Publications

Found 908 results
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A
Aaron, J. A., Lin, X., Cane, D. E., and Christianson, D. W. (2010) Structure of epi-isozizaene synthase from Streptomyces coelicolor A3(2), a platform for new terpenoid cyclization templates. Biochemistry. 49, 1787-97
Abraham, J., Corbett, K. D., Farzan, M., Choe, H., and Harrison, S. C. (2010) Structural basis for receptor recognition by New World hemorrhagic fever arenaviruses. Nat Struct Mol Biol. 17, 438-44
Adlakha, J., Hong, Z., Li, P. Q., and Reinisch, K. M. (2022) Structural and biochemical insights into lipid transport by VPS13 proteins. J Cell Biol. 10.1083/jcb.202202030
Afshar, S., Sawaya, M. R., and Morrison, S. L. (2009) Structure of a mutant human purine nucleoside phosphorylase with the prodrug, 2-fluoro-2'-deoxyadenosine and the cytotoxic drug, 2-fluoroadenine. Protein Sci. 18, 1107-14
AhYoung, A. P., Koehl, A., Vizcarra, C. L., Cascio, D., and Egea, P. F. (2016) Structure of a putative ClpS N-end rule adaptor protein from the malaria pathogen Plasmodium falciparum. Protein Sci. 25, 689-701
AhYoung, A. P., Koehl, A., Cascio, D., and Egea, P. F. (2015) Structural mapping of the ClpB ATPases of Plasmodium falciparum: Targeting protein folding and secretion for antimalarial drug design. Protein Sci. 24, 1508-20
Airola, M. V., Watts, K. J., Bilwes, A. M., and Crane, B. R. (2010) Structure of concatenated HAMP domains provides a mechanism for signal transduction. Structure. 18, 436-48
Alicea-Velázquez, N. L., Jakoncic, J., and Boggon, T. J. (2013) Structure-guided studies of the SHP-1/JAK1 interaction provide new insights into phosphatase catalytic domain substrate recognition. J Struct Biol. 181, 243-51
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
Anand, R., Kaminski, P. Alexandre, and Ealick, S. E. (2004) Structures of purine 2'-deoxyribosyltransferase, substrate complexes, and the ribosylated enzyme intermediate at 2.0 A resolution. Biochemistry. 43, 2384-93
Andersen, K. R., Onischenko, E., Tang, J. H., Kumar, P., Chen, J. Z., Ulrich, A., Liphardt, J. T., Weis, K., and Schwartz, T. U. (2013) Scaffold nucleoporins Nup188 and Nup192 share structural and functional properties with nuclear transport receptors. Elife. 2, e00745
Antipenko, A., Himanen, J. - P., van Leyen, K., Nardi-Dei, V., Lesniak, J., Barton, W. A., Rajashankar, K. R., Lu, M., Hoemme, C., Püschel, A. W., and Nikolov, D. B. (2003) Structure of the semaphorin-3A receptor binding module. Neuron. 39, 589-98
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
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
Aranda, R., Cai, H., Worley, C. E., Levin, E. J., Li, R., Olson, J. S., Phillips, G. N., and Richards, M. P. (2009) Structural analysis of fish versus mammalian hemoglobins: effect of the heme pocket environment on autooxidation and hemin loss. Proteins. 75, 217-30
Arbing, M. A., Chan, S., Shin, A., Phan, T., Ahn, C. J., Rohlin, L., and Gunsalus, R. P. (2012) Structure of the surface layer of the methanogenic archaean Methanosarcina acetivorans. Proc Natl Acad Sci U S A. 109, 11812-7
Ardiccioni, C., Clarke, O. B., Tomasek, D., Issa, H. A., von Alpen, D. C., Pond, H. L., Banerjee, S., Rajashankar, K. R., Liu, Q., Guan, Z., Li, C., Kloss, B., Bruni, R., Kloppmann, E., Rost, B., M Manzini, C., Shapiro, L., and Mancia, F. (2016) Structure of the polyisoprenyl-phosphate glycosyltransferase GtrB and insights into the mechanism of catalysis. Nat Commun. 7, 10175
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
Arnett, K. L., Hass, M., McArthur, D. G., Ilagan, M. Xenia G., Aster, J. C., Kopan, R., and Blacklow, S. C. (2010) Structural and mechanistic insights into cooperative assembly of dimeric Notch transcription complexes. Nat Struct Mol Biol. 17, 1312-7
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
B
Babayeva, N. D., Wilder, P. J., Shiina, M., Mino, K., Desler, M., Ogata, K., Rizzino, A., and Tahirov, T. H. (2010) Structural basis of Ets1 cooperative binding to palindromic sequences on stromelysin-1 promoter DNA. Cell Cycle. 9, 3054-62
Babayeva, N. D., Baranovskaya, O. I., and Tahirov, T. H. (2012) Structural basis of Ets1 cooperative binding to widely separated sites on promoter DNA. PLoS One. 7, e33698
Baconguis, I., and Gouaux, E. (2012) Structural plasticity and dynamic selectivity of acid-sensing ion channel-spider toxin complexes. Nature. 489, 400-5
Bae, B., Feklistov, A., Lass-Napiorkowska, A., Landick, R., and Darst, S. A. (2015) Structure of a bacterial RNA polymerase holoenzyme open promoter complex. Elife. 10.7554/eLife.08504
Baidin, V., Owens, T. W., Lazarus, M. B., and Kahne, D. (2021) Simple Secondary Amines Inhibit Growth of Gram-Negative Bacteria through Highly Selective Binding to Phenylalanyl-tRNA Synthetase. J Am Chem Soc. 143, 623-627

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