葡萄（Vitis vinifera L.）、苹果（Malus x domestica Borkh.）及其他作物叶片中无色花青素4-还原酶和花青素还原酶对黄烷-3-醇的生物合成。

Biosynthesis of flavan 3-ols by leucoanthocyanidin 4-reductases and anthocyanidin reductases in leaves of grape (Vitis vinifera L.), apple (Malus x domestica Borkh.) and other crops.

作者信息

Pfeiffer Judith, Kühnel Christiane, Brandt Jeannette, Duy Daniela, Punyasiri P A Nimal, Forkmann Gert, Fischer Thilo C

机构信息

Chair of Floriculture Crops and Horticultural Plant Breeding, Technical University Münich, Am Hochanger 4, 85350 Freising, Germany.

出版信息

Plant Physiol Biochem. 2006 May-Jun;44(5-6):323-34. doi: 10.1016/j.plaphy.2006.06.001. Epub 2006 Jun 13.

DOI:10.1016/j.plaphy.2006.06.001

PMID:16806954

Abstract

Catechin and epicatechin biosyntheses were studied of grape (Vitis vinifera L.), apple (Malus x domestica Borkh.) and other crop leaves, since these monomers and the derived proanthocyanidins are important disease resistance factors. Grape and apple leucoanthocyanidin 4-reductase (LAR; EC 1.17.1.3) enzymes were characterized on basis of plant and recombinant enzymes. In case of grape, two LAR cDNAs were cloned by assembling available EST sequences. Grape and apple leaf anthocyanidin reductase (ANR; EC 1.3.1.77) cDNAs were also obtained and the respective plant and recombinant enzymes were characterized. Despite general low substrate specificity, within the respective flavonoid biosyntheses of grape and apple leaves, both enzyme types deliver differently hydroxylated catechins and epicatechins, due to substrate availability in vivo. Furthermore, for LAR enzymes conversion of 3-deoxyleucocyanidin was shown. Beside relevance for plant protection, this restricts the number of possible reaction mechanisms of LAR. ANR enzyme activity was demonstrated for a number of other crop plants and its correlation with (-)-epicatechin and obvious competition with UDP-glycosyl:flavonoid-3-O-glycosyltransferases was considered.

摘要

对葡萄（欧亚种葡萄）、苹果（苹果属苹果）及其他作物叶片中的儿茶素和表儿茶素生物合成进行了研究，因为这些单体及其衍生的原花青素是重要的抗病因子。基于植物酶和重组酶对葡萄和苹果的无色花青素4-还原酶（LAR；EC 1.17.1.3）进行了表征。对于葡萄，通过组装可用的EST序列克隆了两个LAR cDNA。还获得了葡萄和苹果叶片花青素还原酶（ANR；EC 1.3.1.77）的cDNA，并对相应的植物酶和重组酶进行了表征。尽管底物特异性普遍较低，但在葡萄和苹果叶片各自的类黄酮生物合成过程中，由于体内底物的可利用性，这两种酶都会产生不同羟基化程度的儿茶素和表儿茶素。此外，还展示了LAR酶对3-脱氧无色花青素的转化。除了与植物保护的相关性外，这也限制了LAR可能的反应机制数量。还证明了许多其他作物中存在ANR酶活性，并考虑了其与（-）-表儿茶素的相关性以及与UDP-糖基：类黄酮-3-O-糖基转移酶的明显竞争。

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葡萄（Vitis vinifera L.）、苹果（Malus x domestica Borkh.）及其他作物叶片中无色花青素4-还原酶和花青素还原酶对黄烷-3-醇的生物合成。

Biosynthesis of flavan 3-ols by leucoanthocyanidin 4-reductases and anthocyanidin reductases in leaves of grape (Vitis vinifera L.), apple (Malus x domestica Borkh.) and other crops.

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