Abstract
The diversity of petal and leaf color can improve the ornamental value of rapeseed and promote the development of agriculture and tourism. The two copies of carotenoid isomerase gene (BnaCRTISO) in Brassica napus (BnaA09.CRTISO and BnaC08.CRTISO) was edited using the CRISPR/Cas9 system in the present study. The mutation phenotype of creamy white petals and yellowish leaves could be recovered only in targeted mutants of both BnaCRTISO functional copies, indicating that the redundant roles of BnaA09.CRTISO and BnaC08.CRTISO are vital for the regulation of petal and leaf color. The carotenoid content in the petals and leaves of the BnaCRTISO double mutant was significantly reduced. The chalcone content, a vital substance that makes up the yellow color, also decreased significantly in petals. Whereas, the contents of some carotenes (lycopene, α-carotene, γ-carotene) were increased significantly in petals. Further, transcriptome analysis showed that the targeted mutation of BnaCRTISO resulted in the significant down-regulation of important genes BnaPSY and BnaC4H in the carotenoid and flavonoid synthesis pathways, respectively; however, the expression of other genes related to carotenes and xanthophylls synthesis, such as BnaPDS3, BnaZEP, BnaBCH1 and BCH2, was up-regulated. This indicates that the molecular mechanism regulating petal color variation in B. napus is more complicated than those reported in Arabidopsis and other Brassica species. These results provide insight into the molecular mechanisms underlying flower color variation in rapeseed and provides valuable resources for rapeseed breeding.
Highlights
Flower color is considered one of the major attractants for pollen transmission in nature
Previous studies revealed that the Carotenoid isomerase (CRTISO) gene is essential for regulating carotenoid content and is highly conserved in many plants (Galpaz et al, 2013; Su et al, 2015; Li et al, 2020; FIGURE 1 | CRISPR/Cas9-induced null mutants of BnaCRTISO in B. napus. (A) The BnaCRTISO gene model includes thirteen exons separated by twelve introns
These results indicated the importance of the BnaCRTISO gene in the metabolic pathway of carotenoid
Summary
Flower color is considered one of the major attractants for pollen transmission in nature. Carotenoids mainly provide orange and red color, flavonoids provide yellow, and betalains provide a few other colors (Cazzonelli, 2011). They are fat-soluble terpenoids synthesized via the isoprene pathway and have been found in various plants and animals (Cunningham and Gantt, 1998). Carotenoids are important pigments determining the color of fruits, vegetables, and flowers (Lv et al, 2015; Zhang et al, 2015; Li X. et al, 2018) They are found mainly in leaf, flower, fruit, and root tissues and play a vital role during plant development, such as protecting the plants against photo-oxidative damage (Holt et al, 2005; Sun et al, 2018). Carotenoids are the precursors for the biosynthesis of vitamin A, the plant hormones abscisic acid (ABA) and strigolactone (Walter and Strack, 2011)
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