三叶草花中原花青素的生物合成：类黄酮途径中的串扰。

Biosynthesis of proanthocyanidins in white clover flowers: cross talk within the flavonoid pathway.

机构信息

Department of Primary Industries, Biosciences Research Division, Victorian AgriBiosciences Centre, Bundoora, Victoria 3083, Australia.

出版信息

Plant Physiol. 2012 Feb;158(2):666-78. doi: 10.1104/pp.111.189258. Epub 2011 Dec 13.

DOI:10.1104/pp.111.189258

PMID:22167119

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3271758/

Abstract

Proanthocyanidins and anthocyanins are produced by closely related branches of the flavonoid pathway and utilize the same metabolic intermediates. Previous studies have shown a flexible mechanism of flux diversion at the branch-point between the anthocyanin and proanthocyanidin pathways, but the molecular basis for this mechanism is poorly understood. Floral tissues in white clover plants (Trifolium repens) produce both proanthocyanidins and anthocyanins. This makes white clover amenable to studies of proanthocyanidin and anthocyanin biosynthesis and possible interactions within the flavonoid pathway. Results of this study show that the anthocyanin and proanthocyanidin pathways are spatially colocalized within epidermal cells of petals and temporally overlap in partially open flowers. A correlation between spatiotemporal patterns of anthocyanin and proanthocyanidin biosynthesis with expression profiles of putative flavonoid-related genes indicates that these pathways may recruit different isoforms of flavonoid biosynthetic enzymes. Furthermore, in transgenic white clover plants with down-regulated expression of the anthocyanidin reductase gene, levels of flavan 3-ols, anthocyanins, and flavonol glycosides and the expression levels of a range of genes encoding putative flavonoid biosynthetic enzymes and transcription factors were altered. This is consistent with the hypothesis that flux through the flavonoid pathway may be at least partially regulated by the availability of intermediates.

摘要

原花青素和花色苷是由类黄酮途径中密切相关的分支产生的，它们利用相同的代谢中间产物。先前的研究表明，花色苷和原花青素途径分支处的流量分流具有灵活的机制，但对这种机制的分子基础知之甚少。白车轴草植物（三叶草）的花组织既能产生原花青素又能产生花色苷。这使得白车轴草易于研究原花青素和花色苷的生物合成以及类黄酮途径中的可能相互作用。本研究的结果表明，花色苷和原花青素途径在花瓣表皮细胞中空间上共定位，并在部分开放的花朵中时间上重叠。花色苷和原花青素生物合成的时空模式与黄酮类相关基因的表达谱之间的相关性表明，这些途径可能招募不同的黄酮类生物合成酶同工型。此外，在花色苷还原酶基因表达下调的转基因白车轴草植物中，类黄酮 3-醇、花色苷、黄酮醇糖苷的水平以及一系列编码黄酮类生物合成酶和转录因子的基因的表达水平都发生了改变。这与这样的假设是一致的，即类黄酮途径中的通量可能至少部分受到中间产物可用性的调节。

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