Structural characterization and antioxidant activities of Bletilla striata polysaccharide extracted by different methods

H Chen, J Zeng, B Wang, Z Cheng, J Xu, W Gao… - Carbohydrate …, 2021 - Elsevier
H Chen, J Zeng, B Wang, Z Cheng, J Xu, W Gao, K Chen
Carbohydrate Polymers, 2021Elsevier
Bletilla striata polysaccharides (BSPs) are effective for anti-inflammatory, detumescence,
and radicals scavenging, with important applications in the area of food chain, pharmacy
science, and health care. In this study, we comprehensively studied the interplay between
the polysaccharides' formation, physicochemical properties, rheological properties, and
associated antioxidant activities of BSPs from different extraction methods. The crude
polysaccharides obtained from Bletilla striata by using the hot water extraction (BSPs-H) …
Abstract
Bletilla striata polysaccharides (BSPs) are effective for anti-inflammatory, detumescence, and radicals scavenging, with important applications in the area of food chain, pharmacy science, and health care. In this study, we comprehensively studied the interplay between the polysaccharides' formation, physicochemical properties, rheological properties, and associated antioxidant activities of BSPs from different extraction methods. The crude polysaccharides obtained from Bletilla striata by using the hot water extraction (BSPs-H), alkali-assisted extraction (BSPs-A), boiling water extraction (BSPs-B), and ultrasonic-assisted extraction (BSPs-U) methods showed different molecular weights, monosaccharide compositions, glycosidic bond compositions, and zeta potentials, but with the same IR spectra characteristic and thermal stability. By the above-mentioned four kinds of extraction methods, the resultant BSPs exhibited various degrees of reticular and lamellar structure. All the BSPs solutions exhibited shear-thinning behavior with the increase of the shear rate. Among these BSPs, BSPs-A exhibited better DPPH and ABTS radical scavenging activities and reducing power, whereas BSPs-H showed better hydroxyl radical scavenging activities.
Elsevier
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