Production methods for hyaluronan

International Journal of Carbohydrate Chemistry Pub Date : 2013-03-05 DOI:10.1155/2013/624967

C. Boeriu, J. Springer, F. Kooy, L. A. Broek, G. Eggink

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引用次数: 136

Abstract

Hyaluronan is a polysaccharide with multiple functions in the human body being involved in creating flexible and protective layers in tissues and in many signalling pathways during embryonic development, wound healing, inflammation, and cancer. Hyaluronan is an important component of active pharmaceutical ingredients for treatment of, for example, arthritis and osteoarthritis, and its commercial value far exceeds that of other microbial extracellular polysaccharides. Traditionally hyaluronan is extracted from animal waste which is a well-established process now. However, biotechnological synthesis of biopolymers provides a wealth of new possibilities. Therefore, genetic/metabolic engineering has been applied in the area of tailor-made hyaluronan synthesis. Another approach is the controlled artificial (in vitro) synthesis of hyaluronan by enzymes. Advantage of using microbial and enzymatic synthesis for hyaluronan production is the simpler downstream processing and a reduced risk of viral contamination. In this paper an overview of the different methods used to produce hyaluronan is presented. Emphasis is on the advancements made in the field of the synthesis of bioengineered hyaluronan.

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透明质酸的生产方法

透明质酸是一种在人体中具有多种功能的多糖，参与在组织中形成柔韧性和保护层，并参与胚胎发育、伤口愈合、炎症和癌症期间的许多信号通路。透明质酸是治疗关节炎和骨关节炎的活性药物成分的重要组成部分，其商业价值远远超过其他微生物胞外多糖。传统的透明质酸是从动物粪便中提取的，这是一个成熟的过程。然而，生物技术合成生物聚合物提供了丰富的新的可能性。因此，基因/代谢工程已被应用于定制透明质酸合成领域。另一种方法是通过酶控制透明质酸的人工(体外)合成。使用微生物和酶合成透明质酸生产的优点是下游加工更简单，并且降低了病毒污染的风险。本文综述了生产透明质酸的不同方法。重点介绍了生物工程透明质酸合成领域的研究进展。

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International Journal of Carbohydrate Chemistry

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