Immobilised enzymes in biorenewables production

Oils, fats, carbohydrates, lignin, and amino acids are all important raw materials for the production of biorenewables. These compounds already play an important role in everyday life in the form of wood, fabrics, starch, paper and rubber. Enzymatic reactions do, in principle, allow the transformati...

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Veröffentlicht in:	Chemical Society reviews 2013-08, Vol.42 (15), p.6491-6533
Hauptverfasser:	Franssen, Maurice C. R, Steunenberg, Peter, Scott, Elinor L, Zuilhof, Han, Sanders, Johan P. M
Format:	Artikel
Sprache:	eng
Schlagworte:	Carbohydrates Carbohydrates - biosynthesis Carbohydrates - chemistry Ecology Economics Enzymes Enzymes, Immobilized - chemistry Enzymes, Immobilized - metabolism Fats Fatty Acids - biosynthesis Fatty Acids - chemistry Lignin - biosynthesis Lignin - chemistry Proteins - chemistry Proteins - metabolism Raw materials Sustainability Wood
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creator	Franssen, Maurice C. R Steunenberg, Peter Scott, Elinor L Zuilhof, Han Sanders, Johan P. M
description	Oils, fats, carbohydrates, lignin, and amino acids are all important raw materials for the production of biorenewables. These compounds already play an important role in everyday life in the form of wood, fabrics, starch, paper and rubber. Enzymatic reactions do, in principle, allow the transformation of these raw materials into biorenewables under mild and sustainable conditions. There are a few examples of processes using immobilised enzymes that are already applied on an industrial scale, such as the production of High-Fructose Corn Syrup, but these are still rather rare. Fortunately, there is a rapid expansion in the research efforts that try to improve this, driven by a combination of economic and ecological reasons. This review focusses on those efforts, by looking at attempts to use fatty acids, carbohydrates, proteins and lignin (and their building blocks), as substrates in the synthesis of biorenewables using immobilised enzymes. Therefore, many examples (390 references) from the recent literature are discussed, in which we look both at the specific reactions as well as to the methods of immobilisation of the enzymes, as the latter are shown to be a crucial factor with respect to stability and reuse. The applications of the renewables produced in this way range from building blocks for the pharmaceutical and polymer industry, transport fuels, to additives for the food industry. A critical evaluation of the relevant factors that need to be improved for large-scale use of these examples is presented in the outlook of this review. Techno-economic and sustainable production of industrial chemicals will be facilitated by the conversion of bio-renewable resources using immobilised enzymes.
doi_str_mv	10.1039/c3cs00004d
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This review focusses on those efforts, by looking at attempts to use fatty acids, carbohydrates, proteins and lignin (and their building blocks), as substrates in the synthesis of biorenewables using immobilised enzymes. Therefore, many examples (390 references) from the recent literature are discussed, in which we look both at the specific reactions as well as to the methods of immobilisation of the enzymes, as the latter are shown to be a crucial factor with respect to stability and reuse. The applications of the renewables produced in this way range from building blocks for the pharmaceutical and polymer industry, transport fuels, to additives for the food industry. A critical evaluation of the relevant factors that need to be improved for large-scale use of these examples is presented in the outlook of this review. 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Fortunately, there is a rapid expansion in the research efforts that try to improve this, driven by a combination of economic and ecological reasons. This review focusses on those efforts, by looking at attempts to use fatty acids, carbohydrates, proteins and lignin (and their building blocks), as substrates in the synthesis of biorenewables using immobilised enzymes. Therefore, many examples (390 references) from the recent literature are discussed, in which we look both at the specific reactions as well as to the methods of immobilisation of the enzymes, as the latter are shown to be a crucial factor with respect to stability and reuse. The applications of the renewables produced in this way range from building blocks for the pharmaceutical and polymer industry, transport fuels, to additives for the food industry. A critical evaluation of the relevant factors that need to be improved for large-scale use of these examples is presented in the outlook of this review. 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subjects	Carbohydrates Carbohydrates - biosynthesis Carbohydrates - chemistry Ecology Economics Enzymes Enzymes, Immobilized - chemistry Enzymes, Immobilized - metabolism Fats Fatty Acids - biosynthesis Fatty Acids - chemistry Lignin - biosynthesis Lignin - chemistry Proteins - chemistry Proteins - metabolism Raw materials Sustainability Wood
title	Immobilised enzymes in biorenewables production
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