Cutinase ACut2 from Blastobotrysraffinosifermentans for the Selective Desymmetrization of the Symmetric Diester Diethyl Adipate to the Monoester Monoethyl Adipate

Abstract: Monoethyl adipate (MEA) is a highly valuable monoester for activating resistance mechanisms and improving protective effects in pathogen-attacked plants. The cutinase ACut2 from the non-conventional yeast Blastobotrys (Arxula) raffinosifermentans (adeninivorans) was used for its synthesis by the desymmetrization of dicarboxylic acid diester diethyl adipate (DEA). Up to 78% MEA with 19% diacid adipic acid (AA) as by-product could be synthesized by the unpurified ACut2 culture supernatant from the B. raffinosife… Show more

“…The extracellular cutinase (ACut2)-containing supernatant from a non-conventional yeast, Blastobotrys ( Arxula ) raffinosifermentans ( adeninivorans ), was introduced as a new biocatalyst for the production of monoesters. It was studied to catalyze the desymmetrization of dicarboxylic acid diester diethyl adipate to monoester monoethyl adipate as a main product after optimizing the reaction conditions, showing a promising yield after up-scaling [ 11 ]. Ali and colleagues [ 12 ] extended the findings of previous research and presented a potential candidate for the digestion of agro-residual substrates.…”

Novel Drugs Obtained via Biotransformation—In Memory of the Late Scientists Frieder Schauer and Peter Grunwald

“…The extracellular cutinase (ACut2)-containing supernatant from a non-conventional yeast, Blastobotrys ( Arxula ) raffinosifermentans ( adeninivorans ), was introduced as a new biocatalyst for the production of monoesters. It was studied to catalyze the desymmetrization of dicarboxylic acid diester diethyl adipate to monoester monoethyl adipate as a main product after optimizing the reaction conditions, showing a promising yield after up-scaling [ 11 ]. Ali and colleagues [ 12 ] extended the findings of previous research and presented a potential candidate for the digestion of agro-residual substrates.…”

Novel Drugs Obtained via Biotransformation—In Memory of the Late Scientists Frieder Schauer and Peter Grunwald