From green to orange: The change in biochemical composition of phototrophic-mixotrophic Chromochloris zofingiensis in pilot-scale photobioreactors

IF 4.6 2区 生物学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Algal Research-Biomass Biofuels and Bioproducts Pub Date : 2023-09-01 DOI:10.1016/j.algal.2023.103238
Eleanor E. Wood , Michael E. Ross , Sébastien Jubeau , Valéria Montalescot , Karen MacKechnie , Ryan E. Marchington , Matthew P. Davey , Sharon McNeill , Callum Hamilton , Michele S. Stanley
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Abstract

Upscaling algal cultures from laboratory to pilot-scale provides important biological and technical insights for larger industrial applications. This is particularly important when screening novel algal species to enter the biochemical and nutraceutical markets. One such novel species is Chromochloris zofingiensis. This species has been identified as a potential industrial competitor to Haematococcus sp. for natural astaxanthin production, due to higher biomass concentrations and quantity of product per unit volume. To test the scalability potential C. zofingiensis was cultured using a phototrophic-mixotrophic approach in 65 L photobioreactors. The biomass increased from 0.05 to 0.51 g/L DW during a 15 day phototrophic phase. The subsequent mixotrophic phase induced carotenogenesis and turned the cells from green to orange. This altered the composition of the biomass and increased the biomass concentration from 0.65 to 5.13 g/L in 8 days. Astaxanthin is the primary compound of interest in this biomass and its concentration per culture increased during the mixotrophic phase; 0, 12.7, and 14.7 mgDW/L on days 0, 5, and 8, respectively. The highest protein, carbohydrate, and lipid concentrations per culture were recorded on day 5 (570, 1760, and 3715 mgDW/L, respectively). This study reports the largest scale use of mixotrophic cultivation of C. zofingiensis available in the literature where astaxanthin production was initiated using glucose (30 g/L), nitrogen deprivation, and a continuous photoperiod with an increased light intensity (245 μmol/m2/s). The findings demonstrate the potential for further scaling to obtain high biomass concentrations at industrial volumes for production of astaxanthin along with additional products as part of a biorefinery process.

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从绿色到橙色:中试规模光生物反应器中光养混合营养偶氮氯虫生化组成的变化
将藻类培养从实验室升级到中试规模为更大规模的工业应用提供了重要的生物学和技术见解。当筛选新的藻类物种进入生化和营养保健市场时,这一点尤为重要。其中一个这样的新物种是佐银色氯藻。由于其较高的生物量浓度和单位体积产量,该物种已被确定为天然虾青素生产的潜在工业竞争对手。在65 L光生物反应器中,采用光养-混合营养的方法培养zofingiensis,考察其可扩展性。在15 d的光养期,生物量从0.05 g/L DW增加到0.51 g/L DW。随后的混合营养期诱导胡萝卜素生成,细胞由绿色变为橙色。这改变了生物量的组成,生物量浓度在8 d内从0.65 g/L增加到5.13 g/L。虾青素是这种生物量的主要化合物,在混合营养阶段,每次培养的虾青素浓度增加;0,12.7和14.7 mgDW/L分别在第0,5和8天。蛋白质、碳水化合物和脂质浓度在第5天最高(分别为570、1760和3715 mgDW/L)。本研究报道了文献中最大规模的混合营养培养,在葡萄糖(30 g/L)、氮剥夺和增加光强(245 μmol/m2/s)的连续光周期下开始虾青素的生产。研究结果表明,作为生物精炼过程的一部分,虾青素的生产以及其他产品的生产,有可能进一步扩大规模,以获得工业规模的高生物量浓度。
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来源期刊
Algal Research-Biomass Biofuels and Bioproducts
Algal Research-Biomass Biofuels and Bioproducts BIOTECHNOLOGY & APPLIED MICROBIOLOGY-
CiteScore
9.40
自引率
7.80%
发文量
332
期刊介绍: Algal Research is an international phycology journal covering all areas of emerging technologies in algae biology, biomass production, cultivation, harvesting, extraction, bioproducts, biorefinery, engineering, and econometrics. Algae is defined to include cyanobacteria, microalgae, and protists and symbionts of interest in biotechnology. The journal publishes original research and reviews for the following scope: algal biology, including but not exclusive to: phylogeny, biodiversity, molecular traits, metabolic regulation, and genetic engineering, algal cultivation, e.g. phototrophic systems, heterotrophic systems, and mixotrophic systems, algal harvesting and extraction systems, biotechnology to convert algal biomass and components into biofuels and bioproducts, e.g., nutraceuticals, pharmaceuticals, animal feed, plastics, etc. algal products and their economic assessment
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