Mescaline,among the earliest identified natural hallucinogens,holds great potential in psychotherapy treatment.Nonetheless,despite the existence of a postulated biosynthetic pathway for more than half a century,the sp...Mescaline,among the earliest identified natural hallucinogens,holds great potential in psychotherapy treatment.Nonetheless,despite the existence of a postulated biosynthetic pathway for more than half a century,the specific enzymes involved in this process are yet to be identified.In this study,we investigated the cactus Lophophora williamsii(Peyote),the largest known natural producer of the phenethylamine mescaline.We employed a multi-faceted approach,combining de novo whole-genome and transcriptome sequencing with comprehensive chemical profiling,enzymatic assays,molecular modeling,and pathway engineering for pathway elucidation.We identified four groups of enzymes responsible for the six catalytic steps in the mescaline biosynthetic pathway,and an N-methyltransferase enzyme that N-methylates all phenethylamine intermediates,likely modulating mescaline levels in Peyote.Finally,we reconstructed the mescaline biosynthetic pathway in both Nicotiana benthamiana plants and yeast cells,providing novel insights into several challenges hindering complete heterologous mescaline production.Taken together,our study opens up avenues for exploration of sustainable production approaches and responsible utilization of mescaline,safeguarding this valuable natural resource for future generations.展开更多
基金fellowships from the Israel Ministry of Absorption and the Dean of the Plant Science Department in the Weizmann Institute.We thank Prof.David Nelson(University of Tennessee,USA)for the systematic naming of the cytochrome P450 enzymes characterized in this studyShmuel Regev and The Regev Nursery(Beit Elazari,Israel)for help in differentiating among Lophophora species+2 种基金Dr.Ziv Spiegelman for providing several N.benthamiana plantsXINTEZA(https://xinteza.com/)for funding this researchand the Adelis Foundation,the Leona M.and Harry B.Helmsley Charitable Trust,the Jeanne and Joseph Nissim Foundation for Life Sciences,Tom and Sondra Rykoff Family Foundation Research,Ron Sklare and the Raymond Burton Plant Genome Research Fund for supporting the A.A.laboratory。
文摘Mescaline,among the earliest identified natural hallucinogens,holds great potential in psychotherapy treatment.Nonetheless,despite the existence of a postulated biosynthetic pathway for more than half a century,the specific enzymes involved in this process are yet to be identified.In this study,we investigated the cactus Lophophora williamsii(Peyote),the largest known natural producer of the phenethylamine mescaline.We employed a multi-faceted approach,combining de novo whole-genome and transcriptome sequencing with comprehensive chemical profiling,enzymatic assays,molecular modeling,and pathway engineering for pathway elucidation.We identified four groups of enzymes responsible for the six catalytic steps in the mescaline biosynthetic pathway,and an N-methyltransferase enzyme that N-methylates all phenethylamine intermediates,likely modulating mescaline levels in Peyote.Finally,we reconstructed the mescaline biosynthetic pathway in both Nicotiana benthamiana plants and yeast cells,providing novel insights into several challenges hindering complete heterologous mescaline production.Taken together,our study opens up avenues for exploration of sustainable production approaches and responsible utilization of mescaline,safeguarding this valuable natural resource for future generations.
