Identification and characterization of apocarotenoid modifiers and carotenogenic enzymes for biosynthesis of crocins in Buddleja davidii flowers

The identification and characterization of three consecutive enzymes, one ALDH and three UGTs, involved in the synthesis of crocins in Buddleja, provide new tools for the biotechnological exploitation of these valuable apocarotenoid compounds. Abstract Crocetin biosynthesis in Buddleja davidii flowe...

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Bibliographic Details
Published in:Journal of experimental botany 2021-04, Vol.72 (8), p.3200-3218
Main Authors: Diretto, Gianfranco, López-Jiménez, Alberto José, Ahrazem, Oussama, Frusciante, Sarah, Song, Jingyuan, Rubio-Moraga, Ángela, Gómez-Gómez, Lourdes
Format: Article
Language:English
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Summary:The identification and characterization of three consecutive enzymes, one ALDH and three UGTs, involved in the synthesis of crocins in Buddleja, provide new tools for the biotechnological exploitation of these valuable apocarotenoid compounds. Abstract Crocetin biosynthesis in Buddleja davidii flowers proceeds through a zeaxanthin cleavage pathway catalyzed by two carotenoid cleavage dioxygenases (BdCCD4.1 and BdCCD4.3), followed by oxidation and glucosylation reactions that lead to the production of crocins. We isolated and analyzed the expression of 12 genes from the carotenoid pathway in B. davidii flowers and identified four candidate genes involved in the biosynthesis of crocins (BdALDH, BdUGT74BC1, BdUGT74BC2, and BdUGT94AA3). In addition, we characterized the profile of crocins and their carotenoid precursors, following their accumulation during flower development. Overall, seven different crocins, crocetin, and picrocrocin were identified in this study. The accumulation of these apocarotenoids parallels tissue development, reaching the highest concentration when the flower is fully open. Notably, the pathway was regulated mainly at the transcript level, with expression patterns of a large group of carotenoid precursor and apocarotenoid genes (BdPSY2, BdPDS2, BdZDS, BdLCY2, BdBCH, BdALDH, and BdUGT Genes) mimicking the accumulation of crocins. Finally, we used comparative correlation network analysis to study how the synthesis of these valuable apocarotenoids diverges among B. davidii, Gardenia jasminoides, and Crocus sativus, highlighting distinctive differences which could be the basis of the differential accumulation of crocins in the three species.
ISSN:0022-0957
1460-2431
DOI:10.1093/jxb/erab053