Publications

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Calmettes, C., Alcantara, J., Yu, R. - H., Schryvers, A. B., and Moraes, T. F. (2012) The structural basis of transferrin sequestration by transferrin-binding protein B. Nat Struct Mol Biol. 19, 358-60
Roose, B. W., and Christianson, D. W. (2019) Structural Basis of Tryptophan Reverse N-Prenylation Catalyzed by CymD. Biochemistry. 58, 3232-3242
Nithianantham, S., Cook, B. D., Beans, M., Guo, F., Chang, F., and Al-Bassam, J. (2018) Structural basis of tubulin recruitment and assembly by microtubule polymerases with Tumor Overexpressed Gene (TOG) domain arrays. Elife. 10.7554/eLife.38922
Owens, T. W., Taylor, R. J., Pahil, K. S., Bertani, B. R., Ruiz, N., Kruse, A. C., and Kahne, D. (2019) Structural basis of unidirectional export of lipopolysaccharide to the cell surface. Nature. 567, 550-553
Scrima, A., Konícková, R., Czyzewski, B. K., Kawasaki, Y., Jeffrey, P. D., Groisman, R., Nakatani, Y., Iwai, S., Pavletich, N. P., and Thomä, N. H. (2008) Structural basis of UV DNA-damage recognition by the DDB1-DDB2 complex. Cell. 135, 1213-23
Teplova, M., Farazi, T. A., Tuschl, T., and Patel, D. J. (2016) Structural basis underlying CAC RNA recognition by the RRM domain of dimeric RNA-binding protein RBPMS. Q Rev Biophys. 49, e1
Huang, H., Deng, Z., Vladimirova, O., Wiedmer, A., Lu, F., Lieberman, P. M., and Patel, D. J. (2016) Structural basis underlying viral hijacking of a histone chaperone complex. Nat Commun. 7, 12707
Yasuda, H., Park, E., Yun, C. -hong, Sng, N. J., Lucena-Araujo, A. R., Yeo, W. - L., Huberman, M. S., Cohen, D. W., Nakayama, S., Ishioka, K., Yamaguchi, N., Hanna, M., Oxnard, G. R., Lathan, C. S., Moran, T., Sequist, L. V., Chaft, J. E., Riely, G. J., Arcila, M. E., Soo, R. A., Meyerson, M., Eck, M. J., Kobayashi, S. S., and Costa, D. B. (2013) Structural, biochemical, and clinical characterization of epidermal growth factor receptor (EGFR) exon 20 insertion mutations in lung cancer. Sci Transl Med. 5, 216ra177
Leung, J. H., Schurig-Briccio, L. A., Yamaguchi, M., Moeller, A., Speir, J. A., Gennis, R. B., and Stout, C. D. (2015) Structural biology. Division of labor in transhydrogenase by alternating proton translocation and hydride transfer. Science. 347, 178-81
Banerjee, S. (2021) Structural Biology in Drug Discovery. Calcutta University
Clayton, G. M., White, J., Lee, S., Kappler, J. W., and Chan, S. K. (2019) Structural characteristics of lipocalin allergens: Crystal structure of the immunogenic dog allergen Can f 6. PLoS One. 14, e0213052
Tang, H., Demir, Ö., Kurniawan, F., Brown, W. L., Shi, K., Moeller, N. H., Carpenter, M. A., Belica, C., Orellana, K., Du, G., LeBeau, A. M., Amaro, R. E., Harris, R. S., and Aihara, H. (2021) Structural Characterization of a Minimal Antibody against Human APOBEC3B. Viruses. 10.3390/v13040663
Knockenhauer, K. E., and Schwartz, T. U. (2015) Structural Characterization of Bardet-Biedl Syndrome 9 Protein (BBS9). J Biol Chem. 290, 19569-83
Zheng, C., Page, R. C., Das, V., Nix, J. C., Wigren, E., Misra, S., and Zhang, B. (2013) Structural characterization of carbohydrate binding by LMAN1 protein provides new insight into the endoplasmic reticulum export of factors V (FV) and VIII (FVIII). J Biol Chem. 288, 20499-509
Schiltz, C. J., Lee, A., Partlow, E. A., Hosford, C. J., and Chappie, J. S. (2019) Structural characterization of Class 2 OLD family nucleases supports a two-metal catalysis mechanism for cleavage. Nucleic Acids Res. 47, 9448-9463
Ochoa, J. M., Mijares, O., Acosta, A. A., Escoto, X., Leon-Rivera, N., Marshall, J. D., Sawaya, M. R., and Yeates, T. O. (2021) Structural characterization of hexameric shell proteins from two types of choline-utilization bacterial microcompartments. Acta Crystallogr F Struct Biol Commun. 77, 275-285
Aquino, B., Couñago, R. M., Verza, N., Ferreira, L. M., Massirer, K. B., Gileadi, O., and Arruda, P. (2017) Structural Characterization of Maize SIRK1 Kinase Domain Reveals an Unusual Architecture of the Activation Segment. Front Plant Sci. 8, 852
Wachter, F., Nowak, R. P., Ficarro, S., Marto, J., and Fischer, E. S. (2024) Structural characterization of methylation-independent PP2A assembly guides alphafold2Multimer prediction of family-wide PP2A complexes. J Biol Chem. 300, 107268
Lormand, J. D., Kim, S. - K., Walters-Marrah, G. A., Brownfield, B. A., J Fromme, C., Winkler, W. C., Goodson, J. R., Lee, V. T., and Sondermann, H. (2021) Structural characterization of NrnC identifies unifying features of dinucleotidases. Elife. 10.7554/eLife.70146
Sysoeva, T. A., Bane, L. B., Xiao, D. Y., Bose, B., Chilton, S. S., Gaudet, R., and Burton, B. M. (2015) Structural characterization of the late competence protein ComFB from Bacillus subtilis. Biosci Rep. 10.1042/BSR20140174
Joiner, C. M., Li, H., Jiang, J., and Walker, S. (2019) Structural characterization of the O-GlcNAc cycling enzymes: insights into substrate recognition and catalytic mechanisms. Curr Opin Struct Biol. 56, 97-106
Toms, A. V., Haas, A. L., Park, J. - H., Begley, T. P., and Ealick, S. E. (2005) Structural characterization of the regulatory proteins TenA and TenI from Bacillus subtilis and identification of TenA as a thiaminase II. Biochemistry. 44, 2319-29
Faust, T. B., Yoon, H., Nowak, R. P., Donovan, K. A., Li, Z., Cai, Q., Eleuteri, N. A., Zhang, T., Gray, N. S., and Fischer, E. S. (2020) Structural complementarity facilitates E7820-mediated degradation of RBM39 by DCAF15. Nat Chem Biol. 16, 7-14
Monda, J. K., Scott, D. C., Miller, D. J., Lydeard, J., King, D., J Harper, W., Bennett, E. J., and Schulman, B. A. (2013) Structural conservation of distinctive N-terminal acetylation-dependent interactions across a family of mammalian NEDD8 ligation enzymes. Structure. 21, 42-53
Bradley, T., Fera, D., Bhiman, J., Eslamizar, L., Lu, X., Anasti, K., Zhang, R., Sutherland, L. L., Scearce, R. M., Bowman, C. M., Stolarchuk, C., Lloyd, K. E., Parks, R., Eaton, A., Foulger, A., Nie, X., Karim, S. S. Abdool, Barnett, S., Kelsoe, G., Kepler, T. B., S Alam, M., Montefiori, D. C., M Moody, A., Liao, H. - X., Morris, L., Santra, S., Harrison, S. C., and Haynes, B. F. (2016) Structural Constraints of Vaccine-Induced Tier-2 Autologous HIV Neutralizing Antibodies Targeting the Receptor-Binding Site. Cell Rep. 14, 43-54

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