Overexpression of geranyl diphosphate synthase 1 (NnGGPPS1) from Nelumbo nucifera enhances carotenoid and chlorophyll content and biomass

•Overexpression of NnGGPPS1 improves plant growth, and increases carotenoids and chlorophyll contents.•NnGGPPS1 transgenic lines exhibits improved photosynthesis efficiency and ROS scavenging ability.•NnGGPPS1 enhances genes expression in MEP pathway, increasing the metabolic flux in NnGGPPS1 transg...

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Veröffentlicht in:Gene 2023-09, Vol.881, p.147645-147645, Article 147645
Hauptverfasser: Dong, Chen, Wang, Zhiwen, Qin, Lili, Zhang, Chen, Cao, Longyun, Li, Haifeng, Ma, Xintian
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Sprache:eng
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Zusammenfassung:•Overexpression of NnGGPPS1 improves plant growth, and increases carotenoids and chlorophyll contents.•NnGGPPS1 transgenic lines exhibits improved photosynthesis efficiency and ROS scavenging ability.•NnGGPPS1 enhances genes expression in MEP pathway, increasing the metabolic flux in NnGGPPS1 transgenic lines. As the traditional herb with pharmacological compounds in China, the key genes related with terpenoid biosynthesis are still unveiled in Nelumbo nucifera. Geranylgeranyl pyrophosphate synthase (GGPPS) is one of the key enzymes in terpenoids biosynthesis, synthesizing the common precursor of GGPP for downstream enzymes for generating various terpenoids. In this study, four NnGGPPS genes were isolated from N. nucifera. Sequence and phylogenetic analyses indicate that NnGGPPS1 and NnGGPPS2 belong to large subunit (LSU). Whereas NnGGPPS3 and NnGGPPS4 are classified as small subunit (SSU) of SSU Ⅱ and SSU I, respectively. Among four NnGGPPSs, only NnGGPPS1 and NnGGPPS2 can produce GGPP in bacterial pigment complementation assay. Combination analysis of subcellular localization and gene co-expression analysis (GCN) illustrates that NnGGPPS1 is the main transcript related with methylerythritol phosphate (MEP) pathway, abscisic acid (ABA) biosynthesis, carotenoid and chlorophyll biosynthesis and degradation. Overexpression of NnGGPPS1 improves the growth of transgenic tobacco, and increases carotenoids and chlorophyll contents. Moreover, NnGGPPS1 transgenic tobacco exhibits improved photosynthesis efficiency and ROS scavenging ability. The up-regulated expression of the key genes in MEP pathway, carotenoid biosynthesis and chlorophyll biosynthesis, result in the increase of metabolic flux in NnGGPPS1 transgenic lines. Furthermore, the elevated MEP-derived primary metabolites of carotenoid and chlorophyll was attributed to enhancement of plant biomass of NnGGPPS1 transgenic lines. Therefore, NnGGPPS1 plays a vital role in biosynthesis of carotenoid and chlorophyll.
ISSN:0378-1119
1879-0038
DOI:10.1016/j.gene.2023.147645