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Genome-guided investigation of plant natural product biosynthesis. | LitMetric

AI Article Synopsis

  • Madagascar periwinkle (Catharanthus roseus) is known for producing valuable anti-cancer compounds like vinblastine and vincristine, generated from complex biochemical pathways involving indole alkaloids.
  • A complete genome sequence of C. roseus was generated, revealing crucial insights into the genetics of these pathways, including gene clustering, duplication events, and potential new functions.
  • This genome assembly also enabled detailed analyses on gene expression, showcasing coordinated biosynthesis processes that are essential for the production of these vital anti-cancer metabolites.

Article Abstract

The medicinal plant Madagascar periwinkle, Catharanthus roseus (L.) G. Don, produces hundreds of biologically active monoterpene-derived indole alkaloid (MIA) metabolites and is the sole source of the potent, expensive anti-cancer compounds vinblastine and vincristine. Access to a genome sequence would enable insights into the biochemistry, control, and evolution of genes responsible for MIA biosynthesis. However, generation of a near-complete, scaffolded genome is prohibitive to small research communities due to the expense, time, and expertise required. In this study, we generated a genome assembly for C. roseus that provides a near-comprehensive representation of the genic space that revealed the genomic context of key points within the MIA biosynthetic pathway including physically clustered genes, tandem gene duplication, expression sub-functionalization, and putative neo-functionalization. The genome sequence also facilitated high resolution co-expression analyses that revealed three distinct clusters of co-expression within the components of the MIA pathway. Coordinated biosynthesis of precursors and intermediates throughout the pathway appear to be a feature of vinblastine/vincristine biosynthesis. The C. roseus genome also revealed localization of enzyme-rich genic regions and transporters near known biosynthetic enzymes, highlighting how even a draft genome sequence can empower the study of high-value specialized metabolites.

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Source
http://dx.doi.org/10.1111/tpj.12827DOI Listing

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