Cell rupture of Tetradesmus obliquus using high-pressure homogenization at the pilot scale and recovery of pigments and lipids.

Food research international (Ottawa, Ont.) Pub Date : 2024-11-01 Epub Date: 2024-09-21 DOI:10.1016/j.foodres.2024.115113

José Roberto Miranda Júnior, César Augusto Sodré da Silva, Luciano de Moura Guimarães, Dilson Novais Rocha, Adamu Muhammad Alhaji, Eduardo Basílio de Oliveira, Marcio Arêdes Martins, Jane Sélia Dos Reis Coimbra

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Abstract

Microalgae are promising sources of intracellular metabolites such as proteins, polysaccharides, pigments, and lipids. Thus, this study applied high-pressure homogenization (HPH) techniques on a pilot scale to disrupt the cells of Tetradesmus obliquus. The effects of pressure (P; 150, 250, and 350 bar), suspension concentration (Cs; 1.0, 1.5, and 2.0 % w/v), and number of cycles (Nc; 5, 15, and 25) were evaluated in HPH via a Box-Behnken experimental design. Response surface methodology was applied to optimize the recovery rate (dTr) of pigments and lipids. The specific energy consumption (SEC) and color change gradient (ΔE) of the biomass during HPH were also assessed. The optimal HPH conditions for pigment extraction with 1.5 % Cs (w/v) were as follows: P = 312 bar and Nc = 22 for chlorophyll-a (0.83 g/100 g; dTr = 69 %; SEC = 47.50 kJ/g dry matter); P = 345 bar and Nc = 24 for chlorophyll-b (0.63 g/100 g; dTr = 80 %; SEC = 57.30 kJ/g dry matter); P = 345 bar and Nc = 24 for total carotenoids (0.53 g/100 g; dTr = 79 %; SEC = 54.12 kJ/g dry matter); and P = 350 bar and Nc = 25 for β-carotene (299 µg/g; dTr = 58 %; SEC = 62.08 kJ/g dry matter). The optimal HPH conditions for lipid extraction were P = 350 bar and Nc = 23, with a lipid recovery rate of ≥28 %. Cell disruption during HPH caused a change in the color of the biomass (ΔE) due to the release of intracellular biocompounds. Increasing P and Nc led to higher SECs, ΔE gradients, and pigment and lipid contents. Thus, the levels of recovered pigments and lipids can be indicators of cell disruption in T. obliquus.

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中试规模高压均质法观察斜四角肌细胞破裂及色素脂质回收。

微藻是细胞内代谢产物如蛋白质、多糖、色素和脂质的有希望的来源。因此，本研究在中试规模上应用高压均质（HPH）技术来破坏斜四角肌细胞。压力(P；150、250和350 bar)，悬浮液浓度(Cs；1.0、1.5、2.0 % w/v)，循环次数(Nc；5、15和25)通过Box-Behnken实验设计评估HPH。采用响应面法优化色素和脂类的回收率。并对生物质在高ph过程中的比能量消耗（SEC）和颜色变化梯度（ΔE）进行了评价。以1.5% Cs （w/v）提取色素的最佳HPH条件为：叶绿素-a (0.83 g/100 g) P = 312 bar, Nc = 22；dTr = 69%；SEC = 47.50 kJ/g干物质)；叶绿素-b P = 345 bar, Nc = 24 (0.63 g/100 g；dTr = 80%；SEC = 57.30 kJ/g干物质)；总类胡萝卜素P = 345 bar, Nc = 24 (0.53 g/100 g；dTr = 79%；SEC = 54.12 kJ/g干物质)；β-胡萝卜素（299µg/g） P = 350 bar, Nc = 25；dTr = 58%；SEC = 62.08 kJ/g干物质)。脂质提取的最佳HPH条件为P = 350 bar, Nc = 23，脂质回收率≥28%。在HPH期间，由于细胞内生物化合物的释放，细胞破坏引起生物质颜色的变化（ΔE）。P和Nc的增加导致SECs、ΔE梯度、色素和脂质含量的增加。因此，恢复的色素和脂质水平可以作为斜t细胞破坏的指标。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Food research international (Ottawa, Ont.)

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