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    Use of redundancy analysis and multivariate regression models to select the significant membrane properties affecting peptide migration during electrodialysis with filtration membranes

    Year: 2019

    Journal: Sep. Purif. Technol., Volume 221, AUG 15, page 114–125

    Authors: Kadel, Sabita; Persico, Mathieu; Thibodeau, Jacinthe; Laine, Carole; Bazinet, Laurent

    Organizations: Natural Sciences and Engineering Research Council of Canada (NSERC)Natural Sciences and Engineering Research Council of Canada (NSERC); NSERC Industrial Research Chair on Electromembrane processes aiming the ecoefficiency improvement of biofood production lines [IRCPJ 492889-15]; NSERC Discovery Grants Program [RGPIN-2018-04128]

    Keywords: Redundancy analysis; Electrodialysis with filtration membrane; Membrane characterization; Physicochemical properties; Peptide migration

    Redundancy analysis (RDA) was used to study the effect of eight physicochemical properties of six filtration membranes (PES, PVDF, CF55, S11, S11 + and S11-) on the performance of electrodialysis with filtration membranes (EDFM) in terms of selective peptides migration. The whey hydrolysate anionic and cationic peptides migrations were quantified and identified. PVDF and CF55 were not selective to the contrary of PES, S11, S11 + and S11-. It appeared that at least two properties among zeta potential, pores/surface hydrophilicity, porosity, and roughness were significantly related to the migration of ALPMHIR, IDALNENK, LIVTQTMK, TKIPAVFK, TPEVDDEALEK, TPEVDDEALEKFDK or SLAMAASDISLLDAQSAPLR. These results suggested that the peptides migrations were mainly influenced by the membrane's pore size, and the types of interactions (electrostatic and hydrophilic/hydrophobic) occurring between peptides and membrane. Besides, statistical models for each peptide were also established to predict their specific migration through variety of membranes having different physicochemical properties. To the best of our knowledge, it is the first time that such a method was applied on peptide migration during electrodialysis with filtration membranes.
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