Transcriptome and metabolome profiling of the medicinal plant Veratrum mengtzeanum reveal key components of the alkaloid biosynthesis

Abstract: Veratrum mengtzeanum is the main ingredient for Chinese folk medicine known as “Pimacao” due to its unique alkaloids. A diverse class of plant-specific metabolites having key pharmacological activities. There are limited studies on alkaloid synthesis and its metabolic pathways in plants. To elucidate the alkaloid pathway and identify novel biosynthetic enzymes and compounds in V. mengtzeanum, transcriptome and metabolome profiling has been conducted in leaves and roots. The transcriptome of V. mengtzeanum leav… Show more

“…Their transcriptome sequencing efforts successfully identified genes responsible for flavonoid biosynthesis, offering insight into the molecular mechanisms of these compounds, known for their antioxidant and anti-inflammatory properties. Extending this line of inquiry, Liu et al [ 44 ] applied both transcriptome and metabolome profiling to V. mengtzeanum , revealing essential elements of the biosynthesis of alkaloids, a class of compounds with a wide range of pharmacological effects. These investigations collectively underscore the utility of transcriptome analysis in revealing the genetic mechanisms behind the synthesis of bioactive compounds in medicinal plants.…”

Transcriptomic Insights and Cytochrome P450 Gene Analysis in Kadsura coccinea for Lignan Biosynthesis

“…Their transcriptome sequencing efforts successfully identified genes responsible for flavonoid biosynthesis, offering insight into the molecular mechanisms of these compounds, known for their antioxidant and anti-inflammatory properties. Extending this line of inquiry, Liu et al [ 44 ] applied both transcriptome and metabolome profiling to V. mengtzeanum , revealing essential elements of the biosynthesis of alkaloids, a class of compounds with a wide range of pharmacological effects. These investigations collectively underscore the utility of transcriptome analysis in revealing the genetic mechanisms behind the synthesis of bioactive compounds in medicinal plants.…”

Transcriptomic Insights and Cytochrome P450 Gene Analysis in Kadsura coccinea for Lignan Biosynthesis

“…8 A). The TFs AP2/ERF, WRKY, C2H2, bHLH, and MYB-related are key regulators of alkaloid biosynthesis pathways in C. roseus and various other plant species [ 52 ]. Within plants, the AP2/ERF family regulates secondary metabolites and stress responses.…”

Comprehensive transcriptomic meta-analysis unveils new responsive genes to methyl jasmonate and ethylene in Catharanthus roseus

Comparative transcriptome analysis and HPLC reveal candidate genes associated with synthesis of bioactive constituents in Rheum palmatum complex