Covalent immobilization of penicillin g acylase onto chemically activated surface of poly(vinyl chloride) membranes for 6-penicillic acid production from penicillin hydrolysis process i. Optimization of surface modification and its characterization
The covalent immobilization of penicillin G acylase (PGA) onto the surface of NH2–poly(vinyl chloride) (PVC) membranes was studied. PGA was chosen because it plays a relevant role in the pharmaceutical industry, catalyzing the production of an important intermediate for the industrial production of...
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2012
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my.utm.467502019-03-05T01:37:47Z http://eprints.utm.my/id/eprint/46750/ Covalent immobilization of penicillin g acylase onto chemically activated surface of poly(vinyl chloride) membranes for 6-penicillic acid production from penicillin hydrolysis process i. Optimization of surface modification and its characterization Eldin, M. S. M. El Enshasy, H. A. El Sayed, M. El Sayed, S. Haroun, B. Hassan, E. A. TA Engineering (General). Civil engineering (General) The covalent immobilization of penicillin G acylase (PGA) onto the surface of NH2–poly(vinyl chloride) (PVC) membranes was studied. PGA was chosen because it plays a relevant role in the pharmaceutical industry, catalyzing the production of an important intermediate for the industrial production of semisynthetic penicillin and cephalosporine. Because PVC has no functional groups in its structure, in this work, we focused on the functionalization of PVC with primary amine functional groups for the covalent immobilization of PGA. This goal was achieved through an aminoalkylation process of the surface of the PVC membranes with ethylene diamine followed by activation with glutaraldehyde to finally immobilize the enzyme. Different factors affecting the modification and activation processes were studied, and their impacts on the catalytic activity of the immobilized PGA were followed. The functionalized membranes were characterized with Fourier transform infrared spectroscopy, thermogravimetric analysis, and scanning electron microscopy to verify the modification process. In addition, the changes resulting from the modification in physical characteristics, such as surface roughness, water uptake, and mechanical properties, were monitored. Wiley Periodicals 2012 Article PeerReviewed Eldin, M. S. M. and El Enshasy, H. A. and El Sayed, M. and El Sayed, S. and Haroun, B. and Hassan, E. A. (2012) Covalent immobilization of penicillin g acylase onto chemically activated surface of poly(vinyl chloride) membranes for 6-penicillic acid production from penicillin hydrolysis process i. Optimization of surface modification and its characterization. Journal of Applied Polymer Science, 124 (SUP. 1). E27-E36. ISSN 0021-8995 https://dx.doi.org/10.1002/app.35390 DOI:10.1002/app.35390 |
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TA Engineering (General). Civil engineering (General) Eldin, M. S. M. El Enshasy, H. A. El Sayed, M. El Sayed, S. Haroun, B. Hassan, E. A. Covalent immobilization of penicillin g acylase onto chemically activated surface of poly(vinyl chloride) membranes for 6-penicillic acid production from penicillin hydrolysis process i. Optimization of surface modification and its characterization |
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The covalent immobilization of penicillin G acylase (PGA) onto the surface of NH2–poly(vinyl chloride) (PVC) membranes was studied. PGA was chosen because it plays a relevant role in the pharmaceutical industry, catalyzing the production of an important intermediate for the industrial production of semisynthetic penicillin and cephalosporine. Because PVC has no functional groups in its structure, in this work, we focused on the functionalization of PVC with primary amine functional groups for the covalent immobilization of PGA. This goal was achieved through an aminoalkylation process of the surface of the PVC membranes with ethylene diamine followed by activation with glutaraldehyde to finally immobilize the enzyme. Different factors affecting the modification and activation processes were studied, and their impacts on the catalytic activity of the immobilized PGA were followed. The functionalized membranes were characterized with Fourier transform infrared spectroscopy, thermogravimetric analysis, and scanning electron microscopy to verify the modification process. In addition, the changes resulting from the modification in physical characteristics, such as surface roughness, water uptake, and mechanical properties, were monitored. |
| format |
Article |
| author |
Eldin, M. S. M. El Enshasy, H. A. El Sayed, M. El Sayed, S. Haroun, B. Hassan, E. A. |
| author_facet |
Eldin, M. S. M. El Enshasy, H. A. El Sayed, M. El Sayed, S. Haroun, B. Hassan, E. A. |
| author_sort |
Eldin, M. S. M. |
| title |
Covalent immobilization of penicillin g acylase onto chemically activated surface of poly(vinyl chloride) membranes for 6-penicillic acid production from penicillin hydrolysis process i. Optimization of surface modification and its characterization |
| title_short |
Covalent immobilization of penicillin g acylase onto chemically activated surface of poly(vinyl chloride) membranes for 6-penicillic acid production from penicillin hydrolysis process i. Optimization of surface modification and its characterization |
| title_full |
Covalent immobilization of penicillin g acylase onto chemically activated surface of poly(vinyl chloride) membranes for 6-penicillic acid production from penicillin hydrolysis process i. Optimization of surface modification and its characterization |
| title_fullStr |
Covalent immobilization of penicillin g acylase onto chemically activated surface of poly(vinyl chloride) membranes for 6-penicillic acid production from penicillin hydrolysis process i. Optimization of surface modification and its characterization |
| title_full_unstemmed |
Covalent immobilization of penicillin g acylase onto chemically activated surface of poly(vinyl chloride) membranes for 6-penicillic acid production from penicillin hydrolysis process i. Optimization of surface modification and its characterization |
| title_sort |
covalent immobilization of penicillin g acylase onto chemically activated surface of poly(vinyl chloride) membranes for 6-penicillic acid production from penicillin hydrolysis process i. optimization of surface modification and its characterization |
| publisher |
Wiley Periodicals |
| publishDate |
2012 |
| url |
http://eprints.utm.my/id/eprint/46750/ https://dx.doi.org/10.1002/app.35390 |
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1643652129166983168 |