Abstract
Seaweed oligosaccharides have attracted attention in food, agricultural, and medical applications recently. Compared to red and brown seaweeds, fewer studies have focused on the biological activity of green seaweed’s oligosaccharides. This study aimed to produce bioactive ulvan oligosaccharides via enzymatic hydrolysis from green seaweed Ulva lactuca. Ulvan, a water-soluble polysaccharide, was obtained by hot water extraction. Two isolated marine bacteria, Pseudomonas vesicularis MA103 and Aeromonas salmonicida MAEF108, were used to produce multiple hydrolases, such as ulvanolytic enzymes, amylase, cellulase, and xylanase, to degrade the ulvan extract. An ultrafiltration system was used to separate the enzymatic hydrolysate to acquire the ulvan oligosaccharides (UOS). The characteristics of the ulvan extract and the UOS were determined by yield, reducing sugar, uronic acid, sulfate group, and total phenols. The FT-IR spectrum indicated that the ulvan extract and the UOS presented the bands associated with O-H, C=O, C-O, and S=O stretching. Angiotensin I converting enzyme (ACE) inhibition and antioxidant activities in vitro were evaluated in the ulvan extract and the UOS. These results provide a practical approach to producing bioactive UOS by microbial enzymatic hydrolysis that can benefit the development of seaweed-based products at the industrial scale.
Highlights
Seaweed is nutritious biomass and is widely distributed in the sea’s intertidal zone.It can be categorized into three major groups, Rhodophyta, Phaeophyta, and Chlorophyta algae
This result was similar to previous reports [29,41], indicating that 67.32–70.31% and 54.90% of carbohydrates were contained in the dry Ulva lactuca, respectively
Our result suggested that the crude enzymes could hydrolyze the ulvan extract due to the increase of reducing sugar content in the ulvan oligosaccharides (UOS)
Summary
Seaweed is nutritious biomass and is widely distributed in the sea’s intertidal zone. It can be categorized into three major groups, Rhodophyta (red), Phaeophyta (brown), and Chlorophyta (green) algae. Is a common green seaweed occurring in the intertidal zone and eutrophicated coastal area [1]. Both farming and harvesting are being applied to collect Ulva. Contains high amounts of polysaccharides (15–65%), and it has 4–44% protein, 0.3–1.6% lipid, and 11–55% ash in the dried biomass [6]. The major cell wall polysaccharide, showed 8–29% in the dried biomass [7,8]
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