Efficient biosynthesis of naringenin-ɑ-maltoside by amylosucrase obtained from Deinococcus planocerae

Naringenin, a flavanone (flavonoid family) has bioactive effects, such as antioxidant, free radical scavenging, anti-inflammatory, carbohydrate metabolism, and immunoregulatory effects on the human body. However, its low water solubility and bioavailability limit its use in food, pharmaceutical, cos...

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Published in:Food and bioproducts processing 2023-11, Vol.142, p.29-39
Main Authors: Kang, Gyeong-Seok, Lee, Chang-young, Nam, Tae Gyu, Hong, Seungpyo, Lim, Changjin, Min, Kyung Hyun, Park, Cheon-Seok, Jung, Jong-Hyun, Seo, Dong-Ho
Format: Article
Language:English
Subjects:
Amylosucrase
antioxidants
bioavailability
biobased products
biosynthesis
carbohydrate metabolism
Deinococcus
Deinococcus planocerae
drugs
Escherichia coli
family
free radicals
fructose
genes
glucose
glycosylation
half life
humans
immunomodulation
naringenin
Naringenin maltoside
Response surface method
response surface methodology
sucrose
temperature
Transglycosylation
water solubility
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Summary:Naringenin, a flavanone (flavonoid family) has bioactive effects, such as antioxidant, free radical scavenging, anti-inflammatory, carbohydrate metabolism, and immunoregulatory effects on the human body. However, its low water solubility and bioavailability limit its use in food, pharmaceutical, cosmetic, and drug industries. Amylosucrase (ASase, E. C. 2.4.1.4), uses sucrose as a substrate and is a glycosyltransferase that hydrolyzes glucose and fructose generating a glycosylated product. In this study, the putative ASase gene (accession number: WP_102128133.1) from Deinococcus planocerae KCTC 33809 (DplAS) was expressed in Escherichia coli. The optimum reaction temperature and pH for sucrose hydrolytic capacity of DplAS were determined to be 30 °C and 7.0, respectively. DplAS was determined to have a half-life of 256.7 and 42.8 min at 40 °C and 45 °C, respectively. Although it exhibited high similarity with DgAS (80%), DplAS displayed different acceptor specificities to that of DgAS. Uniquely, DplAS generated one major product (naringenin-maltoside) via transglycosylation using sucrose and naringenin as donor and acceptor molecules, respectively. Based on NMR, naringenin-maltoside was identified as naringenin-4′-O-α-D-maltopyranoside, and its conversion rate was optimized using the response surface method (RSM) with central composite design (CCD). This resulted in a donor to acceptor ratio of 25.9:1 at 27.64 °C, and a 55.69% conversion of sucrose. •Putative amylosucrase (AS) gene from Deinococcus planocerae KCTC33809 (DplAS) was successfully expressed and characterized.•The unique transglycosylation reaction of DplAS was shown to synthesize naringenin α-maltoside with significant specificity.•Transglycosylation production of naringenin-4′-O-α-D-maltopyranoside was optimized via response surface methodology.
ISSN:0960-3085
DOI:10.1016/j.fbp.2023.08.012