TY - JOUR
T1 - Encapsulation of crosslinked penicillin G acylase aggregates in lentikats
T2 - Evaluation of a novel biocatalyst in organic media
AU - Wilson, Lorena
AU - Illanes, Andrés
AU - Pessela, Benevides C.C.
AU - Abian, Olga
AU - Fernández-Lafuente, Roberto
AU - Guisán, José M.
PY - 2004/6/5
Y1 - 2004/6/5
N2 - The encapsulation of crosslinked enzyme aggregates (CLEA) of penicillin G acylase into a very rigid polymeric matrix based on polyvinyl alcohol (LentiKats) has been used successfully to improve the inadequate mechanical properties of CLEA. This encapsulation decreased CLEA activity by only around 40%. As compensation, a significant improvement in the stability of the CLEA in the presence of organic solvents was detected. This could be related to the highly hydrophilic environment inside the LentiKats biocatalysts: Partition experiments showed that the concentration of dioxane inside LentiKats was lower than in the reaction medium. In fact, thermal stability was about the same as in the corresponding CLEA. This permitted great improvement in the reaction rate for thermodynamically controlled synthesis of a model antibiotic (using phenylacetic acid and 7-amino-deacetoxycefalosporanic acid). Even more importantly, yields could be improved by using LentiKats-encapsulated CLEA, very likely by a favorable product/substrate partition. Thus, this very simple technique not only provides an efficient technique for solving the mechanical stability problem associated with CLEA, but also greatly improves the behavior of CLEA in organic media.
AB - The encapsulation of crosslinked enzyme aggregates (CLEA) of penicillin G acylase into a very rigid polymeric matrix based on polyvinyl alcohol (LentiKats) has been used successfully to improve the inadequate mechanical properties of CLEA. This encapsulation decreased CLEA activity by only around 40%. As compensation, a significant improvement in the stability of the CLEA in the presence of organic solvents was detected. This could be related to the highly hydrophilic environment inside the LentiKats biocatalysts: Partition experiments showed that the concentration of dioxane inside LentiKats was lower than in the reaction medium. In fact, thermal stability was about the same as in the corresponding CLEA. This permitted great improvement in the reaction rate for thermodynamically controlled synthesis of a model antibiotic (using phenylacetic acid and 7-amino-deacetoxycefalosporanic acid). Even more importantly, yields could be improved by using LentiKats-encapsulated CLEA, very likely by a favorable product/substrate partition. Thus, this very simple technique not only provides an efficient technique for solving the mechanical stability problem associated with CLEA, but also greatly improves the behavior of CLEA in organic media.
KW - Crosslinked enzyme aggregates
KW - Entrapment
KW - Enzymes in organic solvents
KW - Hydrogel
KW - Immobilization
KW - LentiKats
KW - Penicillin acylase
KW - Polyvinyl alcohol
UR - http://www.scopus.com/inward/record.url?scp=2542492110&partnerID=8YFLogxK
U2 - 10.1002/bit.20107
DO - 10.1002/bit.20107
M3 - Article
C2 - 15129439
AN - SCOPUS:2542492110
VL - 86
SP - 558
EP - 562
JO - Biotechnology and Bioengineering
JF - Biotechnology and Bioengineering
SN - 0006-3592
IS - 5
ER -