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Evolution and development of fruits of Erycina pusilla and other orchid species

Authors :
Pramanik, Dewi; https://orcid.org/0000-0002-6781-774X
Becker, Annette
Roessner, Clemens
Rupp, Oliver; https://orcid.org/0000-0003-2755-6458
Bogarín, Diego
Pérez-Escobar, Oscar Alejandro
Dirks-Mulder, Anita
Droppert, Kevin
Kocyan, Alexander
Smets, Erik; https://orcid.org/0000-0002-9416-983X
Gravendeel, Barbara
Pramanik, Dewi; https://orcid.org/0000-0002-6781-774X
Becker, Annette
Roessner, Clemens
Rupp, Oliver; https://orcid.org/0000-0003-2755-6458
Bogarín, Diego
Pérez-Escobar, Oscar Alejandro
Dirks-Mulder, Anita
Droppert, Kevin
Kocyan, Alexander
Smets, Erik; https://orcid.org/0000-0002-9416-983X
Gravendeel, Barbara
Source :
Pramanik, Dewi; Becker, Annette; Roessner, Clemens; Rupp, Oliver; Bogarín, Diego; Pérez-Escobar, Oscar Alejandro; Dirks-Mulder, Anita; Droppert, Kevin; Kocyan, Alexander; Smets, Erik; Gravendeel, Barbara (2023). Evolution and development of fruits of Erycina pusilla and other orchid species. PLoS ONE, 18(10):e0286846.
Publication Year :
2023

Abstract

Fruits play a crucial role in seed dispersal. They open along dehiscence zones. Fruit dehiscence zone formation has been intensively studied in Arabidopsis thaliana. However, little is known about the mechanisms and genes involved in the formation of fruit dehiscence zones in species outside the Brassicaceae. The dehiscence zone of A. thaliana contains a lignified layer, while dehiscence zone tissues of the emerging orchid model Erycina pusilla include a lipid layer. Here we present an analysis of evolution and development of fruit dehiscence zones in orchids. We performed ancestral state reconstructions across the five orchid subfamilies to study the evolution of selected fruit traits and explored dehiscence zone developmental genes using RNA-seq and qPCR. We found that erect dehiscent fruits with non-lignified dehiscence zones and a short ripening period are ancestral characters in orchids. Lignified dehiscence zones in orchid fruits evolved multiple times from non-lignified zones. Furthermore, we carried out gene expression analysis of tissues from different developmental stages of E. pusilla fruits. We found that fruit dehiscence genes from the MADS-box gene family and other important regulators in E. pusilla differed in their expression pattern from their homologs in A. thaliana. This suggests that the current A. thaliana fruit dehiscence model requires adjustment for orchids. Additionally, we discovered that homologs of A. thaliana genes involved in the development of carpel, gynoecium and ovules, and genes involved in lipid biosynthesis were expressed in the fruit valves of E. pusilla, implying that these genes may play a novel role in formation of dehiscence zone tissues in orchids. Future functional analysis of developmental regulators, lipid identification and quantification can shed more light on lipid-layer based dehiscence of orchid fruits.

Details

Database :
OAIster
Journal :
Pramanik, Dewi; Becker, Annette; Roessner, Clemens; Rupp, Oliver; Bogarín, Diego; Pérez-Escobar, Oscar Alejandro; Dirks-Mulder, Anita; Droppert, Kevin; Kocyan, Alexander; Smets, Erik; Gravendeel, Barbara (2023). Evolution and development of fruits of Erycina pusilla and other orchid species. PLoS ONE, 18(10):e0286846.
Notes :
application/pdf, info:doi/10.5167/uzh-237713, English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1443053983
Document Type :
Electronic Resource