Christinet Laurent, Burdet Frédéric X, Zaiko Maïa, Hinz Ursula, Zrÿd Jean-Pierre
Laboratory of Plant Cell Genetics, Department of Plant Molecular Biology, University of Lausanne, CH 1015 Lausanne, Switzerland.
Plant Physiol. 2004 Jan;134(1):265-74. doi: 10.1104/pp.103.031914.
Betalains are pigments that replace anthocyanins in the majority of families of the plant order Caryophyllales. Betalamic acid is the common chromophore of betalains. The key enzyme of the betalain biosynthetic pathway is an extradiol dioxygenase that opens the cyclic ring of dihydroxy-phenylalanine (DOPA) between carbons 4 and 5, thus producing an unstable seco-DOPA that rearranges nonenzymatically to betalamic acid. A gene for a 4,5-DOPA-dioxygenase has already been isolated from the fungus Amanita muscaria, but no homolog was ever found in plants. To identify the plant gene, we constructed subtractive libraries between different colored phenotypes of isogenic lines of Portulaca grandiflora (Portulacaceae) and between different stages of flower bud formation. Using in silico analysis of differentially expressed cDNAs, we identified a candidate showing strong homology at the level of translated protein with the LigB domain present in several bacterial extradiol 4,5-dioxygenases. The gene was expressed only in colored flower petals. The function of this gene in the betalain biosynthetic pathway was confirmed by biolistic genetic complementation in white petals of P. grandiflora genotypes lacking the gene for color formation. This gene named DODA is the first characterized member of a novel family of plant dioxygenases phylogenetically distinct from Amanita sp. DOPA-dioxygenase. Homologs of DODA are present not only in betalain-producing plants but also, albeit with some changes near the catalytic site, in other angiosperms and in the bryophyte Physcomitrella patens. These homologs are part of a novel conserved plant gene family probably involved in aromatic compound metabolism.
甜菜色素是一类色素,在石竹目大多数植物科中取代了花青素。甜菜醛氨酸是甜菜色素的常见发色团。甜菜色素生物合成途径的关键酶是一种双加氧酶,它打开二羟基苯丙氨酸(DOPA)在4号和5号碳之间的环,从而产生一种不稳定的裂环DOPA,其非酶促重排为甜菜醛氨酸。一种4,5-DOPA双加氧酶基因已从真菌毒蝇伞中分离出来,但在植物中从未发现过同源物。为了鉴定该植物基因,我们构建了大花马齿苋(马齿苋科)同基因系不同颜色表型之间以及花芽形成不同阶段之间的消减文库。通过对差异表达cDNA的电子分析,我们鉴定出一个候选基因,其翻译后的蛋白质水平与几种细菌双加氧酶中存在的LigB结构域具有高度同源性。该基因仅在有颜色的花瓣中表达。通过在缺乏颜色形成基因的大花马齿苋基因型的白色花瓣中进行基因枪遗传互补,证实了该基因在甜菜色素生物合成途径中的功能。这个名为DODA的基因是植物双加氧酶新家族中第一个被鉴定的成员,在系统发育上与毒蝇伞属DOPA双加氧酶不同。DODA的同源物不仅存在于产生甜菜色素的植物中,而且在其他被子植物和苔藓植物小立碗藓中也存在,尽管在催化位点附近有一些变化。这些同源物是一个可能参与芳香族化合物代谢的新的保守植物基因家族的一部分。