Articles dans des revues avec comité de lecture (10)
  1. 1. Aragona, M., Sifrim, A., Malfait, M., Song, Y., Van Herck, J., Dekoninck, S., Gargouri, S., Lapouge, G., Swedlund, B., Dubois, C., Baatsen, P., Vints, K., Han, S., Tissir, F., Voet, T., Simons, B. D., & Blanpain, C. (2020). Mechanisms of stretch-mediated skin expansion at single-cell resolution. Nature (London). doi:10.1038/s41586-020-2555-7
  2. 2. Dekoninck, S., Hannezo, E., Sifrim, A., Miroshnikova, Y. Y., Aragona, M., Malfait, M., Gargouri, S., De Neunheuser, C., Dubois, C., Voet, T., Wickström, S. S., Simons, B. D., & Blanpain, C. (2020). Defining the Design Principles of Skin Epidermis Postnatal Growth. Cell. doi:10.1016/j.cell.2020.03.015
  3. 3. Dekoninck, S., & Blanpain, C. (2019). Stem cell dynamics, migration and plasticity during wound healing. Nature cell biology, 21(1), 18-24. doi:10.1038/s41556-018-0237-6
  4. 4. Aragona, M., Dekoninck, S., Rulands, S., Lenglez, S., Mascré, G., Simons, B. D., & Blanpain, C. (2017). Defining stem cell dynamics and migration during wound healing in mouse skin epidermis. Nature communications, 8, 14684. doi:10.1038/ncomms14684
  5. 5. Kass, Y. K., Lapouge, G., Bouvree, K., Rorive, S., Brohée, S., Appelstein, O., Larsimont, J.-C., Sukumaran, V., Van de Sande, B., Pucci, D., Dekoninck, S., Berthe, J.-V., Aerts, S., Salmon, I., Del Marmol, V., & Blanpain, C. (2012). Adult interfollicular tumour-initiating cells are reprogrammed into an embryonic hair follicle progenitor-like fate during basal cell carcinoma initiation. Nature cell biology, 14, 1282-1294. doi:10.1038/ncb2628
  6. 6. Lapouge, G., Beck, B., Nassar, D., Dubois, C., Dekoninck, S., & Blanpain, C. (2012). Skin squamous cell carcinoma propagating cells increase with tumour progression and invasiveness. EMBO journal, 31(24), 4563-4575. doi:10.1038/emboj.2012.312
  7. 7. Mascré, G., Dekoninck, S., Drogat, B., Kass, Y. K., Brohée, S., Sotiropoulou, P., Simons, B. D., & Blanpain, C. (2012). Distinct contribution of stem and progenitor cells to epidermal maintenance. Nature (London). doi:10.1038/nature11393
  8. 8. Desmedt, C., Majjaj, S., Kheddoumi, N., Singhal, S. K., Haibe-Kains, B., El Ouriaghli, F., Chaboteaux, C., Michiels, S., Lallemand, F., Journé, F., Duvillier, H., Loi, S., Quackenbush, J., Dekoninck, S., Blanpain, C., Lagneaux, L., Houhou, N., Delorenzi, M., Larsimont, D., Piccart-Gebhart, M., & Sotiriou, C. (2012). Characterization and Clinical Evaluation of CD10+ Stroma Cells in the Breast Cancer Microenvironment. Clinical cancer research, 18(4), 1004-1014. doi:10.1158/1078-0432.CCR-11-0383
  9. 9. Beck, B., Driessens, G., Goossens, S., Kass, Y. K., Kuchnio, A., Caauwe, A., Sotiropoulou, P., Loges, S., Lapouge, G., Candi, A., Mascré, G., Drogat, B., Dekoninck, S., Haigh, J. J., Carmeliet, P., & Blanpain, C. (2011). A vascular niche and a VEGF-Nrp1 loop regulate the initiation and stemness of skin tumours. Nature (London), 478(7369), 399-403. doi:10.1038/nature10525
  10. 10. Van Keymeulen, A., Rocha, A. S., Ousset, M., Beck, B., Bouvencourt, G., Rock, J., Sharma, N., Dekoninck, S., & Blanpain, C. (2011). Distinct stem cells contribute to mammary gland development and maintenance. Nature (London), 478. doi:10.1038/nature10573
    11.   Thèses et mémoires (1)
  11. 1. Dekoninck, S. (2020). Defining the molecular and cellular mechanisms underlying wound repair and postnatal growth in the mouse epidermis (Thèse doctorale non-publiée). Université libre de Bruxelles, Faculté de Médecine – Sciences biomédicales, Bruxelles.