RECHERCHER
Résultats de la recherche ""
Crippling the bacterial cell wall molecular machinery
Publié le 17/04/2019
... Williams, A.H., Wheeler, A., Deghmane, A.E., Santecchia, I., Impens, F., Dias Bastos, P.A., Hicham, S., Moya Nilges, M., Malosse, C., Chamot-Rooke, J., Haouz, A., Robins, W.P., Taha, M.K., Gomperts Boneca, I. "Crippling the bacterial cell wall molecular ...
Structural basis for inhibition of human primase by arabinofuranosyl nucleoside analogues Fludarabine and Vidarabine
Publié le 17/04/2019
... Holzer, S., Rzechorzek, N.J., Short, I.R., Jenkyn-Bedford, M., Pellegrini, L., Kilkenny, M.L. "Structural basis for inhibition of human primase by arabinofuranosyl nucleoside analogues Fludarabine and Vidarabine". BioRxiv., preprint: (2019). ...
Proper chromosome alignment depends on BRCA2 phosphorylation by PLK1
Publié le 12/04/2019
... Ehlén, A., Martin, C., Miron, S., Julien, M., Theillet, F.X., Boucherit, V., Ropars, V., Duchambon, P., El Marjou, A., Zinn-Justin, S., Carreira, A. "Proper chromosome alignment depends on BRCA2 phosphorylation by PLK1". BioRxiv., preprint: (2019). ...
Comparative analysis of pyrimidine substituted aminoacyl-sulfamoyl nucleosides as potential inhibitors targeting class I aminoacyl-tRNA synthetases
Publié le 09/04/2019
... Nautiyal, M., De Graef, S., Pang, L., Gadakh, B., Strelkov, S. V., Weeks, S.D., Van Aerschot, A. "Comparative analysis of pyrimidine substituted aminoacyl-sulfamoyl nucleosides as potential inhibitors targeting class I aminoacyl-tRNA synthetases" European ...
Structure of ATP citrate lyase and the origin of citrate synthase in the Krebs cycle
Publié le 05/04/2019
... Verschueren, K.H.G., Blanchet, C., Felix, J., Dansercoer, A., De Vos, D., Bloch, Y., Van Beeumen, J., Svergun, D., Gutsche, I., Savvides, S.N., Verstraete, K. "Structure of ATP citrate lyase and the origin of citrate synthase in the Krebs cycle" Nature., ...
Structural Analysis of the Hanks-Type Protein Kinase YabT From Bacillus subtilis Provides New Insights in its DNA-Dependent Activation
Publié le 03/04/2019
... Shi, L., Cavagnino, A., Rabefiraisana, J.L., Lazar, N., Li de la Sierra-Gallay, I., Ochsenbein, F., Valerio-Lepiniec, M., Urvoas, A., Minard, P., Mijakovic, I., Nessler, S. "Structural Analysis of the Hanks-Type Protein Kinase YabT From Bacillus subtilis ...
Structural Basis for DNA Gyrase Interaction with Coumermycin A1
Publié le 30/03/2019
... Vanden Broeck, A., McEwen, A.G., Chebaro, Y., Potier, N., Lamour, V. "Structural Basis for DNA Gyrase Interaction with Coumermycin A1" Journal of Medicinal Chemistry., 62(8): 4225–4231. (2019). ...
Thermodynamic stability of the transcription regulator PaaR2 from Escherichia coli O157:H7
Publié le 29/03/2019
... De Bruyn, P., Hadži, S., Vandervelde, A., Konijnenberg, A., Proliè-Kalinšek, M., Sterckx, Y.G.J., Sobott, F., Lah, J., Van Melderen, L., Loris, R. "Thermodynamic stability of the transcription regulator PaaR2 from Escherichia coli O157:H7" Biophysical ...
MglA functions as a three-state GTPase to control movement reversals of Myxococcus xanthus
Publié le 16/03/2019
... Galicia, C., Lhospice, S., Fernández Varela, P., Trapani, S., Zhang, W., Navaza, J., Herrou, J., Mignot, T., Cherfils, J. "MglA functions as a three-state GTPase to control movement reversals of Myxococcus xanthus" Nature Communications., 10: art.n° 5300 ...
Substrate binding mode and catalytic mechanism of human heparan sulfate d-glucuronyl C5 epimerase
Publié le 16/03/2019
... Debarnot, C., Monneau, Y.R., Roig-Zamboni, V., Delauzun, V., Le Narvor, C., Richard, E., Hénault, J., Goulet, A., Fadel, F., Vivès, R.R., Priem, B., Bonnaffé, D., Lortat-Jacob, H., Bourne, Y. "Substrate binding mode and catalytic mechanism of human ...