Maximisation of the yield of final product on substrate in the case of sequential reactions catalysed by coimmobilised enzymes: a theoretical analysis

Jesus F. Celayeta; Andre H. Silva; Victor M. BalcaoF. Xavier Malcata

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Maximisation of the yield of final product on substrate in the case of sequential reactions catalysed by coimmobilised enzymes: a theoretical analysis

机译：Maximisation of the yield of final product on substrate in the case of sequential reactions catalysed by coimmobilised enzymes: a theoretical analysis

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摘要

A theoretical procedure is reported, which aims at finding the best molar distribution of two enzymes (considered equivalent and mutually exclusive in terms of occupancy of immobilisation sites), coimmobilised in a slab-shaped porous bead, that catalyse two sequential irreversible reactions (involving an initial reactant species, an intermediate species and a final product species, at 1:1:1 stoichiometry) following Michaelis-Menten kinetics. The mathematical derivation uses as objective function maximisation of yield of the final product on the initial reactant coupled with the maximum catalyst effectiveness. The Thiele modulus was found to drop out as a relevant parameter for the determination of the optimum concentration of the intermediate (reactant) species, although it plays a role in the best distribution of enzyme within the slab. Low values of k_(cat) for the first enzyme and high values of surface concentration of the initial reactant lead to small Thiele moduli; such diffusional regime promotes retention of product(s) within the porous matrix, thus providing opportunities for more complete conversion to the final product. The maximum yield of the final product corresponds to immobilising most of the first enzyme in the innermost portion of the slab and most of the second enzyme in the outermost portion.

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《Bioprocess and biosystems engineering》 |2001年第3期|143-149|共7页
作者
Jesus F. Celayeta; Andre H. Silva; Victor M. BalcaoF. Xavier Malcata;
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作者单位

Escola Superior de Biotecnologia, Universidade Catolica Portuguesa, Rua Dr. Antonio Bernardino de Almeida, 4200-072 Porto, Portugal;

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正文语种英语
中图分类生物工程学（生物技术）;
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Maximisation of the yield of final product on substrate in the case of sequential reactions catalysed by coimmobilised enzymes: a theoretical analysis

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