Litcius/Paper detail

Enhanced high β-carotene yeast cell production by Rhodotorula paludigena CM33 and in vitro digestibility in aquatic animals

Namphet Thumkasem, Thapanut On-mee, Chatchol Kongsinkaew, Supenya Chittapun, Soisuda Pornpukdeewattana, Mariena Ketudat‐Cairns, Karun Thongprajukaew, Sompot Antimanon, Theppanya Charoenrat

2024Scientific Reports13 citationsDOIOpen Access PDF

Abstract

Abstract This study assessed Rhodotorula paludigena CM33's growth and β-carotene production in a 22-L bioreactor for potential use as an aquatic animal feed supplement. Optimizing the feed medium's micronutrient concentration for high-cell-density fed-batch cultivation using glucose as the carbon source yielded biomass of 89.84 g/L and β-carotene concentration of 251.64 mg/L. Notably, using sucrose as the carbon source in feed medium outperforms glucose feeds, resulting in a β-carotene concentration of 285.00 mg/L with a similar biomass of 87.78 g/L. In the fed-batch fermentation using Sucrose Feed Medium, R. paludigena CM33 exhibited high biomass production rates ( Q x ) of 0.91 g/L.h and remarkable β-carotene production rates ( Q p ) of 2.97 mg/L.h. In vitro digestibility assays showed that R. paludigena CM33, especially when cultivated using sucrose, enhances protein digestibility affirming its suitability as an aquatic feed supplement. Furthermore, R. paludigena CM33's nutrient-rich profile and probiotic potential make it an attractive option for aquatic nutrition. This research highlights the importance of cost-effective carbon sources in large-scale β-carotene production for aquatic animal nutrition.

Topics & Concepts

Food scienceSucroseCaroteneBiomass (ecology)FermentationNutrientYeast extractYeastBiologyAnimal feedRhodotorulaChemistryBiochemistryAgronomyEcologyAquaculture Nutrition and GrowthAlgal biology and biofuel productionProtein Hydrolysis and Bioactive Peptides