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Two types of red pigment, anthocyanins and betacyanins, never occur together in the same plant. Although anthocyanins are widely distributed in higher plants as flower and fruit pigments, betacyanins have replaced anthocyanins in the Caryophyllales. We isolated cDNAs encoding dihydroflavonol 4-reductase (DFR), which is the first enzyme committed to anthocyanin biosynthesis in the flavonoid pathway, from Spinacia oleracea and Phytolacca americana, plants that belong to the Caryophyllales. The deduced amino acid sequence of Spinacia DFR and Phytolacca DFR revealed a high degree of homology with DFRs of anthocyanin-producing plants. The DFR of carnation, an exception in the Caryophyllales that synthesizes anthocyanin, showed the highest level of identity. In the phylogenetic tree, Spinacia DFR and Phytolacca DFR clustered with the DFRs of anthocyanin-synthesizing dicots. Recombinant Spinacia and Phytolacca DFRs expressed in Escherichia coli convert dihydroflavonol to leucoanthocyanidin. The expression and function of DFR in spinach and pokeweed are discussed in relation to the molecular evolution of red pigment biosynthesis in higher plants.  相似文献   

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Diversity in plant red pigments: anthocyanins and betacyanins   总被引:1,自引:0,他引:1  
Plant pigments are of interest for research into questions of basic biology as well as for purposes of applied biology. Red colors in flowers are mainly produced by two types of pigments: anthocyanins and betacyanins. Though anthocyanins are broadly distributed among plants, betacyanins have replaced anthocyanins in the Caryophyllales. Red plant pigments are good indicator metabolites for evolutionary studies of plant diversity as well as for metabolic studies of plant cell growth and differentiation. In this review, we focus on the biosynthesis of anthocyanins and betacyanins and the possible mechanisms underlying the mutual exclusion of betalains and anthocyanins based on the regulation of the biosynthesis of these red pigments.  相似文献   

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甜菜色素(Betalains)是一类以六碳结构为骨架的水溶性色素,存在于石竹目Caryophyllales的绝大部分科和一类真菌中。目前已知甜菜色素大约有75种,都属于季胺型生物碱,可以分为两类:甜菜黄素(Betaxanthin)和甜菜红素(Betacyanin)。甜菜色素除了赋予花、果、叶着色,吸引昆虫,提高植物本身抗逆能力等外,也具有优良的抗氧化作用。甜菜色素的合成代谢始于酪氨酸,是由4~5个关键酶催化反应和一系列自发反应构成的反应网络。本文结合国内外最新研究进展,对甜菜色素理化性质、生理功能、合成以及应用做较为全面的综述。  相似文献   

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Recent advances in betalain research   总被引:19,自引:0,他引:19  
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Journal of Plant Research - Although anthocyanins are widely distributed in higher plants, betalains have replaced anthocyanins in most species of the order Caryophyllales. The accumulation of...  相似文献   

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Betalains are of great taxonomic significance in higher plants and occur only in 10 families of the order Caryophyllales (Centrospermae). They are water-soluble nitrogenous pigments. They can be divided into two major structural groups, the red to red-violet betacyanins and the yellow betaxanthins. Betalains are widely used as natural red food colorant as well as antioxidant potentials. Several methods have been published for the determination of betalain in fruits of Opuntia species. The purpose of the current review is to provide a systematic survey of the analytical techniques for the determination of betalain from fruits of Opuntia species.  相似文献   

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Jasmonates (JAs) are a class of plant hormones that play important roles in the regulation of plant development and plant defense. It has been shown that Arabidopsis plants produce much higher levels of anthocyanins when treated exogenously with methyl jasmonate (MeJA). However, a molecular link between the JA response and anthocyanin production has not been determined. The CORONATINE INSENTITIVE1 (COI1) gene is a key player in the regulation of many JA-related responses. In the present study, we demonstrate that the COI1 gene is also required for the JA-induced accumulation of anthocyanins in Arabidopsis. Furthermore, the MeJA-inducible expression of DIHYDROFLAVONOL REDUCTASE (DFR), an essential component in the anthocyanin biosynthesis pathway, was completely eliminated in the coil mutant. Jasmonateinduced anthocyanin accumulation was found to be independent of auxin signaling. The present results indicate that the expression of both COI1 and DFR genes is required for the regulation of JA-induced anthocyanin accumulation and that DFR may be a key downstream regulator for this process.  相似文献   

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