John F. Daeuble

The discovery of Arylex™ active and Rinskor™ active: Two novel auxin herbicides.

Multiple classes of commercially important auxin herbicides have been discovered since the 1940s including the aryloxyacetates (2,4-D, MCPA, dichlorprop, mecoprop, triclopyr, and fluroxypyr), the benzoates (dicamba), the quinoline-2-carboxylates (quinclorac and quinmerac), the pyrimidine-4-carboxylates (aminocyclopyrachlor), and the pyridine-2-carboxylates (picloram, clopyralid, and aminopyralid). In the last 10 years, two novel pyridine-2-carboxylate (or picolinate) herbicides were discovered at Dow AgroSciences. This paper will describe the structure activity relationship study that led to the discovery of the 6-aryl-picolinate herbicides Arylex™ active (2005) and Rinskor™ active (2010). While Arylex was developed primarily for use in cereal crops and Rinskor is still in development primarily for use in rice crops, both herbicides will also be utilized in additional crops.

Modification of the butenyl-spinosyns utilizing cross-metathesis.

The discovery of a strain of Saccharopolyspora sp. that produced a number of spinosyn analogs that had not before been seen gave an ideal opportunity for extending our knowledge of that SAR of these highly efficacious insecticides. In particular, these compounds contained a butenyl group connected to C-21 which in the regular spinosyns was substituted with a simple ethyl group. The double bond therefore gave us a handle to further modify this position allowing us to substitute different groups there. In this paper we show one of our approaches to this modification using olefin cross-metathesis. Even though the spinosyns were not highly efficient substrates for metathesis reactions, we were nevertheless successful in extending their chemistry accordingly.