RESUMO
The current study aimed to evaluate if the addition of pentoses along with variations in light intensity and photoperiod can stimulate the production of polyhydroxybutyrate (PHB) and other biomolecules by Chlorella fusca LEB 111. The variables evaluated were the addition of xylose and arabinose as sources of organic carbon, different photoperiods (18â¯h, 12â¯h and 6â¯h light) and variations in light intensities (58, 28 and 9⯵molphotonsâ¯m-2â¯s-1). The highest PHB accumulation (17.4%â¯wâ¯w-1) and protein production (53.2% ww-1) were observed in assays with xylose addition and a photoperiod of 6â¯h of light provided at 28 and 58⯵molphotonsâ¯m-2â¯s-1, respectively. The highest lipid content (24.7%â¯wâ¯w-1) was obtained with 18â¯h of light. The current study contributes to the development of sustainable alternatives for the use of wastes and the production of biomolecules from algae.
Assuntos
Chlorella , Hidroxibutiratos/metabolismo , Pentoses/metabolismo , Fotoperíodo , Arabinose , XiloseRESUMO
High concentrations of carbon, which is considered a necessary element, are required for microalgal growth. Therefore, the identification of alternative carbon sources available in large quantities is increasingly important. This study evaluated the effects of light variation and pentose addition on the carbohydrate content and protein profile of Chlorella minutissima grown in a raceway photobioreactor. The kinetic parameters, carbohydrate content, and protein profile of Chlorella minutissima and its theoretical potential for ethanol production were estimated. The highest cellular concentrations were obtained with a light intensity of 33.75µmol.m-2.s-1. Arabinose addition combined with a light intensity of 33.75µmol.m-2.s-1 increased the carbohydrate content by 53.8% and theoretically produced 39.1mL·100g-1 ethanol. All of the assays showed that a lower light availability altered the protein profile. The luminous intensity affects xylose and arabinose assimilation and augments the carbohydrate content in C. minutissima, making this microalga appropriate for bioethanol production.