Contributions to collective works (2)
  1. 1. Huculeci, R. I., Kieken, F., Garcia-Pino, A., Buts, L., van Nuland, N. A. J., & Lenaerts, T. (2017). Structural characterization of monomeric/dimeric state of p59fyn SH2 domain. In K. Machida & B. Liu (Eds.), SH2 Domains: Methods and Protocols (1 ed., p. 555). Humana Press.
  2. 2. Garcia-Pino, A., Sterckx, Y., Magnuson, R. D., & Loris, R. (2013). Type II Toxin-Antitoxin Loci: The phd/doc Family. In K. Gerdes (Ed.), Prokaryotic Toxin-Antitoxins (pp. 157-176). Springer Berlin Heidelberg.
    3.   Peer-reviewed journal articles (81)
  3. 1. Dominguez Molina, L., Kurata, T., Cepauskas, A., Echemendia Blanco, D., Zedek, S., Talavera Perez, A., Atkinson, G. C., Hauryliuk, V., & Garcia-Pino, A. (2024). Mechanisms of neutralization of toxSAS from toxin-antitoxin modules. Nature Chemical Biology. doi:10.1038/s41589-024-01630-4
  4. 2. Mets, T., Kurata, T., Ernits, K., Johansson, M. J. O., Craig, S., Evora, G. M., Buttress, J., Odai, R., Coppieters'T Wallant, K., Nakamoto, J., Shyrokova, L., Egorov, A., Doering, C. R., Brodiazhenko, T., Laub, M. T., Tenson, T., Strahl, H., Martens, C., Harms, A., Garcia-Pino, A., Atkinson, G. C., & Hauryliuk, V. (2024). Mechanism of phage sensing and restriction by toxin-antitoxin-chaperone systems. Cell Host & Microbe. doi:10.1016/j.chom.2024.05.003
  5. 3. Desmecht, S., Latka, A., Ceyssens, P.-J., Garcia-Pino, A., Gillis, A., Lavigne, R., Lima Mendez, G., Matthijnssens, J., Vázquez, R., Venneman, J., Wagemans, J., Briers, Y., & Thiry, D. (2024). Meeting Report of the Second Symposium of the Belgian Society for Viruses of Microbes and Launch of the Phage Valley. Viruses, 16(2), 299. doi:10.3390/v16020299
  6. 4. Dominguez Molina, L., Talavera Perez, A., Cepauskas, A., Kurata, T., Echemendia Blanco, D., Hauryliuk, V., & Garcia-Pino, A. (2023). Biochemical and X-ray analyses of the players involved in the faRel2/aTfaRel2 toxin-antitoxin operon. Acta Crystallographica Section F:Structural Biology Communications, 79(Pt 10), 247-256. doi:10.1107/S2053230X23007288
  7. 5. Ernits, K., Saha, C. K., Brodiazhenko, T., Chouhan, B., Shenoy, A., Buttress, J., Duque-Pedraza, J., Bojar, V., Nakamoto, J., Kurata, T., Egorov, A., Shyrokova, L., Johansson, M. J. O., Mets, T., Rustamova, A., Džigurski, J., Tenson, T., Garcia-Pino, A., Strahl, H., Elofsson, A., Hauryliuk, V., & Atkinson, G. C. (2023). The structural basis of hyperpromiscuity in a core combinatorial network of type II toxin–antitoxin and related phage defense systems. Proceedings of the National Academy of Sciences of the United States of America, 120(33). doi:10.1073/pnas.2305393120
  8. 6. Armalyte, J., Cepauskas, A., Šakalytė, G., Martinkus, J., Skerniškytė, J., Martens, C., Sužiedeliene, E., Garcia-Pino, A., & Jurenas, D. (2023). A polyamine acetyltransferase regulates the motility and biofilm formation of Acinetobacter baumannii. Nature communications, 14(1). doi:10.1038/s41467-023-39316-5
  9. 7. Latka, A., Aertsen, A., Boeckaerts, D., Blasdel, B. B., Ceyssens, P.-J., Garcia-Pino, A., Gillis, A., Lavigne, R., Lima Mendez, G., Matthijnssens, J., Onsea, J., Peeters, E., Pirnay, J.-P., Thiry, D., Vandenheuvel, D., Van Mechelen, E., Venneman, J., Verbeken, G., Wagemans, J., & Briers, Y. (2023). Foundation of the Belgian Society for Viruses of Microbes and Meeting Report of Its Inaugural Symposium. Viruses, 15(5), 1213. doi:10.3390/v15051213
  10. 8. Tamman, H., Ernits, K., Roghanian, M., Ainelo, A., Julius, C., Perrier, A., Talavera Perez, A., Ainelo, H., Dugauquier, R., Zedek, S., Thureau, A., Pérez, J., Mendez, G. L., Hallez, R., Atkinson, G. C., Hauryliuk, V., & Garcia-Pino, A. (2023). Structure of SpoT reveals evolutionary tuning of catalysis via conformational constraint. Nature Chemical Biology. doi:10.1038/s41589-022-01198-x
  11. 9. Ainelo, A., Caballero-Montes, J., Bulvas, O., Ernits, K., Coppieters'T Wallant, K., Takada, H., Craig, S., Mazzucchelli, G., Zedek, S., Pichová, I. I., Atkinson, G. C., Talavera Perez, A., Martens, C., Hauryliuk, V., & Garcia-Pino, A. (2023). The structure of DarB in complex with Rel NTD reveals nonribosomal activation of Rel stringent factors. Science advances, 9(3). doi:10.1126/sciadv.ade4077
  12. 10. Zhang, T., Tamman, H., Coppieters'T Wallant, K., Kurata, T., LeRoux, M., Srikant, S., Brodiazhenko, T., Cepauskas, A., Talavera Perez, A., Martens, C., Atkinson, G. C., Hauryliuk, V., Garcia-Pino, A., & Laub, M. T. (2022). Direct activation of a bacterial innate immune system by a viral capsid protein. Nature (London), 612(7938), 132-140. doi:10.1038/s41586-022-05444-z
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