Transcriptome analysis of genes involved in flower and leaf color of Oncidium by RNA-seq

Ma-Yin Wang, Yu Ding, Ye Zhang, Lu Sun, Xi-Qiang Song, Dai-Cheng Hao, Wei-Shi Li, Min-Qiang Tang, Peng Ling, Shang-Qian Xie
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Abstract

Oncidium, an important tropical orchid, has high ornamental value due to its specific color and occupies a significant market position for the worldwide flower. Transcriptome analysis of flower and leaf color formation provides new sources for producing novel Oncidium hybridum cultivars. We sequenced 12 samples of flowers (yellow and white) and leaves (striped and regular) of O. hybridum and assembled 381,136 and 453,566 unigene sequences from RNA-seq data, respectively. Among unigenes, 662 and 1,324 differentially expressed genes were identified in flower and leaf samples, respectively. Gene ontology and pathway enrichment showed that secondary metabolite biosynthetic pathways were responsible for flower and leaf color formation. It was determined that UGT75C1, E2.4.1.115, CCD7, E2.1.1.76, and CCoAOMT are involved in regulating flower color, and UGT75C1, LHCB, UGT, RP-L18Ae, and ABCB1 play crucial roles in regulating leaf color. Kyoto Encyclopedia of Genes and Genomes analysis revealed that UGT75C1 was significantly enriched in the anthocyanin biosynthetic pathway, showing effects on flower and leaf colors. This study was the first detailed analysis of the molecular mechanisms of O. hybridum flower and leaf colors, and the results advanced the understanding of the genetic basis of flower and leaf colors; they also provided additional support for improving commercial value and producing novel cultivars of O. hybridum.
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用RNA-seq方法分析石斛花、叶颜色相关基因的转录组学
绣球兰是一种重要的热带兰花,因其独特的颜色而具有很高的观赏价值,在世界花卉中占有重要的市场地位。花和叶颜色形成的转录组分析为培育新品种提供了新的来源。我们对12个花(黄色和白色)和叶(条纹和规则)样本进行了测序,分别从RNA-seq数据中组装了381,136和453,566个单基因序列。在花和叶样品中分别鉴定出662个和1324个差异表达基因。基因本体和途径富集表明,次生代谢物生物合成途径与花叶颜色形成有关。结果表明,UGT75C1、E2.4.1.115、CCD7、E2.1.1.76、CCoAOMT参与了花色调控,UGT75C1、LHCB、UGT、RP-L18Ae、ABCB1在花色调控中起关键作用。京都基因和基因组百科分析显示,UGT75C1在花青素生物合成途径中显著富集,对花和叶的颜色有影响。本研究首次详细分析了花和叶颜色的分子机制,促进了对花和叶颜色遗传基础的认识;同时也为提高野菜的商业价值和培育野菜新品种提供了额外的支持。
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