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Transcriptome analysis of the effects of different carbon dioxide concentrations on paramylon accumulation in Euglena gracilis Z

Anlong Yuan, Fengyang Sui, Siping Li, Yan Liu, Xinxin Lü, Yang Lu, Yawen Fan

2023Bioresource Technology24 citationsDOIOpen Access PDF

Abstract

Appropriate concentration of carbon dioxide (CO2) will promote algae growth and metabolism. Building upon this finding, the present study investigated the impact of different CO2 concentrations (5% and 20%) on the carbon sequestration capacity of E. gracilis through aeration culturing, employing a combination of physiological analyses and transcriptome analysis. The results demonstrated that the cell density of E. gracilis was 1.79 times higher than that achieved in an air culture condition. Additionally, the paramylon content of E. gracilis was found to be 6.18 times higher than that of the air group. Based on transcriptome analysis, the carbon metabolism of E. gracilis was discussed. Significant up-regulation expression of genes associated with carbon synthesis was validated by an increase in paramylon content. This study revealed that under 5% CO2 conditions, E. gracilis exhibited elevated growth rate and enhanced photosynthetic carbon assimilation efficiency.

Topics & Concepts

Euglena gracilisCarbon dioxidePhotosynthesisAerationTranscriptomeCarbon fibersMetabolismBiologyChemistryFood scienceBotanyBiochemistryGene expressionEcologyGeneChloroplastMaterials scienceComposite numberComposite materialAlgal biology and biofuel productionMarine and coastal plant biologyMarine and coastal ecosystems