Abstract
Red-fleshed kiwifruit (Actinidia chinensis Planch. ‘Hongyang’) is a promising commercial cultivar due to its nutritious value and unique flesh color, derived from vitamin C and anthocyanins. In this study, we obtained transcriptome data of ‘Hongyang’ from seven developmental stages using Illumina sequencing. We mapped 39–54 million reads to the recently sequenced kiwifruit genome and other databases to define gene structure, to analyze alternative splicing, and to quantify gene transcript abundance at different developmental stages. The transcript profiles throughout red kiwifruit development were constructed and analyzed, with a focus on the biosynthesis and metabolism of compounds such as phytohormones, sugars, starch and L-ascorbic acid, which are indispensable for the development and formation of quality fruit. Candidate genes for these pathways were identified through MapMan and phylogenetic analysis. The transcript levels of genes involved in sucrose and starch metabolism were consistent with the change in soluble sugar and starch content throughout kiwifruit development. The metabolism of L-ascorbic acid was very active, primarily through the L-galactose pathway. The genes responsible for the accumulation of anthocyanin in red kiwifruit were identified, and their expression levels were investigated during kiwifruit development. This survey of gene expression during kiwifruit development paves the way for further investigation of the development of this uniquely colored and nutritious fruit and reveals which factors are needed for high quality fruit formation. This transcriptome data and its analysis will be useful for improving kiwifruit genome annotation, for basic fruit molecular biology research, and for kiwifruit breeding and improvement.
Highlights
Kiwifruit (Actinidia Lindl.) is a sought after fresh fruit in the marketplace due to its unique flavor and nutritional components, such as high vitamin C, amino acid and mineral contents [1,2]
During analysis of the transcriptome data, we focused on candidate genes for phytohormone biosynthesis and signal transduction, sugar and starch biosynthesis and breakdown, L-ascorbic acid biosynthesis and metabolism, and flavonoid biosynthesis and regulation
We performed deep transcriptomic surveys in kiwifruit flesh through seven transcriptomic data during kiwifruit development. This is the first set of transcriptomic data to provide genetic and molecular data on kiwifruit development in any cultivar
Summary
Kiwifruit (Actinidia Lindl.) is a sought after fresh fruit in the marketplace due to its unique flavor and nutritional components, such as high vitamin C, amino acid and mineral contents [1,2]. Kiwifruit cultivars are mostly developed from the A. chinensis Planch species complex, including the two varieties var. The red-fleshed cultivar A. chinensis cv ‘Hongyang’ was developed commercially in China. ‘Hongyang’ is popular because of its unique anthocyanin accumulation, and due to its higher sugar (of 8.97– 13.69% of fresh weight) and vitamin C (of 135–250 mg 100 g fresh weight-1) contents [2,5]. Candidate genes related to basic development and phytohormone production or to production of important characteristics such as sweetness or high vitamin C and anthocyanin content have not been explored in depth. We analyzed the transcript levels of all the genes involved in both flavonoid and anthocyanin biosynthesis in order to demonstrate the dynamics of anthocyanin biosynthesis and accumulation in ‘Hongyang’. The transcriptome should be used to explore genes committed to other characteristics such as the low organic acid, early maturity and enjoyable flavor
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