Introducing Savie: A Biodegradable Surfactant Enabling Chemo- and Biocatalysis and Related Reactions in Recyclable Water.

Savie is a biodegradable surfactant derived from vitamin E and polysarcosine (PSar) developed for use in organic synthesis in recyclable water. This includes homogeneous catalysis (including examples employing only ppm levels of catalyst), heterogeneous catalysis, and biocatalytic transformations, including a multistep chemoenzymatic sequence. Use of Savie frequently leads to significantly higher yields than do conventional surfactants, while obviating the need for waste-generating organic solvents.

ppm Pd-Containing Nanoparticles as Catalysts for Negishi Couplings in Water.

New technology is reported that enables Negishi couplings to be run under sustainable, far greener conditions. Thus, ppm Pd-containing nanoparticles (NPs) have been developed that catalyze couplings in recyclable water under very mild conditions. These heterogeneous reactions involve loadings of Pd of typically only 2500 ppm (0.25 mol %). Highly functionalized aromatic and heteroaromatic bromides readily participate, including examples taken from the Merck Informer Library indicative of the functional group tolerance associated with these couplings. Direct comparisons with existing literature routes are made. Very low residual levels of Pd in newly formed products are to be expected, as determined by ICP-MS. The reagent involved has been extensively characterized via DLS, TEM, cryo-TEM, and EDX measurements.

Discovery of VU6027459: A First-in-Class Selective and CNS Penetrant mGlu7 Positive Allosteric Modulator Tool Compound.

Herein, we report the discovery of the first selective and CNS penetrant mGlu7 PAM (VU6027459) derived from a "molecular switch" within a selective mGlu7 NAM chemotype. VU6027459 displayed CNS penetration in both mice (Kp = 2.74) and rats (Kp= 4.78), it was orally bioavailable in rats (%F = 69.5), and undesired activity at DAT was ablated.