Some orthologous lipoxygenases from other Pleurotus species were characterized for their specificity in converting the uncommon terpenic substrates [25]. The use of lipases for lipolysis, reverse hydrolysis and resolution
of racemic esters, glycosidases to release flavours from glycosidic precursors, peptidases, and a number of oxidoreductases and synthases is established [26]. selleck chemicals llc The observation that some lipases maintained their activity in organic solvents was a breakthrough. Since then, numerous papers showed the capacity of the concept. Recently, a carboxylesterase from Bacillus licheniformis was reported to synthesize isoamyl acetate from isoamyl alcohol and p-nitrophenyl acetate in n-hexane [27]. Although the choice of the acyl donor facilitated the analytics, another (natural) source, such as vinegar, will be required to produce a natural flavour. Following the principles of sustainability, Lipozyme was used for the transesterification of coconut oil and fusel alcohols, both renewable and low-cost natural materials [28]. Octanoic acid ethyl-, butyl-, isobutyl-, propyl- and (iso)amyl esters were formed.
The enzyme was re-used several times without significant loss of activity after a washing step was introduced. Regardless of the controversial public discussion, the tremendous advances in genetic R428 research buy engineering currently stimulate scientific progress in flavour biotechnology. Full genomes of food microorganisms, such as Saccharomyces and Propionibacterium are electronically available, and many tools can help expressing a metabolic trait in a cellular host. Exotic sources of genes, such as sediment from the Chinese Sea were explored [29•]. An esterase gene was found there, and the enzyme with specificity towards short either chain fatty acids was expressed in Escherichia
coli. Enzymes from extremophiles are supposed to feature high tolerance against chemical and physical inactivation resulting in the requested improved operational stability. Recently, the production of flavour precursors is gaining attention. Ferulic acid, the precursor of biotech-vanillin, was generated in recombinant Pseudomonas fluorescens by targeted mutation of the vanillin dehydrogenase gene and concurrent expression of structural genes for feruloyl-CoA synthetase and hydratase/aldolase [30]. A strain of Saccharomyces cerevisiae was engineered to convert eugenol to the same precursor by chromosomal integration of a vanillyl-alcohol oxidase gene [31]. The expression of stress or insect-induced genes of terpene synthases from higher plants in E. coli presents a remarkable progress looking at the large metabolic distance between donor and host.