Publications

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Antine, S. P., Johnson, A. G., Mooney, S. E., Leavitt, A., Mayer, M. L., Yirmiya, E., Amitai, G., Sorek, R., and Kranzusch, P. J. (2023) Structural basis of Gabija anti-phage defence and viral immune evasion. Nature. 10.1038/s41586-023-06855-2
Bhattacharya, A., Alam, S. L., Fricke, T., Zadrozny, K., Sedzicki, J., Taylor, A. B., Demeler, B., Pornillos, O., Ganser-Pornillos, B. K., Diaz-Griffero, F., Ivanov, D. N., and Yeager, M. (2014) Structural basis of HIV-1 capsid recognition by PF74 and CPSF6. Proc Natl Acad Sci U S A. 111, 18625-30
Jia, X., Weber, E., Tokarev, A., Lewinski, M., Rizk, M., Suarez, M., Guatelli, J., and Xiong, Y. (2014) Structural basis of HIV-1 Vpu-mediated BST2 antagonism via hijacking of the clathrin adaptor protein complex 1. Elife. 3, e02362
Halabelian, L., Ravichandran, M., Li, Y., Zeng, H., Rao, A., Aravind, L., and Arrowsmith, C. H. (2019) Structural basis of HMCES interactions with abasic DNA and multivalent substrate recognition. Nat Struct Mol Biol. 26, 607-612
Zhou, W., Richmond-Buccola, D., Wang, Q., and Kranzusch, P. J. (2022) Structural basis of human TREX1 DNA degradation and autoimmune disease. Nat Commun. 13, 4277
Kumar, S., Athreya, A., Gulati, A., Nair, R. Mony, Mahendran, I., Ranjan, R., and Penmatsa, A. (2021) Structural basis of inhibition of a transporter from Staphylococcus aureus, NorC, through a single-domain camelid antibody. Commun Biol. 4, 836
Alonzo, D. A., Chiche-Lapierre, C., Tarry, M. J., Wang, J., and T Schmeing, M. (2020) Structural basis of keto acid utilization in nonribosomal depsipeptide synthesis. Nat Chem Biol. 10.1038/s41589-020-0481-5
Montemayor, E. J., Katolik, A., Clark, N. E., Taylor, A. B., Schuermann, J. P., D Combs, J., Johnsson, R., Holloway, S. P., Stevens, S. W., Damha, M. J., and P Hart, J. (2014) Structural basis of lariat RNA recognition by the intron debranching enzyme Dbr1. Nucleic Acids Res. 42, 10845-55
Bigalke, J. M., and Heldwein, E. E. (2015) Structural basis of membrane budding by the nuclear egress complex of herpesviruses. EMBO J. 34, 2921-36
Simanshu, D. K., Yamaguchi, Y., Park, J. - H., Inouye, M., and Patel, D. J. (2013) Structural basis of mRNA recognition and cleavage by toxin MazF and its regulation by antitoxin MazE in Bacillus subtilis. Mol Cell. 52, 447-58
Jenni, S., Goyal, Y., von Grotthuss, M., Shvartsman, S. Y., and Klein, D. E. (2015) Structural Basis of Neurohormone Perception by the Receptor Tyrosine Kinase Torso. Mol Cell. 60, 941-52
Pidathala, S., Mallela, A. Kumar, Joseph, D., and Penmatsa, A. (2021) Structural basis of norepinephrine recognition and transport inhibition in neurotransmitter transporters. Nat Commun. 12, 2199
Kumar, S., Zavaliev, R., Wu, Q., Zhou, Y., Cheng, J., Dillard, L., Powers, J., Withers, J., Zhao, J., Guan, Z., Borgnia, M. J., Bartesaghi, A., Dong, X., and Zhou, P. (2022) Structural basis of NPR1 in activating plant immunity. Nature. 605, 561-566
Johnson, Z. Lee, Lee, J. - H., Lee, K., Lee, M., Kwon, D. - Y., Hong, J., and Lee, S. - Y. (2014) Structural basis of nucleoside and nucleoside drug selectivity by concentrative nucleoside transporters. Elife. 3, e03604
Hirano, Y., Gao, Y. - G., Stephenson, D. J., Vu, N. T., Malinina, L., Simanshu, D. K., Chalfant, C. E., Patel, D. J., and Brown, R. E. (2019) Structural basis of phosphatidylcholine recognition by the C2-domain of cytosolic phospholipase Aα.. Elife. 10.7554/eLife.44760
Hashimoto, H., Kafková, L., Raczkowski, A., Jordan, K. D., Read, L. K., and Debler, E. W. (2019) Structural Basis of Protein Arginine Methyltransferase Activation by a Catalytically Dead Homolog (Prozyme). J Mol Biol. 10.1016/j.jmb.2019.11.002
Dempsey, D. R., Viennet, T., Iwase, R., Park, E., Henriquez, S., Chen, Z., Jeliazkov, J. R., Palanski, B. A., Phan, K. L., Coote, P., Gray, J. J., Eck, M. J., Gabelli, S. B., Arthanari, H., and Cole, P. A. (2021) The structural basis of PTEN regulation by multi-site phosphorylation. Nat Struct Mol Biol. 28, 858-868
Shang, J., Ye, G., Shi, K., Wan, Y., Luo, C., Aihara, H., Geng, Q., Auerbach, A., and Li, F. (2020) Structural basis of receptor recognition by SARS-CoV-2. Nature. 10.1038/s41586-020-2179-y
Dharmaiah, S., Bindu, L., Tran, T. H., Gillette, W. K., Frank, P. H., Ghirlando, R., Nissley, D. V., Esposito, D., McCormick, F., Stephen, A. G., and Simanshu, D. K. (2016) Structural basis of recognition of farnesylated and methylated KRAS4b by PDEδ.. Proc Natl Acad Sci U S A. 113, E6766-E6775
Yun, D., Dey, M., Higgins, L. J., Yan, F., Liu, H. -wen, and Drennan, C. L. (2011) Structural basis of regiospecificity of a mononuclear iron enzyme in antibiotic fosfomycin biosynthesis. J Am Chem Soc. 133, 11262-9
Li, J., Wang, L., Hahn, Q., Nowak, R. P., Viennet, T., Orellana, E. A., Burman, S. S. Roy, Yue, H., Hunkeler, M., Fontana, P., Wu, H., Arthanari, H., Fischer, E. S., and Gregory, R. I. (2023) Structural basis of regulated mG tRNA modification by METTL1-WDR4. Nature. 613, 391-397
Viswanathan, T., Arya, S., Chan, S. - H., Qi, S., Dai, N., Misra, A., Park, J. - G., Oladunni, F., Kovalskyy, D., Hromas, R. A., Martinez-Sobrido, L., and Gupta, Y. K. (2020) Structural basis of RNA cap modification by SARS-CoV-2. Nat Commun. 11, 3718
Shechner, D. M., and Bartel, D. P. (2011) The structural basis of RNA-catalyzed RNA polymerization. Nat Struct Mol Biol. 18, 1036-42
Yin, L., Shi, K., and Aihara, H. (2023) Structural basis of sequence-specific cytosine deamination by double-stranded DNA deaminase toxin DddA. Nat Struct Mol Biol. 10.1038/s41594-023-01034-3
Armache, K. - J., Garlick, J. D., Canzio, D., Narlikar, G. J., and Kingston, R. E. (2011) Structural basis of silencing: Sir3 BAH domain in complex with a nucleosome at 3.0 Å resolution.. Science. 334, 977-82

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