Skip to content

Scott A. Ford

1 paper in the library

Papers

A chromosome level reference genome of Diviners sage (Salvia divinorum) provides insight into salvinorin A biosynthesis

bioRxiv (Cold Spring Harbor Laboratory) Scott A. Ford, Rob W. Ness, Moonhyuk Kwon et al. preprint

A chromosome-level genome assembly of the diviners sage plant, which produces the hallucinogen salvinorin A, has been produced. The genome is about 541 million base pairs, diploid, and comparable to other sage species. Two gene clusters involved in diterpene biosynthesis were identified, including a gene that forms the dihydrofuran ring early in the salvinorin A pathway. Other enzyme classes likely involved in later steps are scattered across the genome. Most of these genes are not activated by methyl jasmonate treatment. This high-quality genome sequence will help uncover the remaining steps in salvinorin A biosynthesis and support exploration of its medical potential for chronic pain, addiction, and post-traumatic stress disorder.