reinhardtii remained unaffected this enzyme is involved in acetyl CoA production and has been linked to TAG accumulation in microalgae. nivalis (1.1-fold change), whilst levels in C. In terms of lipid synthesis, salt stress induced an increase in dihydrolipoyl dehydrogenase in C. There were abundance differences in proteins associated with stress, photosynthesis, carbohydrate and lipid metabolism proteins. De novo sequencing and homology matching was used in conjunction with iTRAQ-based quantitative analysis to identify and relatively quantify proteomic alterations in cells exposed to salt stress. Photosynthesis and respiration rates are reduced in C. nivalis fatty acid profiles showed that salt stress improved the biofuel qualities over time. In 0.2 M NaCl, C. nivalis accumulates carbohydrates up to 10.4% DCW at 80 h, and fatty acids up to 52.0% dry cell weight (DCW) over 12 days, however, C. reinhardtii does not show fatty acid accumulation over time, and shows limited carbohydrate accumulation up to 5.5% DCW. ResultsĮach strain was grown in conditions tailored to their growth requirements to encourage maximal fatty acid (as a proxy measure of lipid) production, with internal controls to allow comparison points. Here, we characterised physiological and proteomic changes between a low-starch C. reinhardtii strain and the snow alga Chlamydomonas nivalis, to reveal insights into their contrasting responses to salinity stress. Chlamydomonas reinhardtii is a model green alga strain for molecular studies its fully sequenced genome has enabled omic-based analyses that have been applied to better understand its metabolic responses to stress.
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