Autor: |
Albert, Nick W., Lafferty, Declan J., Moss, Sarah M. A., Davies, Kevin M. |
Předmět: |
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Zdroj: |
Journal of the Royal Society of New Zealand; Jun2023, Vol. 53 Issue 3, p304-331, 28p |
Abstrakt: |
Flavonoids are plant-specific secondary metabolites that arose early during land-plant colonisation, most likely evolving for protection from UV-B and other abiotic stresses. As plants increased in complexity, so too did the diversity of flavonoid compounds produced and their physiological roles. The most conspicuous are the pigments, including yellow aurones and chalcones, and the red/purple/blue anthocyanins, which provide colours to flowers, fruits and foliage. Anthocyanins have been particularly well studied, prompted by the ease of identifying mutants of genes involved in biosynthesis or regulation, providing an important model system to study fundamental aspects of genetics, gene regulation and biochemistry. This has included identifying the first plant transcription factor, and later resolving how multiple classes of transcription factor coordinate in regulating the production of various flavonoid classes – each with different activities and produced at differing developmental stages. In addition, dietary flavonoids from fruits/vegetables and forage confer human- and animal-health benefits, respectively. This has prompted strong interest in generating new plant varieties with increased flavonoid content through both traditional breeding and plant biotechnology. Gene-editing technologies provide new opportunities to study how flavonoids are regulated and produced and to improve the flavonoid content of flowers, fruits, vegetables and forages. [ABSTRACT FROM AUTHOR] |
Databáze: |
Complementary Index |
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