Publications

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Banerjee, S. (2018) The Critical Tools Needed To Deal with Challenging Structural Biology Projects. Chemistry Colloquium, Shiv Nadar University
Banerjee, S. (2019) The Critical Tools Needed To Deal with Challenging Crystallography. Department of Biophysics & Biophysical Chemistry, Johns Hopkins School of Medicine
Padayatti, P. S., Leung, J. H., Mahinthichaichan, P., Tajkhorshid, E., Ishchenko, A., Cherezov, V., S Soltis, M., J Jackson, B., C Stout, D., Gennis, R. B., and Zhang, Q. (2017) Critical Role of Water Molecules in Proton Translocation by the Membrane-Bound Transhydrogenase. Structure. 25, 1111-1119.e3
Jia, N., Jones, R., Yang, G., Ouerfelli, O., and Patel, D. J. (2019) CRISPR-Cas III-A Csm6 CARF Domain Is a Ring Nuclease Triggering Stepwise cA Cleavage with ApA>p Formation Terminating RNase Activity. Mol Cell. 75, 944-956.e6
Baca, C. F., Yu, Y., Rostøl, J. T., Majumder, P., Patel, D. J., and Marraffini, L. A. (2024) The CRISPR effector Cam1 mediates membrane depolarization for phage defence. Nature. 10.1038/s41586-023-06902-y
Baytshtok, V., Chen, J., Glynn, S. E., Nager, A. R., Grant, R. A., Baker, T. A., and Sauer, R. T. (2017) Covalently linked HslU hexamers support a probabilistic mechanism that links ATP hydrolysis to protein unfolding and translocation. J Biol Chem. 292, 5695-5704
Cavalier, M. C., Pierce, A. D., Wilder, P. T., Alasady, M. J., Hartman, K. G., Neau, D. B., Foley, T. L., Jadhav, A., Maloney, D. J., Simeonov, A., Toth, E. A., and Weber, D. J. (2014) Covalent small molecule inhibitors of Ca(2+)-bound S100B. Biochemistry. 53, 6628-40
Campbell, A. C., Becker, D. F., Gates, K. S., and Tanner, J. J. (2020) Covalent Modification of the Flavin in Proline Dehydrogenase by Thiazolidine-2-Carboxylate. ACS Chem Biol. 10.1021/acschembio.9b00935
Kim, S., Grant, R. A., and Sauer, R. T. (2011) Covalent linkage of distinct substrate degrons controls assembly and disassembly of DegP proteolytic cages. Cell. 145, 67-78
Chan, A. H., Lee, W. - G., Spasov, K. A., Cisneros, J. A., Kudalkar, S. N., Petrova, Z. O., Buckingham, A. B., Anderson, K. S., and Jorgensen, W. L. (2017) Covalent inhibitors for eradication of drug-resistant HIV-1 reverse transcriptase: From design to protein crystallography. Proc Natl Acad Sci U S A. 10.1073/pnas.1711463114
Ippolito, J. A., Niu, H., Bertoletti, N., Carter, Z. J., Jin, S., Spasov, K. A., Cisneros, J. A., Valhondo, M., Cutrona, K. J., Anderson, K. S., and Jorgensen, W. L. (2021) Covalent Inhibition of Wild-Type HIV-1 Reverse Transcriptase Using a Fluorosulfate Warhead. ACS Med Chem Lett. 12, 249-255
Prucha, G. R., Henry, S., Hollander, K., Carter, Z. J., Spasov, K. A., Jorgensen, W. L., and Anderson, K. S. (2023) Covalent and noncovalent strategies for targeting Lys102 in HIV-1 reverse transcriptase. Eur J Med Chem. 262, 115894
Geng, Y., Deng, Z., Zhang, G., Budelli, G., Butler, A., Yuan, P., Cui, J., Salkoff, L., and Magleby, K. L. (2020) Coupling of Ca and voltage activation in BK channels through the αB helix/voltage sensor interface.. Proc Natl Acad Sci U S A. 117, 14512-14521
Almutairi, M. M., Svetlov, M. S., Hansen, D. A., Khabibullina, N. F., Klepacki, D., Kang, H. - Y., Sherman, D. H., Vázquez-Laslop, N., Polikanov, Y. S., and Mankin, A. S. (2017) Co-produced natural ketolides methymycin and pikromycin inhibit bacterial growth by preventing synthesis of a limited number of proteins. Nucleic Acids Res. 45, 9573-9582
Fetherolf, M. M., Boyd, S. D., Taylor, A. B., Kim, H. Jong, Wohlschlegel, J. A., Blackburn, N. J., P Hart, J., Winge, D. R., and Winkler, D. D. (2017) Copper-zinc superoxide dismutase is activated through a sulfenic acid intermediate at a copper ion entry site. J Biol Chem. 292, 12025-12040
Sasaki, E., Zhang, X., Sun, H. G., Lu, M. -yehJade, Liu, T. -lin, Ou, A., Li, J. -yi, Chen, Y. -hsiang, Ealick, S. E., and Liu, H. -wen (2014) Co-opting sulphur-carrier proteins from primary metabolic pathways for 2-thiosugar biosynthesis. Nature. 510, 427-31
Hancock, S. P., Cascio, D., and Johnson, R. C. (2019) Cooperative DNA binding by proteins through DNA shape complementarity. Nucleic Acids Res. 47, 8874-8887
Chen, M., Drury, J. E., Christianson, D. W., and Penning, T. M. (2012) Conversion of human steroid 5β-reductase (AKR1D1) into 3β-hydroxysteroid dehydrogenase by single point mutation E120H: example of perfect enzyme engineering.. J Biol Chem. 287, 16609-22
Gilbert, N. C., Rui, Z., Neau, D. B., Waight, M. T., Bartlett, S. G., Boeglin, W. E., Brash, A. R., and Newcomer, M. E. (2012) Conversion of human 5-lipoxygenase to a 15-lipoxygenase by a point mutation to mimic phosphorylation at Serine-663. FASEB J. 26, 3222-9
Durek, T., Torbeev, V. Yu, and Kent, S. B. H. (2007) Convergent chemical synthesis and high-resolution x-ray structure of human lysozyme. Proc Natl Acad Sci U S A. 104, 4846-51
Smith, M. A., Majer, S. H., Vilbert, A. C., and Lancaster, K. M. (2019) Controlling a burn: outer-sphere gating of hydroxylamine oxidation by a distal base in cytochrome P460. Chem Sci. 10, 3756-3764
Hancock, S. P., Ghane, T., Cascio, D., Rohs, R., Di Felice, R., and Johnson, R. C. (2013) Control of DNA minor groove width and Fis protein binding by the purine 2-amino group. Nucleic Acids Res. 41, 6750-60
Blankenchip, C. L., Nguyen, J. V., Lau, R. K., Ye, Q., Gu, Y., and Corbett, K. D. (2022) Control of bacterial immune signaling by a WYL domain transcription factor. Nucleic Acids Res. 50, 5239-5250
Da Fonseca, I., Qureshi, I. A., Mehra-Chaudhary, R., Kizjakina, K., Tanner, J. J., and Sobrado, P. (2014) Contributions of unique active site residues of eukaryotic UDP-galactopyranose mutases to substrate recognition and active site dynamics. Biochemistry. 53, 7794-804
Li, X., Lee, H., Wu, J., and Breslow, E. (2007) Contributions of the interdomain loop, amino terminus, and subunit interface to the ligand-facilitated dimerization of neurophysin: crystal structures and mutation studies of bovine neurophysin-I. Protein Sci. 16, 52-68

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