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三个R2R3-MYB转录因子调控蝴蝶兰属植物中不同的花色素沉着模式。

Three R2R3-MYB transcription factors regulate distinct floral pigmentation patterning in Phalaenopsis spp.

作者信息

Hsu Chia-Chi, Chen You-Yi, Tsai Wen-Chieh, Chen Wen-Huei, Chen Hong-Hwa

机构信息

Department of Life Sciences (C.-C.H., Y.-Y.C., H.-H.C.),Institute of Tropical Plant Sciences (W.-C.T.), andOrchid Research and Development Center (W.-C.T., W.-H.C., H.-H.C.), National Cheng Kung University, Tainan 701, Taiwan.

Department of Life Sciences (C.-C.H., Y.-Y.C., H.-H.C.),Institute of Tropical Plant Sciences (W.-C.T.), andOrchid Research and Development Center (W.-C.T., W.-H.C., H.-H.C.), National Cheng Kung University, Tainan 701, Taiwan

出版信息

Plant Physiol. 2015 May;168(1):175-91. doi: 10.1104/pp.114.254599. Epub 2015 Mar 4.

DOI:10.1104/pp.114.254599
PMID:25739699
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4424010/
Abstract

Orchidaceae are well known for their fascinating floral morphologic features, specialized pollination, and distinctive ecological strategies. With their long-lasting flowers of various colors and pigmentation patterning, Phalaenopsis spp. have become important ornamental plants worldwide. In this study, we identified three R2R3-MYB transcription factors PeMYB2, PeMYB11, and PeMYB12. Their expression profiles were concomitant with red color formation in Phalaenopsis spp. flowers. Transient assay of overexpression of three PeMYBs verified that PeMYB2 resulted in anthocyanin accumulation, and these PeMYBs could activate the expression of three downstream structural genes Phalaenopsis spp. Flavanone 3-hydroxylase5, Phalaenopsis spp. Dihydroflavonol 4-reductase1, and Phalaenopsis spp. Anthocyanidin synthase3. In addition, these three PeMYBs participated in the distinct pigmentation patterning in a single flower, which was revealed by virus-induced gene silencing. In the sepals/petals, silencing of PeMYB2, PeMYB11, and PeMYB12 resulted in the loss of the full-red pigmentation, red spots, and venation patterns, respectively. Moreover, different pigmentation patterning was regulated by PeMYBs in the sepals/petals and lip. PeMYB11 was responsive to the red spots in the callus of the lip, and PeMYB12 participated in the full pigmentation in the central lobe of the lip. The differential pigmentation patterning was validated by RNA in situ hybridization. Additional assessment was performed in six Phalaenopsis spp. cultivars with different color patterns. The combined expression of these three PeMYBs in different ratios leads to a wealth of complicated floral pigmentation patterning in Phalaenopsis spp.

摘要

兰科植物以其迷人的花形态特征、特殊的授粉方式和独特的生态策略而闻名。蝴蝶兰属植物拥有色彩各异、色素沉着模式多样且持久的花朵,已成为全球重要的观赏植物。在本研究中,我们鉴定出三个R2R3-MYB转录因子PeMYB2、PeMYB11和PeMYB12。它们的表达谱与蝴蝶兰属植物花朵中红色的形成相关。对三个PeMYB进行过表达的瞬时分析证实,PeMYB2导致花青素积累,并且这些PeMYB可以激活三个下游结构基因蝴蝶兰属黄烷酮3-羟化酶5、蝴蝶兰属二氢黄酮醇4-还原酶1和蝴蝶兰属花青素合酶3的表达。此外,这三个PeMYB参与了单朵花中不同的色素沉着模式,这通过病毒诱导的基因沉默得以揭示。在萼片/花瓣中,PeMYB2、PeMYB11和PeMYB12的沉默分别导致全红色素沉着、红色斑点和脉纹模式的丧失。此外,萼片/花瓣和唇瓣中的色素沉着模式受PeMYB调控。PeMYB11对唇瓣愈伤组织中的红色斑点有反应,而PeMYB12参与唇瓣中叶的全色素沉着。通过RNA原位杂交验证了色素沉着模式的差异。在六个具有不同颜色模式的蝴蝶兰属品种中进行了额外评估。这三个PeMYB以不同比例的组合表达导致了蝴蝶兰属丰富而复杂的花色素沉着模式。

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From landing lights to mimicry: the molecular regulation of flower colouration and mechanisms for pigmentation patterning.从着陆灯到拟态:花色的分子调控与色素沉着模式形成机制
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