Chlorella is a promising microalga for CO 2-neutral biorefinery that co-produces drop-in
biofuels and multiple biochemicals. Cell disruption and selective lipid extraction steps are …

Adaptive laboratory evolution (ALE) experiments are a serviceable method for the industrial
utilization of the microalgae, which can improve the phenotype, performance, and stability of …

This study investigated the technical feasibility of using electrogermination to activate
dormant cysts as an inoculum for subsequent 14-d photosynthetic astaxanthin production in …

Green microalga Botryococcus braunii is a eukaryotic photosynthetic microorganism
considered as a rich source of biofuel compounds, such as hydrocarbons and lipids, despite …

High outdoor temperatures significantly inhibit the growth and lipid production of the
industrially promising marine microalga Tetraselmis suecica, which is viewed as a potential …

Adaptive laboratory evolution (ALE) has been widely utilized as a tool for developing new
biological and phenotypic functions to explore strain improvement for microalgal production …

Due to the complexity of metabolic and regulatory networks in microorganisms, it is difficult
to obtain robust phenotypes through artificial rational design and genetic perturbation …

Microalgae are versatile, profitable, and promising sources of bioenergy and high-value
products, having various applications in the biotechnology industry. Herein, G. emersonii …

Microalgae hold tremendous potential as sustainable bioresources in carbon capture,
climate change mitigation, and the development of net-zero lifestyles. However, scaling up …

Microalgae are considered as a promising feedstock for the production of valuable fatty
acids. In this study, individual fatty acid profiles during the growth period of Chlorella vulgaris …