Ultrasound-assisted extraction of alginate from Ecklonia maxima with and without the addition of alkaline cellulase – factorial and kinetic analysis

IF 2.8 3区生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Journal of Applied Phycology Pub Date : 2024-05-30 DOI:10.1007/s10811-024-03276-0

Dylan van Sittert, Robert Lufu, Zwonaka Mapholi, Neill Jurgens Goosen

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Abstract

Ultrasound-assisted extraction and enzyme-assisted extraction are two methods that can be employed to recover valuable compounds from seaweeds at milder operating conditions than conventional chemical extraction methods. The aim of the study was to determine whether pH, enzyme addition and extraction temperature significantly impacted extraction of alginate from Ecklonia maxima in the presence of ultrasonication and to model extraction kinetics. Firstly, a 2³ factorial experimental design was employed at constant sonication rate, with pH (8 and 10), temperature (50 and 60 °C), and enzyme-to-substrate ratio (E:S 0 and 1 %) as the independent variables. Secondly, extraction kinetics of alginate were investigated at different extraction conditions, through fitting of the Peleg and Power models. Highest extraction for alginate was achieved at pH 10, 60 °C, E:S = 0 % within the first 60 min of extraction. The addition of enzyme improved solubilised dry matter content, but it had a less clear impact on the alginate yield. Both the Peleg (R² = 0.893 – 0.997) and Power function (R² = 0.861 – 0.987) models provided good fit to the experimental data and can used to describe extraction kinetics of alginate during combined ultrasound-enzymatic assisted extraction.

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超声波辅助从 Ecklonia maxima 中提取海藻酸盐（添加和不添加碱性纤维素酶）--因子和动力学分析

与传统的化学萃取方法相比，超声波辅助萃取和酶辅助萃取这两种方法可以在更温和的操作条件下从海藻中回收有价值的化合物。本研究的目的是确定 pH 值、酶添加量和萃取温度是否会显著影响在超声作用下从 Ecklonia maxima 中萃取海藻酸盐，并建立萃取动力学模型。首先，在超声速率不变的情况下，采用 23 因子实验设计，pH 值（8 和 10）、温度（50 和 60 °C）和酶与底物的比例（E:S 0 和 1 %）为自变量。其次，通过拟合 Peleg 和 Power 模型，研究了不同萃取条件下海藻酸的萃取动力学。在 pH 值为 10、温度为 60 °C、E:S = 0 % 的条件下，海藻酸的萃取率在萃取的最初 60 分钟内达到最高。酶的加入提高了增溶干物质的含量，但对海藻酸产量的影响不明显。Peleg 模型（R2 = 0.893 - 0.997）和幂函数模型（R2 = 0.861 - 0.987）都能很好地拟合实验数据，可用于描述超声波-酶法联合辅助提取过程中海藻酸的提取动力学。

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来源期刊

Journal of Applied Phycology 生物-海洋与淡水生物学

CiteScore

6.80

自引率

9.10%

发文量

212

审稿时长

2.8 months

期刊介绍： The Journal of Applied Phycology publishes work on the rapidly expanding subject of the commercial use of algae. The journal accepts submissions on fundamental research, development of techniques and practical applications in such areas as algal and cyanobacterial biotechnology and genetic engineering, tissues culture, culture collections, commercially useful micro-algae and their products, mariculture, algalization and soil fertility, pollution and fouling, monitoring, toxicity tests, toxic compounds, antibiotics and other biologically active compounds. Each issue of the Journal of Applied Phycology also includes a short section for brief notes and general information on new products, patents and company news.