Found 2727 results
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Makde, R. D., England, J. R., Yennawar, H. P., and Tan, S. (2010) Structure of RCC1 chromatin factor bound to the nucleosome core particle. Nature. 467, 562-6
Aoki, S. T., Settembre, E. C., Trask, S. D., Greenberg, H. B., Harrison, S. C., and Dormitzer, P. R. (2009) Structure of rotavirus outer-layer protein VP7 bound with a neutralizing Fab. Science. 324, 1444-7
Kiser, P. D., Farquhar, E. R., Shi, W., Sui, X., Chance, M. R., and Palczewski, K. (2012) Structure of RPE65 isomerase in a lipidic matrix reveals roles for phospholipids and iron in catalysis. Proc Natl Acad Sci U S A. 109, E2747-56
Ojha, M., Vogt, J., Das, N. Krishna, Redmond, E., Singh, K., Banna, H. Al, Sadat, T., and Koirala, D. (2024) Structure of saguaro cactus virus 3' translational enhancer mimics 5' cap for eIF4E binding. Proc Natl Acad Sci U S A. 121, e2313677121
Jobichen, C., Chong, T. Ying, Prabhakar, M. Tirumuru, Nayak, D., Biswas, D., Pannu, N. Singh, Hanski, E., and Sivaraman, J. (2018) Structure of ScpC, a virulence protease from , reveal the functional domains and maturation mechanism. Biochem J. 10.1042/BCJ20180145
Blank, P. N., Shinsky, S. A., and Christianson, D. W. (2019) Structure of Sesquisabinene Synthase 1, a Terpenoid Cyclase That Generates a Strained [3.1.0] Bridged-Bicyclic Product. ACS Chem Biol. 10.1021/acschembio.9b00218
Ayres, C. A., Schormann, N., Senkovich, O., Fry, A., Banerjee, S., Ulett, G. C., and Chattopadhyay, D. (2014) Structure of Streptococcus agalactiae glyceraldehyde-3-phosphate dehydrogenase holoenzyme reveals a novel surface. Acta Crystallogr F Struct Biol Commun. 70, 1333-9
Krishnan, V., Dwivedi, P., Kim, B. J., Samal, A., Macon, K., Ma, X., Mishra, A., Doran, K. S., Ton-That, H., and Narayana, S. V. L. (2013) Structure of Streptococcus agalactiae tip pilin GBS104: a model for GBS pili assembly and host interactions. Acta Crystallogr D Biol Crystallogr. 69, 1073-89
Bailey, S., Wing, R. A., and Steitz, T. A. (2006) The structure of T. aquaticus DNA polymerase III is distinct from eukaryotic replicative DNA polymerases. Cell. 126, 893-904
Basu, R., Eichhorn, C. D., Cheng, R., Peterson, R. D., and Feigon, J. (2020) Structure of telomerase protein Pof8 C-terminal domain is an xRRM conserved among LARP7 proteins. RNA Biol. 10.1080/15476286.2020.1836891
Jiang, J., Chan, H., Cash, D. D., Miracco, E. J., Loo, R. R. Ogorzale, Upton, H. E., Cascio, D., Johnson, R. O. 'Brien, Collins, K., Loo, J. A., Z Zhou, H., and Feigon, J. (2015) Structure of Tetrahymena telomerase reveals previously unknown subunits, functions, and interactions. Science. 350, aab4070
Reha-Krantz, L. J., Hariharan, C., Subuddhi, U., Xia, S., Zhao, C., Beckman, J., Christian, T., and Konigsberg, W. (2011) Structure of the 2-aminopurine-cytosine base pair formed in the polymerase active site of the RB69 Y567A-DNA polymerase. Biochemistry. 50, 10136-49
Ha, B. Hak, Simpson, M. Adam, Koleske, A. J., and Boggon, T. J. (2015) Structure of the ABL2/ARG kinase in complex with dasatinib. Acta Crystallogr F Struct Biol Commun. 71, 443-8
Stabach, P. R., Simonović, I., Ranieri, M. A., Aboodi, M. S., Steitz, T. A., Simonovic, M., and Morrow, J. S. (2009) The structure of the ankyrin-binding site of beta-spectrin reveals how tandem spectrin-repeats generate unique ligand-binding properties. Blood. 113, 5377-84
Gangwar, S. Pal, Green, M. N., Michard, E., Simon, A. A., Feijó, J. A., and Sobolevsky, A. I. (2020) Structure of the Arabidopsis Glutamate Receptor-like Channel GLR3.2 Ligand-Binding Domain. Structure. 10.1016/j.str.2020.09.006
Green, M. N., Gangwar, S. Pal, Michard, E., Simon, A. A., Portes, M. Teresa, Barbosa-Caro, J., Wudick, M. M., Lizzio, M. A., Klykov, O., Yelshanskaya, M. V., Feijó, J. A., and Sobolevsky, A. I. (2021) Structure of the Arabidopsis thaliana glutamate receptor-like channel GLR3.4. Mol Cell. 10.1016/j.molcel.2021.05.025
Corbett, K. D., and Berger, J. M. (2010) Structure of the ATP-binding domain of Plasmodium falciparum Hsp90. Proteins. 78, 2738-44
Meisner, J., Maehigashi, T., André, I., Dunham, C. M., and Moran, C. P. (2012) Structure of the basal components of a bacterial transporter. Proc Natl Acad Sci U S A. 109, 5446-51
Kavran, J. M., and Steitz, T. A. (2007) Structure of the base of the L7/L12 stalk of the Haloarcula marismortui large ribosomal subunit: analysis of L11 movements. J Mol Biol. 371, 1047-59
Liu, Z., Frutos, S., Bick, M. J., Vila-Perelló, M., Debelouchina, G. T., Darst, S. A., and Muir, T. W. (2014) Structure of the branched intermediate in protein splicing. Proc Natl Acad Sci U S A. 111, 8422-7
Wittenborn, E. C., Jost, M., Wei, Y., Stubbe, J. A., and Drennan, C. L. (2016) Structure of the Catalytic Domain of the Class I Polyhydroxybutyrate Synthase from Cupriavidus necator. J Biol Chem. 291, 25264-25277
Bodnar, N. O., Kim, K. H., Ji, Z., Wales, T. E., Svetlov, V., Nudler, E., Engen, J. R., Walz, T., and Rapoport, T. A. (2018) Structure of the Cdc48 ATPase with its ubiquitin-binding cofactor Ufd1-Npl4. Nat Struct Mol Biol. 25, 616-622
Galaleldeen, A., Taylor, A. B., Chen, D., Schuermann, J. P., Holloway, S. P., Hou, S., Gong, S., Zhong, G., and P Hart, J. (2013) Structure of the Chlamydia trachomatis immunodominant antigen Pgp3. J Biol Chem. 288, 22068-79
Mahoney, B. J., Takayesu, A., Zhou, A., Cascio, D., and Clubb, R. T. (2022) The structure of the Clostridium thermocellum RsgI9 ectodomain provides insight into the mechanism of biomass sensing. Proteins. 10.1002/prot.26326
Economou, N. J., Zentner, I. J., Lazo, E., Jakoncic, J., Stojanoff, V., Weeks, S. D., Grasty, K. C., Cocklin, S., and Loll, P. J. (2013) Structure of the complex between teicoplanin and a bacterial cell-wall peptide: use of a carrier-protein approach. Acta Crystallogr D Biol Crystallogr. 69, 520-33