Lactic acid bacteria (LAB) are functional starter cultures in food and dairy industry and are also regarded as power houses for bioprocess and fermentation technology. Due to extensive applications in food and medical applications, intensive research and developmental activities are going on throughout the world to understand the genomic and metabolic aspects during the past few decades. These LAB strains have significant role in production of value added chemicals and fuels from lignocellulosic biomass and other by-product streams establishing a circular bioeconomy. In this context, we discuss the physiology and genetics of crude glycerol dissimilation in lactic acid bacteria, the value added chemicals produced from biodiesel-derived crude glycerol. The overview of metabolic engineering strategies to improve the cellular traits and future perspectives in constructing cellulolytic/hemicellulolytic LAB strains to establish a renewable and sustainable cost-effective biorefinery is discussed.
Keywords: Biodiesel; Crude glycerol; Heterolactic; Homolactic; Lactic acid bacteria; Lignocellulosics; Metabolic engineering.