Abstract
Lycium chinense is a shrub that has health benefits and is used as a source of medicines in Asia. In this study, a full-length cDNA clone encoding β-ring carotene hydroxylase (LcCHXB) and partial-length cDNA clones encoding phytoene synthase (LcPSY), phytoene desaturase (LcPDS), ξ-carotene desaturase (LcZDS), lycopene β-cyclase (LcLCYB), lycopene ε-cyclase (LcLCYE), ε-ring carotene hydroxylase (LcCHXE), zeaxanthin epoxidase (LcZEP), carotenoid cleavage dioxygenase (LcCCD1), and 9-cis epoxycarotenoid dioxygenase (LcNCED) were identified in L. chinense. The transcripts were constitutively expressed at high levels in leaves, flowers and red fruits, where the carotenoids are mostly distributed. In contrast, most of the carotenoid biosynthetic genes were weakly expressed in the roots and stems, which contained only small amounts of carotenoids. The level of LcLCYE transcripts was very high in leaves and correlated with the abundance of lutein in this plant tissue. During maturation, the levels of lutein and zeaxanthin in L. chinense fruits dramatically increased, concomitant with a rise in the level of β-cryptoxanthin. LcPSY, LcPDS, LcZDS, LcLCYB, and LcCHXE were highly expressed in red fruits, leading to their substantially higher total carotenoid content compared to that in green fruits. Total carotenoid content was high in both the leaves and red fruits of L. chinense. Our findings on the biosynthesis of carotenoids in L. chinense provide insights into the molecular mechanisms involved in carotenoid biosynthesis and may facilitate the optimization of carotenoid production in L. chinense.
Highlights
Carotenoids are a family of over 600 plant pigments and are one of the most widespread groups of pigments in Nature [1,2]
The carotenoid biosynthetic genes of Arabidopsis thaliana obtained from The Arabidopsis Information Resource (TAIR) were used as queries to search for homologous sequences in L. chinense transcriptome database
CHXB and partial-length cDNA clones encoding PSY, PDS, ZDS, LCYB, LCYE, CHXE, ZEP, CCD1, and NCED were identified. They were confirmed for homology with the BLAST program and designated as length cDNA clones encoding phytoene synthase (LcPSY) (353 amino acids aa), LcPDS (333 aa), LcZDS (223 aa), LcLCYB (261 aa), LcLCYE (312 aa), LcCHXB (304 aa), LcCHXE (165 aa), LcZEP (178 aa), LcCCD1 (407 aa), and LcNCED (142 aa)
Summary
Carotenoids are a family of over 600 plant pigments and are one of the most widespread groups of pigments in Nature [1,2]. Numerous pharmacological reports have been published on the biological activities of Lycium chinense, which include antioxidant, antiallergic, and anti-inflammatory properties [12,13,14]. To date, there have been no reports on carotenoid biosynthetic genes or the molecular mechanisms underlying carotenoid biosynthesis in L. chinense. GGDP, geranylgeranyl diphosphate; PSY, phytoene synthase; PDS, phytoene desaturase; ZDS, ξ-carotene desaturase; LCYB, lycopene β-cyclase; LCYE, lycopene ε-cyclase; CHXB, β-ring carotene hydroxylase; CHXE, ε-ring carotene hydroxylase; ZEP, zeaxanthin epoxidase; CCD, carotenoid cleavage dioxygenase; NCED, 9-cis epoxycarotenoid dioxygenase. A full-length cDNA encoding CHXB and partial-length cDNAs encoding PSY, PDS, ZDS, LCYB, LCYE, CHXE, ZEP, CCD1, and NCED were isolated from this plant to investigate the carotenoid biosynthetic pathway in L. chinense. The relationship between the transcription levels of carotenoid biosynthetic genes and carotenoid accumulation in the roots, stems, leaves, flowers, green fruits, and red fruits of L. chinense was examined and has been discussed
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