Stabilization of Multimeric Enzymes against Heat
Inactivation by Chitosan-graft-poly(N-isopropylacrylamide) in Confined Spaces
Tao, Q (Tao, Qian)[ 1 ] ; Li, A (Li, Ang)[ 2 ] ; Zhang, ZK (Zhang, Zhenkun)[ 2 ] ; Ma, RJ (Ma, Rujiang)[ 2 ] ; Shi, LQ (Shi, Linqi)[ 1,3 ]
ACS
BIOMATERIALS SCIENCE & ENGINEERING, 2017, 3(12): 3141-3145
DOI: 10.1021/acsbiomaterials.7b00764
WOS:000418110600010
Abstrac
The
inactivation of multimeric enzymes is a more complicated process compared with
that of monomeric enzymes. Stabilization of multimeric enzymes is regarded as a
challenge with practical values in enzyme technology. Temperature-sensitive
copolymer chitosan-graft- poly(N-isopropylacrylamide) was synthesized and
encapsulated with multimeric enzymes in the confined spaces constructed by the
W/O microemulsion. In this way, the quaternary structures of multimeric enzymes
are stabilized and the thermal stabilities of them are enhanced. The whole
process was studied and discussed. This method, which works well for both
glucose oxidase and catalase, can be developed as a general protection strategy
for multimeric enzymes.
