From: Algal glycobiotechnology: omics approaches for strain improvement
Organism | Omics approach | Conditions | Target product | References |
---|---|---|---|---|
Auxenochlorella protothecoides | Transcriptomics and proteomics | Effect of nitrogen, phosphorus and temperature starvation, and oil accumulation | Biofuel | |
Chlorella pyrenoidosa | Transcriptomics and proteomics | Different nitrate levels and copper stress | Biofuel | |
Chlorella vulgaris | Proteomics | Nitrogen deprivation | TAG and lipid | [35] |
Tisochrysis lutea | Proteomics | Nitrogen starvation | Lipid accumulation | [38] |
Chromochloriszo fingiensis | Transcriptomics and proteomics | Nitrogen deprivation and lipid droplet analysis | Fatty acids andcarotenoids | |
Dunaliella salina | Transcriptomics and proteomics | Nitrogen depletion, oxidative stress, arsenate, salinity, and high bicarbonate ion level | Biofuel and glycerol | [24] |
Nannochloropsis gaditana | Transcriptomics and proteomics | Nitrogen alterations and light intensity regimes | Biofuel | |
Picochlorum sp. | Transcriptomics | High temperature and salinity stress | Biofuel | [24] |