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Autores principales: Boachon, Benoît, Lynch, Joseph, Ray, Shaunak, Yuan, Jing, Caldo, Kristian Mark P., Junker, Robert, Kessler, Sharon A., Morgan, John A., Dudareva, Natalia
Formato: Preprint
Publicado: 2024
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Acceso en línea:https://arxiv.org/abs/2409.13270
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author Boachon, Benoît
Lynch, Joseph
Ray, Shaunak
Yuan, Jing
Caldo, Kristian Mark P.
Junker, Robert
Kessler, Sharon A.
Morgan, John A.
Dudareva, Natalia
author_facet Boachon, Benoît
Lynch, Joseph
Ray, Shaunak
Yuan, Jing
Caldo, Kristian Mark P.
Junker, Robert
Kessler, Sharon A.
Morgan, John A.
Dudareva, Natalia
contents Plants synthesize volatile organic compounds (VOCs) to attract pollinators and beneficial microorganisms, to defend themselves against herbivores and pathogens and for plant-plant communication. Generally, accumulation and emission of VOCs occur from the tissue of their biosynthesis. However, using biochemical and reverse genetic approaches, we demonstrate a new physiological phenomenon: inter-organ aerial transport of VOCs via natural fumigation. Before petunia flowers open, a tube-specific terpene synthase produces sesquiterpenes, which are released inside the buds and then accumulate in the stigma, potentially defending the developing stigma from pathogens. These VOCs also affect reproductive organ development and seed yield, which is a previously unknown function for terpenoid compounds. could serve as a mechanism to coordinate the timing of pistil development with petal development in order to insure that the stigma is receptive when the flowers are most likely to attract pollinators. Further studies are required to assess whether natural fumigation is conserved in flowering plants, to uncover the mechanisms involved, and to determine its evolutionary advantage in plant reproduction.
format Preprint
id arxiv_https___arxiv_org_abs_2409_13270
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Natural fumigation as a mechanism for volatile transport between flower organs
Boachon, Benoît
Lynch, Joseph
Ray, Shaunak
Yuan, Jing
Caldo, Kristian Mark P.
Junker, Robert
Kessler, Sharon A.
Morgan, John A.
Dudareva, Natalia
Biomolecules
Plants synthesize volatile organic compounds (VOCs) to attract pollinators and beneficial microorganisms, to defend themselves against herbivores and pathogens and for plant-plant communication. Generally, accumulation and emission of VOCs occur from the tissue of their biosynthesis. However, using biochemical and reverse genetic approaches, we demonstrate a new physiological phenomenon: inter-organ aerial transport of VOCs via natural fumigation. Before petunia flowers open, a tube-specific terpene synthase produces sesquiterpenes, which are released inside the buds and then accumulate in the stigma, potentially defending the developing stigma from pathogens. These VOCs also affect reproductive organ development and seed yield, which is a previously unknown function for terpenoid compounds. could serve as a mechanism to coordinate the timing of pistil development with petal development in order to insure that the stigma is receptive when the flowers are most likely to attract pollinators. Further studies are required to assess whether natural fumigation is conserved in flowering plants, to uncover the mechanisms involved, and to determine its evolutionary advantage in plant reproduction.
title Natural fumigation as a mechanism for volatile transport between flower organs
topic Biomolecules
url https://arxiv.org/abs/2409.13270