AI Article Synopsis
- Current agricultural practices focus on enhancing crop yield, nutritional value, and tolerance to environmental stress to ensure food security.
- Introducing a single gene related to carotenoid biosynthesis in tomatoes resulted in significant changes in hormone levels and metabolic pathways, boosting fruit yield by up to 77% and improving provitamin A content.
- These metabolic shifts not only increased fruit yield but also enhanced the plants' ability to withstand various abiotic stresses, suggesting a potential strategy for developing crops that are both productive and resilient to climate change.
Article Abstract
Improving yield, nutritional value and tolerance to abiotic stress are major targets of current breeding and biotechnological approaches that aim at increasing crop production and ensuring food security. Metabolic engineering of carotenoids, the precursor of vitamin-A and plant hormones that regulate plant growth and response to adverse growth conditions, has been mainly focusing on provitamin A biofortification or the production of high-value carotenoids. Here, we show that the introduction of a single gene of the carotenoid biosynthetic pathway in different tomato cultivars induced profound metabolic alterations in carotenoid, apocarotenoid and phytohormones pathways. Alterations in isoprenoid- (abscisic acid, gibberellins, cytokinins) and non-isoprenoid (auxin and jasmonic acid) derived hormones together with enhanced xanthophyll content influenced biomass partitioning and abiotic stress tolerance (high light, salt, and drought), and it caused an up to 77% fruit yield increase and enhanced fruit's provitamin A content. In addition, metabolic and hormonal changes led to accumulation of key primary metabolites (e.g. osmoprotectants and antiaging agents) contributing with enhanced abiotic stress tolerance and fruit shelf life. Our findings pave the way for developing a new generation of crops that combine high productivity and increased nutritional value with the capability to cope with climate change-related environmental challenges.
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| http://dx.doi.org/10.1016/j.ymben.2022.01.004 | DOI Listing |
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