化学
双歧杆菌
灰树花
发酵
细菌
长双歧杆菌
生物化学
绿色荧光蛋白
多糖
食品科学
分子质量
微生物学
乳酸菌
生物
酶
基因
遗传学
作者
Meng‐Ting Tang,Weiming Liu,Xingli Wang,Cheng Wan,Tao Zhou,Wei Liu
标识
DOI:10.1002/cbdv.202501295
摘要
ABSTRACT A novel and efficient hydrogen peroxide/ascorbic acid‐assisted extraction method for the preparation of Grifola frondosa polysaccharide (GFP) was developed, and two GFP fractions (GFP‐H and GFP‐L) with different molecular weights (Mws) were obtained by separation with ultrafiltration. Both high Mw component (GFP‐H, Mw 396.4 kDa) and low Mw component (GFP‐L, Mw 12.5 kDa) are possibly mainly comprised of →4)‐β‐Glc p ‐(1→, →6)‐α‐Glc p ‐(1→, →6)‐α‐Gal p ‐(1→, α‐T‐Glc p , →3,6)‐α‐Man p ‐(1→, and β‐D‐Glc p A‐(1→ units. The physicochemical properties of GFPs, such as surface morphology, rheological properties, and thermal stability, were also analyzed. Their modulatory effects on human gut microbiota were evaluated using a simulated human intestinal fermentation model in vitro. The results showed that GFPs could be degraded by intestinal microorganisms and promoted the production of short‐chain fatty acids such as acetic acid and butyric acid. Compared with GFP‐L, GFP‐H exhibited a better ability to increase the abundance of beneficial bacteria (e.g., Bifidobacterium , Megasphaera , and Lactobacillus ) and reduce the abundance of harmful bacteria (e.g., Escherichia / Shigella , and Lachnoclostridium ). This work revealed that Mw of GFP had a significant impact on the human gut microbiota‐regulating effect. This study provided valuable information about the relationship between the structure of GFPs and their regulatory effect on intestinal flora.
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