[HTML][HTML] The synthetic future of algal genomes
Algae are diverse organisms with significant biotechnological potential for resource
circularity. Taking inspiration from fermentative microbes, engineering algal genomes holds …
circularity. Taking inspiration from fermentative microbes, engineering algal genomes holds …
Genetic mechanisms underlying increased microalgal thermotolerance, maximal growth rate, and yield on light following adaptive laboratory evolution
Background Adaptive laboratory evolution (ALE) is a powerful method for strain optimization
towards abiotic stress factors and for identifying adaptation mechanisms. In this study, the …
towards abiotic stress factors and for identifying adaptation mechanisms. In this study, the …
Exceptional Quantum Efficiency Powers Biomass Production in Halotolerant Algae Picochlorum sp.^
The green algal genus Picochlorum is of biotechnological interest because of its robust
response to multiple environmental stresses. We compared the metabolic performance of P …
response to multiple environmental stresses. We compared the metabolic performance of P …
Chromosome-scale assembly of the streamlined picoeukaryote Picochlorum sp. SENEW3 genome reveals Rabl-like chromatin structure and potential for C4 …
Genome sequencing and assembly of the photosynthetic picoeukaryotic Picochlorum sp.
SENEW3 revealed a compact genome with a reduced gene set, few repetitive sequences …
SENEW3 revealed a compact genome with a reduced gene set, few repetitive sequences …