Simultaneous separation of acid and basic bioactive peptides by electrodialysis with ultrafiltration membrane.

[1]  D. Cowan,et al.  Effect of Turbulence on Limiting Current in Electrodialysis Cells , 1959 .

[2]  M. Mattila,et al.  Opioid peptides derived from in-vitro proteolysis of bovine whey proteins , 1991 .

[3]  K. Kikuchi,et al.  Separation of amino acids by electrodialysis with ion-exchange membranes , 1995 .

[4]  Derek Pletcher,et al.  A first course in ion permeable membranes , 1997 .

[5]  R. Fitzgerald,et al.  Angiotensin-I-converting enzyme inhibitory activities of gastric and pancreatic proteinase digests of whey proteins , 1997 .

[6]  Yves Pouliot,et al.  Fractionation of whey protein hydrolysates using charged UF/NF membranes , 1999 .

[7]  A. Pihlanto-Leppälä Bioactive peptides derived from bovine whey proteins: opioid and ace-inhibitory peptides. , 2000 .

[8]  R. Fitzgerald,et al.  Milk protein-derived peptide inhibitors of angiotensin-I-converting enzyme , 2000, British Journal of Nutrition.

[9]  G. Bargeman,et al.  Selective isolation of cationic amino acids and peptides by electro-membrane filtration , 2000 .

[10]  Y. Futamura,et al.  Identification of novel hypocholesterolemic peptides derived from bovine milk beta-lactoglobulin. , 2001, Biochemical and biophysical research communications.

[11]  P. Hunziker,et al.  Isolation and characterization of four bactericidal domains in the bovine β-lactoglobulin , 2001 .

[12]  G. Bargeman,et al.  Electro-membrane filtration for the selective isolation of bioactive peptides from an alpha(s2)-casein hydrolysate. , 2002, Biotechnology and bioengineering.

[13]  Matthias Wessling,et al.  The development of electro-membrane filtration for the isolation of bioactive peptides: the effect of membrane selection and operating parameters on the transport rate , 2002 .

[14]  R. Jiménez-Flores,et al.  Fractionation of beta-lactoglobulin tryptic peptides by ampholyte-free isoelectric focusing. , 2002, Journal of agricultural and food chemistry.

[15]  C. Bouchard,et al.  Effect of hydrodynamic conditions on fractionation of β-lactoglobulin tryptic peptides using nanofiltration membranes , 2003 .

[16]  P. Morin,et al.  Effect of physicochemical conditions on peptide-peptide interactions in a tryptic hydrolysate of beta-lactoglobulin and identification of aggregating peptides. , 2003, Journal of agricultural and food chemistry.

[17]  H. Balmann,et al.  Study of biomolecules separation in an electrophoretic membrane contactor , 2004 .

[18]  J. Lapointe Étude du fractionnement par nanofiltration et électronanofiltration de peptides issus de l'hydrolyse enzymatique de la beta-lactoglobuline , 2004 .

[19]  S. Gauthier,et al.  Effect of aggregating peptides on the fractionation of β-LG tryptic hydrolysate by nanofiltration membrane , 2004 .

[20]  C. Bouchard,et al.  Fouling of a nanofiltration membrane by a β-lactoglobulin tryptic hydrolysate : Impact on the membrane sieving and electrostatic properties , 2005 .

[21]  C. Bouchard,et al.  Characterization of interactions between β-lactoglobulin tryptic peptides and a nanofiltration membrane: Impact on the surface membrane properties as determined by contact angle measurements , 2005 .

[22]  Laurent Bazinet,et al.  Effect of calcium and carbonate concentrations on anionic membrane fouling during electrodialysis. , 2006, Journal of colloid and interface science.

[23]  C. Bouchard,et al.  Selective separation of cationic peptides from a tryptic hydrolysate of β‐lactoglobulin by electrofiltration , 2006, Biotechnology and bioengineering.