HIGHLIGHTS
SUMMARY
Achieving better high-value nutrients and recombinant protein content in C. reinhardtii has constantly been the aim of many studies utilizing genetic and metabolic engineering tools; for example, toward the expression of human selenoprotein, production of bovine lactoferricin, increment of PUFA levels, fatty_acids (FAs), anti-p57 antibodies, and carotenoid pigments. The latter hypothesis was later confirmed by in_vitro and in_vivo experiments involving rats that showed no adverse effects. The studies were focused on the toxicological evaluation of the dried biomass of C. reinhardtii wild_type strain (THN 6) and particularly the genotoxic potential and the . . .
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