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Arnold, E., Hammami, I., Chen, J., Gupte, S., Durocher, Y., & Jolicoeur, M. (2016). Overexpression of G6PDH does not affect the behavior of HEK-293 clones stably expressing interferon-α2b. AIMS Bioengineering, 3(3), 319-336. Disponible
Ansorge, S., Lanthier, S., Transfiguracion, J., Durocher, Y., Henry, O., & Kamen, A. (2009). Development of a Scalable Process for High-Yield Lentiviral Vector Production by Transient Transfection of Hek293 Suspension Cultures. Journal of Gene Medicine, 11(10), 868-876. Lien externe
Baniahmad, S. F., Oliverio, R., Obregon-Gomez, I., Robert, A., Lenferink, A. E. G., Pazos, E., Virgilio, N., Banquy, X., De Crescenzo, G., & Durocher, Y. (2023). Affinity-controlled capture and release of engineered monoclonal antibodies by macroporous dextran hydrogels using coiled-coil interactions. mAbs, 15(1), 2218951 (18 pages). Lien externe
Boucher, C., Ruiz, J.-C., Thibault, M., Buschmann, M. D., Wertheimer, M. R., Jolicoeur, M., Durocher, Y., & De Crescenzo, G. (2010). Human corneal epithelial cell response to epidermal growth factor tethered via coiled-coil interactions. Biomaterials, 31(27), 7021-7031. Lien externe
Boucher, C., St-Laurent, G., Jolicoeur, M., De Crescenzo, G., & Durocher, Y. (2010). Protein Detection by Western Blot Via Coiled-Coil Interactions. Analytical Biochemistry, 399(1), 138-140. Lien externe
Boucher, C., Liberelle, B., Jolicoeur, M., Durocher, Y., & De Crescenzo, G. (2009). Epidermal Growth Factor Tethered Through Coiled-Coil Interactions Induces Cell Surface Receptor Phosphorylation. Bioconjugate Chemistry, 20(8), 1569-1577. Lien externe
Boucher, C., St-Laurent, G., Loignon, M., Jolicoeur, M., De Crescenzo, G., & Durocher, Y. (2008). The Bioactivity and Receptor Affinity of Recombinant Tagged Egf Designed for Tissue Engineering Applications Is Defined by the Nature and Position of the Tags. Tissue Engineering, Part A, 14(12), 2069-2077. Lien externe
Cambay, F., Forest-Nault, C., Dumoulin, L., Seguin, A., Henry, O., Durocher, Y., & De Crescenzo, G. (2020). Glycosylation of Fcγ receptors influences their interaction with various IgG1 glycoforms. Molecular Immunology, 121, 144-158. Lien externe
Cambay, F., Raymond, C., Brochu, D., Gilbert, M., Tu, T. M., Cantin, C., Lenferink, A., Grail, M., Henry, O., De Crescenzo, G., & Durocher, Y. (2020). Impact of IgG1 N-glycosylation on their interaction with Fc gamma receptors. Current Research in Immunology, 1, 23-37. Lien externe
Cambay, F., Henry, O., Durocher, Y., & De Crescenzo, G. (2019). Impact of N-glycosylation on Fcγ receptor / IgG interactions: unravelling differences with an enhanced surface plasmon resonance biosensor assay based on coiled-coil interactions. mAbs, 11(3), 435-452. Lien externe
Dégardin, M., Liberelle, B., Oliverio, R., Baniahmad, S. F., Darviot, C., Largillière, I., Henry, O., Durocher, Y., Banquy, X., Meunier, M., & De Crescenzo, G. (2023). Coiled-coil-based biofunctionalization of 100 nm gold nanoparticles with the trastuzumab antibody for the detection of HER2-positive cancer cells. Langmuir, 39(34), 12235-12247. Lien externe
Durocher, Y., Toussaint, C., & Henry, O. (mai 2018). Regulation of recombinant protein expression during CHO pool selection enhances high producer frequency [Communication écrite]. Cell Culture Engineering XVI, Tampa, FL. Non disponible
Dorion-Thibaudeau, J., Durocher, Y., & De Crescenzo, G. (2017). Quantification and simultaneous evaluation of the bioactivity of antibody produced in CHO cell culture-The use of the ectodomain of Fc gamma RI and surface plasmon resonance-based biosensor. Molecular Immunology, 82, 46-49. Lien externe
Dorion-Thibaudeau, J., Raymond, C., Lattova, E., Perreault, H., Durocher, Y., & De Crescenzo, G. (2014). Towards the development of a surface plasmon resonance assay to evaluate the glycosylation pattern of monoclonal antibodies using the extracellular domains of CD16a and CD64. Journal of Immunological Methods, 408, 24-34. Lien externe
De Crescenzo, G., Chao, H., Zwaagstra, J., Durocher, Y., & O'Connor-McCourt, M. D. (2008). Engineering TGF-β Traps: Artificially Dimerized Receptor Ectodomains as High-affinity Blockers of TGF-β Action. Dans Transforming Growth Factor-β in Cancer Therapy, Volume II (p. 671-684). Lien externe
De Crescenzo, G., Pham, P. L., Durocher, Y., Chao, H., & O'Connor-McCourt, M. D. (2004). MECHANISMS OF SIGNAL TRANSDUCTION-Enhancement of the Antagonistic Potency of Transforming Growth Factor-b Receptor Extracellular Domains by Coiled Coil-induced Homo-and Heterodimerization. Journal of Biological Chemistry, 279(25), 26013-26018. Lien externe
Forest-Nault, C., Koyuturk, I., Gaudreault, J., Pelletier, A., L'Abbé, D., Cass, B., Bisson, L., Burlacu, A., Delafosse, L., Stuible, M., Henry, O., De Crescenzo, G., & Durocher, Y. (2024). A Biosensor Assay Based on Coiled-Coil-Mediated Human ACE2 Receptor Capture for the Analysis of Its Interactions with the SARS-CoV-2 Receptor Binding Domain. Dans Bradfute, S. B. (édit.), Recombinant Glycoproteins: Methods and Protocols (p. 89-105). Lien externe
Forest-Nault, C., Koyuturk, I., Gaudreault, J., Pelletier, A., L'Abbé, D., Cass, B., Bisson, L., Burlacu, A., Delafosse, L., Stuible, M., Henry, O., De Crescenzo, G., & Durocher, Y. (2022). Impact of the temperature on the interactions between common variants of the SARS-CoV-2 receptor binding domain and the human ACE2. Scientific Reports, 12(1), 11520 (11 pages). Lien externe
Forest-Nault, C., Gaudreault, J., Henry, O., Durocher, Y., & De Crescenzo, G. (2021). On the use of surface plasmon resonance biosensing to understand IgG-FcγR interactions. International Journal of Molecular Sciences, 22(12), 6616 (27 pages). Disponible
Fortier, C., Louvier, E., Durocher, Y., & De Crescenzo, G. (2015). Tailoring the surface of a gene delivery vector with carboxymethylated dextran: A systematic analysis. Biomacromolecules, 16(6), 1671-1681. Lien externe
Fortier, C., Durocher, Y., & De Crescenzo, G. (2014). Surface modification of nonviral nanocarriers for enhanced gene delivery. Nanomedicine, 9(1), 135-151. Lien externe
Fortier, C., De Crescenzo, G., & Durocher, Y. (2013). A versatile coiled-coil tethering system for the oriented display of ligands on nanocarriers for targeted gene delivery. Biomaterials, 34(4), 1344-1353. Lien externe
Gaudreault, J., Forest‐Nault, C., Gilbert, M., Durocher, Y., Henry, O., & De Crescenzo, G. (2024). A low‐temperature SPR‐based assay for monoclonal antibody galactosylation and fucosylation assessment using FcγRIIA/B. Biotechnology and Bioengineering, 121(5), 1659-1673. Disponible
Gaudreault, J., Durocher, Y., Henry, O., & De Crescenzo, G. (2022). Multi-temperature experiments to ease analysis of heterogeneous binder solutions by surface plasmon resonance biosensing. Scientific Reports, 12(1), 14401 (25 pages). Lien externe
Gaudreault, J., Liberelle, B., Durocher, Y., Henry, O., & De Crescenzo, G. (2021). Determination of the composition of heterogeneous binder solutions by surface plasmon resonance biosensing. Scientific Reports, 11(1), 3685 (16 pages). Disponible
Gaudreault, J., Forest-Nault, C., De Crescenzo, G., Durocher, Y., & Henry, O. (2021). On the Use of Surface Plasmon Resonance-Based Biosensors for Advanced Bioprocess Monitoring. Processes, 9(11), 1996 (28 pages). Lien externe
Henry, O., & Durocher, Y. (2011). Enhanced glycoprotein production in HEK-293 cells expressing pyruvate carboxylase. Metabolic Engineering, 13(5), 499-507. Lien externe
Henry, O., & Durocher, Y. (juillet 2010). Engineering of the Human Cell Line HEK-293 to Enhance Recombinant Protein Production [Communication écrite]. 11th IFAC Symposium on Computer Applications in Biotechnology (CAB 2020), Leuven, Belgium. Publié dans IFAC Proceedings Volumes, 43(6). Lien externe
Karengera, E., Robotham, A., Kelly, J., Durocher, Y., De Crescenzo, G., & Henry, O. (2018). Concomitant reduction of lactate and ammonia accumulation in fed-batch cultures: Impact on glycoprotein production and quality. Biotechnology Progress, 34(2), 494-504. Lien externe
Karengera, E., Robotham, A., Kelly, J., Durocher, Y., De Crescenzo, G., & Henry, O. (2017). Altering the central carbon metabolism of HEK293 cells: Impact on recombinant glycoprotein quality. Journal of Biotechnology, 242, 73-82. Lien externe
Karengera, E., Durocher, Y., De Crescenzo, G., & Henry, O. (2017). Combining metabolic and process engineering strategies to improve recombinant glycoprotein production and quality. Applied Microbiology and Biotechnology, 101(21), 7837-7851. Lien externe
Karengera, E., De Crescenzo, G., Durocher, Y., & Henry, O. (mai 2016). Improving the metabolic efficiency of mammalian cells and its impact on glycoproteins quality [Affiche]. Cell Culture Engineering XV, Palm Spring (CA). Non disponible
Lemire, L., Pham, P. L., Durocher, Y., & Henry, O. (2021). Practical Considerations for the Scale-Up of Chinese Hamster Ovary (CHO) Cell Cultures. Dans Cell Culture Engineering and Technology: In appreciation to Professor Mohamed Al-Rubeai (Vol. 10, p. 367-400). Lien externe
Liberelle, B., Bartholin, L., Boucher, C., Murschel, F., Jolicoeur, M., Durocher, Y., Merzouki, A., & De Crescenzo, G. (2010). New Elisa Approach Based on Coiled-Coil Interactions. Journal of Immunological Methods, 362(1-2), 161-167. Lien externe
Mellahi, K., Brochu, D., Gilbert, M., Perrier, M., Ansorge, S., Durocher, Y., & Henry, O. (2019). Assessment of fed-batch cultivation strategies for an inducible CHO cell line. Journal of Biotechnology, 298, 45-56. Lien externe
Mellahi, K., Cambay, F., Brochu, D., Gilbert, M., Perrier, M., Ansorge, S., Durocher, Y., & Henry, O. (2019). Process development for an inducible rituximab-expressing Chinese hamster ovary cell line. Biotechnology Progress, 35(1), e2742. Lien externe
Mellahi, K., Brochu, D., Gilbert, M., Perrier, M., Ansorge, S., Durocher, Y., & Henry, O. (2019). Process intensification for the production of rituximab by an inducible CHO cell line. Bioprocess and Biosystems Engineering, 42(5), 711-725. Lien externe
Reyes, S.‐J., Pham, P. L., Durocher, Y., & Henry, O. (2024). CHO stable pool fed-batch process development of SARS-CoV-2 spike protein production: Impact of aeration conditionsand feeding strategies. Biotechnology Progress, 3507 (20 pages). Disponible
Reyes, S.‐J., Lemire, L., Roy, M., LʹÉcuyer-Coelho, H., Martynova, Y., Cass, B., Voyer, R., Durocher, Y., Henry, O., Pham, P. L., & Molina, R.-S. (2024). Multivariate data analysis of process parameters affecting the growth and productivity of stable Chinese hamster ovary cell pools expressing SARS‐CoV‐2 spike protein as vaccine antigen in early process development. Biotechnology Progress, e3467 (19 pages). Disponible
Reyes, S. J., Durocher, Y., Pham, P. L., & Henry, O. (2022). Modern Sensor Tools and Techniques for Monitoring, Controlling, and Improving Cell Culture Processes. Processes, 10(2), 189 (36 pages). Lien externe
Riahi, N., Murschel, F., Lerouge, S., Durocher, Y., Henry, O., & De Crescenzo, G. (2017). Bioavailability of immobilized epidermal growth factor: Covalent versus noncovalent grafting. Biointerphases, 12(1), 010501 (8 pages). Lien externe
Toussaint, C., Henry, O., & Durocher, Y. (2016). Metabolic engineering of CHO cells to alter lactate metabolism during fed-batch cultures. Journal of Biotechnology, 217(C), 122-131. Disponible
Vallee, C., Durocher, Y., & Henry, O. (2014). Exploiting the metabolism of PYC expressing HEK293 cells in fed-batch cultures. Journal of Biotechnology, 169(1), 63-70. Lien externe