High School Research Intern, Nhi, joins the lab for the summer. Nhi will be working with Rei (G2) and has already started running some reactions!
Today our lab reports a new method for hydroarylation of aliphatic and heteroatom-substituted terminal alkenes with (hetero)aryl iodides via a reductive a Heck coupling approach. A description of the work is available as a pre-print on ChemRxiv (click here). This reaction is trivial to set up, as it can be performed on the benchtop and uses exclusively reagents that are commercially available and commonly available in a standard organic chemistry lab. The transformation is notable for its compatibility with a myriad of functional groups, including those that are potentially reductively sensitive (epoxides, ketones, aldehydes, etc.) as well various aza-heterocycles commonly required in drug discovery. Key to the successful of this reaction is use of a high PPh3:Pd (10:1) ratio to suppress undesired beta-hydride elimination. Kudos to John who took on this significant challenge single-handedly and overcame numerous obstacles to bring this idea to fruition!
Appearing online today in J. Am. Chem. Soc., the Engle lab and Cravatt group report the results of a joint investigation, encompassing the discovery of a new copper-catalyzed method to access branched alkenyl nitriles from simple alkenes and exciting applications of these compounds in organic synthesis and chemical proteomics. Congrats to all coauthors: De-Wei, Sri, Jose, and Yiyang (Elaine) from the Engle lab; and Katya and Radu from the Cravatt lab. Thanks to the Cravatt lab for a great collaboration (hopefully, the first of many). Click here for a link to the article.
Congratulations to Keary and the entire Engle lab for receiving the prestigious 2018 American Chemical Society (ACS) Petroleum Research Fund (PRF) Doctoral New Investigator Award. The grant will support research efforts focused on developing synthetically useful oxidative alkene functionalization reactions with copper. Nice job!
Appearing online today is a new manuscript from a collaboration between the Engle lab and Bristol-Myers Squibb (BMS) describing the directed aminohydroxylation of non-conjugated alkenes using a weak oxidation system (2,6-dimethylbenzoquinone and O2 in HFIP). This method represents a convenient means of accessing beta-hydroxy-gamma-amino acids in an expedient manner from simple starting materials. To interrogate the reaction mechanism, we teamed up with process chemistry phenoms Drs. Mike Schmidt and Martin Eastgate from BMS, and together we established that the OH group of the product originates from O2 (potentially through the intermediacy of a peroxide or other reactive oxygen species). Congratulations to Tian (May) and Zhen from the Engle group as well as BMS coauthors Mike and Martin. Special props to undergraduate first author Tian (May), who managed to get the paper accepted only a few days before packing up and heading to her summer internship at Genentech, where she will spend a few months before starting her PhD at Caltech. May was the first undergraduate to publish a paper in the Engle group in 2016 and fittingly becomes the first undergraduate to complete a first-author contribution. Way to go team, and thanks to BMS for a great collaboration!
We are excited to have a new TSRI SURF student Omar joining us this summer. Omar is working under guidance of Mingyu (G2) and is already in the hood trying out some new methods for making non-conjugated acids. Omar is looking forward to learning about catalysis and trying out some new Chinese restaurants in San Diego.