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Reverse genetics of floral scent: application of tobacco rattle virus-based gene silencing in Petunia. | LitMetric

AI Article Synopsis

  • - Floral fragrances attract pollinators and repel pests, making their study vital for understanding plant biology and ecology.
  • - Petunia (Petunia hybrida) is a useful model for researching floral scents, employing techniques like RNA interference and virus-induced gene silencing (VIGS) to analyze scent production.
  • - The VIGS method allows for quick identification of gene suppression effects on volatile emissions, aiding in the exploration of both structural and regulatory genes involved in floral scent production.

Article Abstract

Floral fragrance is responsible for attracting pollinators as well as repelling pathogens and pests. As such, it is of immense biological importance. Molecular dissection of the mechanisms underlying scent production would benefit from the use of model plant systems with big floral organs that generate an array of volatiles and that are amenable to methods of forward and reverse genetics. One candidate is petunia (Petunia hybrida), which has emerged as a convenient model system, and both RNAi and overexpression approaches using transgenes have been harnessed for the study of floral volatiles. Virus-induced gene silencing (VIGS) is characterized by a simple inoculation procedure and rapid results relative to transgenesis. Here, we demonstrate the applicability of the tobacco rattle virus-based VIGS system to studies of floral scent. Suppression of the anthocyanin pathway via chalcone synthase silencing was used as a reporter, allowing easy visual identification of anthocyaninless silenced flowers/tissues with no effect on the level of volatile emissions. Use of tobacco rattle virus constructs containing target genes involved in phenylpropanoid volatile production, fused to the chalcone synthase reporter, allowed simple identification of flowers with suppressed activity of the target genes. The applicability of VIGS was exemplified with genes encoding S-adenosyl-l-methionine:benzoic acid/salicylic acid carboxyl methyltransferase, phenylacetaldehyde synthase, and the myb transcription factor ODORANT1. Because this high-throughput reverse-genetics approach was applicable to both structural and regulatory genes responsible for volatile production, it is expected to be highly instrumental for large-scale scanning and functional characterization of novel scent genes.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2151718PMC
http://dx.doi.org/10.1104/pp.107.105916DOI Listing

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