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Allosteric nanobodies to study the interactions between SOS1 and RAS
Publié le 24/07/2024
... Fischer, B., Uchański,T., Sheryazdanova,A., Gonzalez,S., Volkov,A.N., Brosens,E., Zögg, T., Kalichuk, V., Ballet, S., Versées, W., Sablina, A.A., Pardon, E., Wohlkönig, A., Steyaert, J. "Allosteric nanobodies to study the interactions between SOS1 and RAS ...
Constrained Catalytic Itinerary of a Retaining 3,6-Anhydro-D-Galactosidase, a Key Enzyme in Red Algal Cell Wall Degradation
Publié le 19/07/2024
... Wallace, M.D., Cuxart, I., Roret, T., Guée, L., Debowski, A.W., Czjzek, M., Rovira, C., Stubbs, K.A., Ficko-Blean, E. "Constrained Catalytic Itinerary of a Retaining 3,6-Anhydro-D-Galactosidase, a Key Enzyme in Red Algal Cell Wall Degradation" Angewandte ...
Dynamic BTB-domain filaments promote clustering of ZBTB proteins
Publié le 12/07/2024
... Mance, L., Bigot, N., Sánchez, E.Z., Coste, F., Martín-González, N., Zentout, S., Biliškov, M., Pukało, Z., Mishra, A., Chapuis, C., Arteni, A.A., Lateur, A., Goffinont, S., Gaudon, V., Talhaoui, I., Casuso, I., Beaufour, M., Garnier, N., Artzner, F., ...
Structural basis of TMPRSS2 zymogen activation and recognition by the HKU1 seasonal coronavirus
Publié le 05/07/2024
... Fernández, I., Saunders, N., Duquerroy, S., Bolland, W.H., Arbabian, A., Baquero, E., Blanc, C., Lafaye, P., Haouz, A., Buchrieser, J., Schwartz, O., Rey, F.A. "Structural basis of TMPRSS2 zymogen activation and recognition by the HKU1 seasonal ...
Travelling in Microphis (Teleostei: Syngnathidae) Otoliths with Two-Dimensional X-ray Fluorescence Maps: Twists and Turns on the Road to Strontium Incorporation
Publié le 19/06/2024
... Lord, C., Haÿ, V., Medjoubi, K., Berland, S., Keith, P. "Travelling in Microphis (Teleostei: Syngnathidae) Otoliths with Two-Dimensional X-ray Fluorescence Maps: Twists and Turns on the Road to Strontium Incorporation" Biology., 13(6): art.n° 446. (2024 ...
Mono- and bi-specific nanobodies targeting the CUB domains of PCPE-1 reduce the proteolytic processing of fibrillar procollagens
Publié le 19/06/2024
... Lagoutte, P., Bourhis, J.M., Mariano, N., Gueguen-Chaignon, V., Vandroux, D., Moali, C., Vadon-Le Goff, S. "Mono- and bi-specific nanobodies targeting the CUB domains of PCPE-1 reduce the proteolytic processing of fibrillar procollagens" Journal of ...
The first application of Re–Os dating on Paleoproterozoic Francevillian sediments (Gabon)
Publié le 18/06/2024
... Ngwal’ghoubou Ikouanga, J., Reisberg, L., Pierson-Wickmann, A.C., El Khoury, A., Fontaine, C., El Albani, A. "The first application of Re–Os dating on Paleoproterozoic Francevillian sediments (Gabon)" Comptes Rendus Géoscience., 356: 57-66. (2024). ...
Fragment-Based Discovery of Novel MUS81 Inhibitors
Publié le 15/06/2024
... Collie, G.W., Börjesson, U., Chen, Y., Dong, Z., Di Fruscia, P., Gohlke, A., Hoyle, A., Hunt, T.A., Jesani, M.H., Luo, H., Luptak, J., Milbradt, A.G., Narasimhan, P., Packer, M., Patel, S., Qiao, J., Storer, R.I., Stubbs, C.J., Tart, J., Truman, C., Wang, ...
Omecamtiv mecarbil and Mavacamten target the same myosin pocket despite opposite effects in heart contraction
Publié le 10/06/2024
... Auguin, D., Robert-Paganin, J., Réty, S., Kikuti, C., David, A., Theumer, G., Schmidt, A.W., Knölker, H.J., Houdusse, A. "Omecamtiv mecarbil and Mavacamten target the same myosin pocket despite opposite effects in heart contraction" Nature Communications. ...
Mechanisms of neutralization of toxSAS from toxin–antitoxin modules
Publié le 06/06/2024
... Dominguez-Molina, L., Kurata, T., Cepauskas, A., Echemendia-Blanco, D., Zedek, S., Talavera-Perez, A., Atkinson, G.C., Hauryliuk, V., Garcia-Pino, A. "Mechanisms of neutralization of toxSAS from toxin–antitoxin modules" Nature Chemical Biology., 21(2): ...