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Nutrient Deprivation Coupled with High Light Exposure for Bioactive Chrysolaminarin Production in the Marine Microalga Isochrysis zhangjiangensis

Xiuyuan Ran, Yuhan Shen, Dongjian Jiang, Chenqi Wang, Xinghui Li, Haoyu Zhang, Yunyun Pan, Chenglin Xie, Tonghui Xie, Yongkui Zhang, Changhong Yao

2022Marine Drugs15 citationsDOIOpen Access PDF

Abstract

Chrysolaminarin, a kind of water-soluble bioactive β-glucan produced by certain microalgae, is a potential candidate for food/pharmaceutical applications. This study identified a marine microalga Isochrysis zhangjiangensis, in which chrysolaminarin production was investigated via nutrient (nitrogen, phosphorus, or sulfur) deprivations (-N, -P, or -S conditions) along with an increase in light intensity. A characterization of the antioxidant activities of the chrysolaminarin produced under each condition was also conducted. The results showed that nutrient deprivation caused a significant increase in chrysolaminarin accumulation, though this was accompanied by diminished biomass production and photosynthetic activity. -S was the best strategy to induce chrysolaminarin accumulation. An increase in light intensity from 80 (LL) to 150 (HL) µE·m−2·s−1 further enhanced chrysolaminarin production. Compared with -N, -S caused more suitable stress and reduced carbon allocation toward neutral lipid production, which enabled a higher chrysolaminarin accumulation capacity. The highest chrysolaminarin content and concentration reached 41.7% of dry weight (%DW) and 632.2 mg/L, respectively, under HL-S, with a corresponding productivity of 155.1 mg/L/day achieved, which exceeds most of the photoautotrophic microalgae previously reported. The chrysolaminarin produced under HL-N (Iz-N) had a relatively competitive hydroxyl radical scavenging activity at low concentrations, while the chrysolaminarin produced under HL-S (Iz-S) exhibited an overall better activity, comparable to the commercial yeast β-glucan, demonstrating I. zhangjiangensis as a promising bioactive chrysolaminarin producer from CO2.

Topics & Concepts

NutrientFood sciencePhosphorusBiomass (ecology)PhotosynthesisLight intensityChemistryPhotobioreactorAntioxidantAlgaeSulfurBioactive compoundBotanyBiologyBiochemistryAgronomyOrganic chemistryPhysicsOpticsAlgal biology and biofuel productionEnzyme Catalysis and ImmobilizationPhotosynthetic Processes and Mechanisms