Cross-Species Metabolic Profiling of Floral Specialized Metabolism Facilitates Understanding of Evolutional Aspects of Metabolism Among Brassicaceae Species
Plants produce a variety of floral specialized (secondary) metabolites with roles in several physiological functions, including light-protection, attraction of pollinators, and protection against herbivores. Pigments and volatiles synthesized in the petal have been focused on and characterized as ma...
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th-mahidol.757012022-08-04T14:58:01Z Cross-Species Metabolic Profiling of Floral Specialized Metabolism Facilitates Understanding of Evolutional Aspects of Metabolism Among Brassicaceae Species Yuting Liu Mutsumi Watanabe Sayuri Yasukawa Yuriko Kawamura Chaiwat Aneklaphakij Alisdair R. Fernie Takayuki Tohge Max Planck Institute of Molecular Plant Physiology Nara Institute of Science and Technology Mahidol University Agricultural and Biological Sciences Plants produce a variety of floral specialized (secondary) metabolites with roles in several physiological functions, including light-protection, attraction of pollinators, and protection against herbivores. Pigments and volatiles synthesized in the petal have been focused on and characterized as major chemical factors influencing pollination. Recent advances in plant metabolomics have revealed that the major floral specialized metabolites found in land plant species are hydroxycinnamates, phenolamides, and flavonoids albeit these are present in various quantities and encompass diverse chemical structures in different species. Here, we analyzed numerous floral specialized metabolites in 20 different Brassicaceae genotypes encompassing both different species and in the case of crop species different cultivars including self-compatible (SC) and self-incompatible (SI) species by liquid chromatography-mass spectrometry (LC-MS). Of the 228 metabolites detected in flowers among 20 Brassicaceae species, 15 metabolite peaks including one phenylacyl-flavonoids and five phenolamides were detected and annotated as key metabolites to distinguish SC and SI plant species, respectively. Our results provide a family-wide metabolic framework and delineate signatures for compatible and incompatible genotypes thereby providing insight into evolutionary aspects of floral metabolism in Brassicaceae species. 2022-08-04T07:58:01Z 2022-08-04T07:58:01Z 2021-03-31 Article Frontiers in Plant Science. Vol.12, (2021) 10.3389/fpls.2021.640141 1664462X 2-s2.0-85104180781 https://repository.li.mahidol.ac.th/handle/123456789/75701 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85104180781&origin=inward |
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Agricultural and Biological Sciences Yuting Liu Mutsumi Watanabe Sayuri Yasukawa Yuriko Kawamura Chaiwat Aneklaphakij Alisdair R. Fernie Takayuki Tohge Cross-Species Metabolic Profiling of Floral Specialized Metabolism Facilitates Understanding of Evolutional Aspects of Metabolism Among Brassicaceae Species |
| description |
Plants produce a variety of floral specialized (secondary) metabolites with roles in several physiological functions, including light-protection, attraction of pollinators, and protection against herbivores. Pigments and volatiles synthesized in the petal have been focused on and characterized as major chemical factors influencing pollination. Recent advances in plant metabolomics have revealed that the major floral specialized metabolites found in land plant species are hydroxycinnamates, phenolamides, and flavonoids albeit these are present in various quantities and encompass diverse chemical structures in different species. Here, we analyzed numerous floral specialized metabolites in 20 different Brassicaceae genotypes encompassing both different species and in the case of crop species different cultivars including self-compatible (SC) and self-incompatible (SI) species by liquid chromatography-mass spectrometry (LC-MS). Of the 228 metabolites detected in flowers among 20 Brassicaceae species, 15 metabolite peaks including one phenylacyl-flavonoids and five phenolamides were detected and annotated as key metabolites to distinguish SC and SI plant species, respectively. Our results provide a family-wide metabolic framework and delineate signatures for compatible and incompatible genotypes thereby providing insight into evolutionary aspects of floral metabolism in Brassicaceae species. |
| author2 |
Max Planck Institute of Molecular Plant Physiology |
| author_facet |
Max Planck Institute of Molecular Plant Physiology Yuting Liu Mutsumi Watanabe Sayuri Yasukawa Yuriko Kawamura Chaiwat Aneklaphakij Alisdair R. Fernie Takayuki Tohge |
| format |
Article |
| author |
Yuting Liu Mutsumi Watanabe Sayuri Yasukawa Yuriko Kawamura Chaiwat Aneklaphakij Alisdair R. Fernie Takayuki Tohge |
| author_sort |
Yuting Liu |
| title |
Cross-Species Metabolic Profiling of Floral Specialized Metabolism Facilitates Understanding of Evolutional Aspects of Metabolism Among Brassicaceae Species |
| title_short |
Cross-Species Metabolic Profiling of Floral Specialized Metabolism Facilitates Understanding of Evolutional Aspects of Metabolism Among Brassicaceae Species |
| title_full |
Cross-Species Metabolic Profiling of Floral Specialized Metabolism Facilitates Understanding of Evolutional Aspects of Metabolism Among Brassicaceae Species |
| title_fullStr |
Cross-Species Metabolic Profiling of Floral Specialized Metabolism Facilitates Understanding of Evolutional Aspects of Metabolism Among Brassicaceae Species |
| title_full_unstemmed |
Cross-Species Metabolic Profiling of Floral Specialized Metabolism Facilitates Understanding of Evolutional Aspects of Metabolism Among Brassicaceae Species |
| title_sort |
cross-species metabolic profiling of floral specialized metabolism facilitates understanding of evolutional aspects of metabolism among brassicaceae species |
| publishDate |
2022 |
| url |
https://repository.li.mahidol.ac.th/handle/123456789/75701 |
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1763496249045024768 |