posted on 2015-01-28, 00:00authored byNidhi
Chandrama Dubey, Bijay Prakash Tripathi, Martin Müller, Manfred Stamm, Leonid Ionov
Acetyl coenzyme A (acetyl CoA) is an essential precursor molecule
for synthesis of metabolites such as the polyketide-based drugs (tetracycline,
mitharamycin, Zocor, etc.) fats, lipids, and cholesterol. Acetyl CoA
synthetase (Acs) is one of the enzymes that catalyzes acetyl CoA synthesis,
and this enzyme is essentially employed for continuous supply of the
acetyl CoA for the production of these metabolites. To achieve reusable
and a more robust entity of the enzyme, we carried out the immobilization
of Acs on poly(N-isopropylacrylamide)-poly(ethylenimine)
(PNIPAm-PEI) microgels via adsorption. Cationic PNIPAm-PEI microgel
was synthesized by one-step graft copolymerization of NIPAm and N,N-methylene bis-acrylamide (MBA) from
PEI. Adsorption studies of Acs on microgel indicated high binding
of enzymes, with a maximum binding capacity of 286 μg/mg of
microgel for Acs was achieved. The immobilized enzymes showed improved
biocatalytic efficiency over free enzymes, beside this, the reaction
parameters and circular dichroism (CD) spectroscopy studies indicated
no significant changes in the enzyme structure after immobilization.
This thoroughly characterized enzyme bioconjugate was further immobilized
on an ultrathin membrane to assess the same reaction in flow through
condition. Bioconjugate was covalently immobilized on a thin layer
of preformed microgel support upon polyethylene terephthalate (PET)
track etched membrane. The prepared membrane was used in a dead end
filtration device to monitor the bioconversion efficiency and operational
stability of cross-linked bioconjugate. The membrane reactor showed
consistent operational stability and maintained >70% of initial
activity
after 7 consecutive operation cycles.