Synthesis of Isomalto-Oligosaccharides by Pichia pastoris Displaying the Aspergillus niger α‑Glucosidase

Synthesis of Isomalto-Oligosaccharides by Pichia pastoris Displaying the Aspergillus niger α‑Glucosidase

We explored the ability of an Aspergillus niger α-glucosidase displayed on P. pastoris to act as a whole-cell biocatalyst (Pp-ANGL-GCW61) system to synthesize isomalto-oligosaccharides (IMOs). IMOs are a mixture that includes isomaltose (IG2), panose (P), and isomaltotriose (IG3). In this study, the...

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Veröffentlicht in:Journal of agricultural and food chemistry 2017-11, Vol.65 (43), p.9468-9474
Hauptverfasser: Zhao, Nannan, Xu, Yanshan, Wang, Kuang, Zheng, Suiping
Format: Artikel
Sprache:eng
Schlagworte:
alpha-Glucosidases - chemistry
alpha-Glucosidases - genetics
alpha-Glucosidases - metabolism
Aspergillus niger - enzymology
Disaccharides - chemistry
Disaccharides - metabolism
Fungal Proteins - chemistry
Fungal Proteins - genetics
Fungal Proteins - metabolism
Gene Expression
Isomaltose - chemistry
Isomaltose - metabolism
Oligosaccharides - biosynthesis
Pichia - genetics
Pichia - metabolism
Sugar Alcohols - chemistry
Sugar Alcohols - metabolism
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Zusammenfassung:We explored the ability of an Aspergillus niger α-glucosidase displayed on P. pastoris to act as a whole-cell biocatalyst (Pp-ANGL-GCW61) system to synthesize isomalto-oligosaccharides (IMOs). IMOs are a mixture that includes isomaltose (IG2), panose (P), and isomaltotriose (IG3). In this study, the IMOs were synthesized by a hydrolysis-transglycosylation reaction in an aqueous system of maltose. In a 2 mL reaction system, the IMOs were synthesized with a conversion rate of approximately 49% in 2 h when 30% maltose was utilized under optimal conditions by Pp-ANGL-GCW61. Additionally, the 0.5-L reaction system was conducted in a 2-L stirred reactor with a conversion rate of approximately 44% in 2 h. Moreover, the conversion rate was relatively stable after the whole-cell catalyst was reused three times. In conclusion, Pp-ANGL-GCW61 has a high reaction efficiency and operational stability, which makes it a powerful biocatalyst available for industrial scale synthesis.
ISSN:0021-8561
1520-5118
DOI:10.1021/acs.jafc.7b04140