Litcius/Paper detail

Transforming recalcitrant wastes into biodiesel by oleaginous yeast: An insight into the metabolic pathways and multi-omics landscape

Km Sartaj, Ramasare Prasad, Λεωνίδας Μάτσακας, Alok Patel

2023Chemical Engineering Journal30 citationsDOIOpen Access PDF

Abstract

The escalating challenge of waste disposal and the potential threat to global energy supply have sparked renewed interest in repurposing waste materials for the production of sustainable and renewable fuels. In line with this objective, there has been a growing focus on biodiesel production from oleaginous yeast through the valorization of waste. While numerous reports have been published on this subject, only a limited number of studies provide a comprehensive overview of recent advancements. To address this gap and the economic viability challenges associated with yeast-derived biodiesel production, the present review aims to highlight the opportunities offered by various recalcitrant wastes as a renewable feedstock for oleaginous yeast cultivation. The review also delves into extensive knowledge about the metabolic pathways that facilitate the conversion of different recalcitrant wastes into single-cell oil (SCO), which has not been extensively covered in a single platform before. Moreover, the most promising species of oleaginous yeast are described, taking into consideration economic aspects and the sustainability of the overall process. Furthermore, the review emphasizes the application of omics techniques to advance waste bioconversion into lipids for the purpose of commercialization. In summary, this study contributes to expanding our current understanding of the topic and facilitates the future upscaling and commercialization of biodiesel derived from oleaginous yeasts.

Topics & Concepts

CommercializationBiodieselRepurposingBioconversionRenewable energySustainabilityBiotechnologyRaw materialBiofuelBiochemical engineeringBiodiesel productionBusinessYeastWaste managementEnvironmental scienceEngineeringBiologyEcologyFermentationFood scienceGeneticsCatalysisMarketingBiochemistryMicrobial Metabolic Engineering and BioproductionBiofuel production and bioconversionEnzyme Catalysis and Immobilization