TY - JOUR
T1 - Superparamagnetic cation-exchange adsorbents for bioproduct recovery from crude process liquors by high-gradient magnetic fishing
AU - Heebøll-Nielsen, Anders
AU - Justesen, S.F.L
AU - Hobley, Timothy John
AU - Thomas, Owen R. T.
PY - 2004
Y1 - 2004
N2 - Different routes were screened for the preparation of superparamagnetic cation-exchange adsorbents for the capture of proteins using high-gradient magnetic fishing. Starting from a polyglutaraldehyde-coated base particle, the most successful of these involved attachment of sulphite to oligomers of epichlorohydrin formed on the particle surface. The resultant cation-exchanger had a maximum lysozyme binding capacity of 272 mg g(-1) and a dissociation constant of 0.73 muM. Using lysozyme as a model protein in small-scale studies, appropriate conditions were then selected for the capture of lactoperoxidase from sweet bovine whey. Subsequently, a high-gradient magnetic fishing process was constructed for the fractionation of whey, in which lactoperoxidase was purified 36-fold and concentrated 4.7-fold
AB - Different routes were screened for the preparation of superparamagnetic cation-exchange adsorbents for the capture of proteins using high-gradient magnetic fishing. Starting from a polyglutaraldehyde-coated base particle, the most successful of these involved attachment of sulphite to oligomers of epichlorohydrin formed on the particle surface. The resultant cation-exchanger had a maximum lysozyme binding capacity of 272 mg g(-1) and a dissociation constant of 0.73 muM. Using lysozyme as a model protein in small-scale studies, appropriate conditions were then selected for the capture of lactoperoxidase from sweet bovine whey. Subsequently, a high-gradient magnetic fishing process was constructed for the fractionation of whey, in which lactoperoxidase was purified 36-fold and concentrated 4.7-fold
U2 - 10.1081/SS-200028791
DO - 10.1081/SS-200028791
M3 - Journal article
SN - 0149-6395
VL - 39
SP - 2891
EP - 2914
JO - Separation Science and Technology
JF - Separation Science and Technology
IS - 12
ER -