Multifactorial optimization enables the identification of a greener method to produce (+)-nootkatone.

The natural aroma compound (+)-nootkatone was obtained in selective conversions of up to 74 mol% from inexpensive (+)-valencene substrate by using a comparatively greener biocatalytic process developed based on modifications of the previously published Firmenich method. Buffer identity and concentration, pH, temperature and downstream work-up procedures were optimized to produce a crude product in which >90 % of (+)-valencene had been converted, with high chemoselectivity observed for (+)-nootkatone production. Interestingly, the biotransformation was carried out efficiently at temperatures as low as 21 ºC.

A green, economical synthesis of β-ketonitriles and trifunctionalized building blocks from esters and lactones.

The acylation of the acetonitrile anion with lactones and esters in ethereal solvents was successfully exploited using inexpensive KO-Bu to obtain a variety of β-ketonitriles and trifunctionalized building blocks, including useful -unprotected diols. It was discovered that lactones react to produce the corresponding derivatized cyclic hemiketals. Furthermore, the addition of a catalytic amount of isopropanol, or 18-crown-6, was necessary to facilitate the reaction and to reduce side-product formation under ambient conditions.

3-Hy-droxy-1-(4-meth-oxy-benz-yl)piperidin-2-one.

The title compound, C13H17NO3, adopts a conformation in which the aromatic ring and the mean plane of the piperidine ring are almost perpendicular to each other [dihedral angle = 79.25 (6)°]. The presence of the carbonyl group alters the conformation of the piperidine ring from a chair to a twisted half-chair conformation.

(±)-3-Benz-yloxy-1-(4-meth-oxy-benz-yl)piperidine-2-thione.

The title mol-ecule, C20H23NO2S, adopts a twisted conformation in which the two aromatic rings connected to the central piperidine ring are orientated trans to each other. An intra-molecular C-H⋯S contact occurs. In the crystal, C-H⋯π and C-H⋯O inter-actions act to stabilize the structure in three dimensions.