About this Research Topic
The Solanaceae (nightshade) family includes many popular and economically important crops, such as tomatoes, potatoes, peppers, eggplants, and tobacco. This family comprises diverse genera with edible, ornamental, medicinal, and toxic plants, with Solanum, Capsicum, Nicotiana, Physalis, and Petunia being particularly noteworthy. These species play crucial roles across various sectors, producing specialized metabolites like phenolic compounds, glycoalkaloids, tropane alkaloids, terpenoids, and carotenoids. Such compounds enhance crop resilience, offer nutritional and health benefits, and have pharmacological and psychoactive effects.
The chemodiversity within the Solanaceae family supports ecological roles, such as plant resistance, and interactions with environmental agents while affecting the quality and safety of foods and consumer goods. Despite decades of research, this family continues to surprise with novel compounds from both cultivated and wild species. Expanding scientific knowledge on this chemodiversity is critical to improving plant resilience and adaptation, ensuring food quality and safety, advancing crop breeding, and unlocking the therapeutic potential of bioactive compounds.
This Research Topic aims to explore and highlight recent advancements in understanding the chemodiversity within the Solanaceae family, focusing on ecological, genetic, and environmental influences. The production and management of specialized metabolites in Solanaceae pose challenges, particularly in crop resilience, food safety, and biodiversity conservation. This topic seeks to address these challenges through interdisciplinary studies that reveal how chemodiversity is affected and managed to enhance beneficial properties of these crops while reducing harmful metabolite accumulation. Research on local landraces and germplasm collections to identify desirable quality traits is also encouraged.
By bringing together studies examining chemodiversity, secondary metabolite biosynthesis, molecular regulation of metabolic pathways, and the ecological roles of these compounds, we aim to foster collaboration for innovative solutions. These efforts can enhance crop resilience and quality, address climate change challenges, and unlock the therapeutic potential of Solanaceae bioactive compounds. Our goal is to promote the development of safer, higher-quality crops and derived products that contribute to global food security and offer new avenues for sustainable agriculture and human health benefits.
The chemodiversity within the Solanaceae family supports ecological roles, such as plant resistance, and interactions with environmental agents while affecting the quality and safety of foods and consumer goods. Despite decades of research, this family continues to surprise with novel compounds from both cultivated and wild species. Expanding scientific knowledge on this chemodiversity is critical to improving plant resilience and adaptation, ensuring food quality and safety, advancing crop breeding, and unlocking the therapeutic potential of bioactive compounds.
This Research Topic aims to explore and highlight recent advancements in understanding the chemodiversity within the Solanaceae family, focusing on ecological, genetic, and environmental influences. The production and management of specialized metabolites in Solanaceae pose challenges, particularly in crop resilience, food safety, and biodiversity conservation. This topic seeks to address these challenges through interdisciplinary studies that reveal how chemodiversity is affected and managed to enhance beneficial properties of these crops while reducing harmful metabolite accumulation. Research on local landraces and germplasm collections to identify desirable quality traits is also encouraged.
By bringing together studies examining chemodiversity, secondary metabolite biosynthesis, molecular regulation of metabolic pathways, and the ecological roles of these compounds, we aim to foster collaboration for innovative solutions. These efforts can enhance crop resilience and quality, address climate change challenges, and unlock the therapeutic potential of Solanaceae bioactive compounds. Our goal is to promote the development of safer, higher-quality crops and derived products that contribute to global food security and offer new avenues for sustainable agriculture and human health benefits.
Keywords: Solanaceae, Secondary metabolites, Bioactive compounds, Plant resilience, Metabolomics
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