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Caroline N. Broude

Miami University

1 paper in the library · 2 citations · publishing 2024

Papers

Evaluation of TrpM and PsiD substrate promiscuity reveals new biocatalytic capabilities

Biotechnology Progress June 18, 2024 Xin Wang, Fiona C. Kanis, Caroline N. Broude et al. 2 citations

N-methylated tryptamines like psilocybin and DMT show promise as treatments for mental health disorders, driving interest in biosynthetic production. This work characterized two enzymes from tryptamine biosynthesis: TrpM, a tryptophan N-methyltransferase from Psilocybe serbica, and PsiD, a decarboxylase from the psilocybin pathway. TrpM was able to N-methylate 4-hydroxytryptophan, a non-native amino acid. However, incorporating TrpM into a functional psilocybin pathway was blocked because PsiD could not use N,N-dimethyl-4-hydroxytryptophan as a substrate under the tested conditions, despite acting on N-methylated and 4-hydroxylated tryptophan derivatives separately. These findings expand the known substrates for TrpM and PsiD, increasing the diversity of tryptamine biosynthetic products.