittenborn, E. C., Guendon, C., Merrouch, M., Benvenuti, M., Fourmond, V., Léger, C., Drennan, C. L., and Dementin, S. (2020) The Solvent-Exposed Fe-S D-Cluster Contributes to Oxygen-Resistance in Ni-Fe Carbon Monoxide Dehydrogenase. ACS Catal. 10, 7328-7335
Wittenborn, E. C., Guendon, C., Merrouch, M., Benvenuti, M., Fourmond, V., Léger, C., Drennan, C. L., and Dementin, S. (2020) The Solvent-Exposed Fe-S D-Cluster Contributes to Oxygen-Resistance in Ni-Fe Carbon Monoxide Dehydrogenase. ACS Catal. 10, 7328-7335

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