Identification and expression analysis of flavonoid biosynthetic genes in the genus Clivia
[摘要] English: Anthocyanins belong to a large group of secondary plant metabolites, the flavonoids, and fulfil a range of biological functions that include the cyanic pigmentation they provide to flowers, fruits, vegetables and leaves. The anthocyanin biosynthetic pathway has been well elucidated and much effort has been made by researchers to modify some of the catalytic steps, thereby changing the colour of some ornamental and cut flower species. The genus, Clivia, is an ornamental monocot indigenous to South Africa and there has been a growing interest among local and international Clivia breeders to introduce novel flower colour varieties into the market. Transgene technology holds new possibilities to ensure modification of Clivia flower colour. However, the genetics and biochemistry of the Clivia anthocyanin biosynthetic pathway must first be investigated before any attempts regarding biotechnology can be made. The current study is the first to deal with the identification and expression analysis of flavonoid biosynthetic genes in the genus Clivia, specifically those involved in anthocyanin biosynthesis, thus identifying future prospects and motivating research in unexplored territory. A previous study concerning an HPLC analysis of Clivia anthocyanin content confirmed the presence of cyanidin and pelargonidin derivatives as the main pigments in the tepals and fruits. This enabled the establishment of a putative Clivia anthocyanin biosynthetic pathway illustrating each enzymatic event. Conventional PCR with degenerate primers and a tepal cDNA template was used to isolate four different target sequences. Consensus cDNA fragments of 586 bp, 326 bp, 510 bp and 225 bp confirmed the existence of Clivia orthologues for Chalcone synthase (CHS), Chalcone isomerase (CHI), Flavanone 3-hydroxylase (F3H), and Dihydroflavonol 4-reductase (DFR), respectively. The deduced amino acid sequences of CHS, DFR and F3H harboured important conserved residues that confirmed the existence of functional enzymes. Furthermore, nucleotide sequence analyses between each new Clivia cDNA fragment and the corresponding fragments of other higher plants, regarding similarity/identity and phylogeny demonstrated closer homologies and evolutionary relatedness to other monocot species. The identification of the Clivia flavonoid biosynthetic genes enabled the expression analyses of CHS and DFR. These structural genes encode enzymes responsible for two important controlling steps necessary to determine the nature of the final end-product(s) of the pathway. Real-time quantitative RT-PCR involving SYBR® Green chemistry was used to investigate the temporal expression of the two genes in the tepal, stamen and carpel tissues during five flower developmental stages of an orange and yellow variety of Clivia miniata. Statistical analyses were used to support any findings where possible. Each respective tissue type revealed its own trend in expression for both CHS (an early biosynthetic gene) and DFR (a late biosynthetic gene) throughout flower development except in the stamens of the yellow flowers. These findings suggested the co-ordinate regulation of the Clivia miniata anthocyanin biosynthetic genes as a single module, a model of transcriptional regulation that is often found in certain monocot species (Dooner et al., 1991; Meldgaard, 1992; Martin and Gerats, 1993). To understand the regulatory system that confers flowers colouration, genes that encode transcription factors should be isolated and their spatial and temporal expression investigated. The „parallelism�?between anthocyanin biosynthetic gene expression and anthocyanin production in the tepals of the orange and yellow Clivia miniata varieties was also investigated. UV-visible spectrophotometry at A530nm was used to quantify total anthocyanins at each developmental stage after extraction. At full bloom the orange flowers had almost 16 times more anthocyanins, which support orange colour development, than the yellow flowers. It was confirmed by the outcomes of statistical analyses that the trends in expression of CHS and DFR and anthocyanin production were similar. Methods such as HPLC are recommended for more precise qualitative and quantitative determination of total monomeric anthocyanins.
[发布日期] [发布机构] University of the Free State
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