Wang Yong, Ding Guanqun, Gu Tingting, Ding Jing, Li Yi
State Key Laboratory of Crop Genetics and Germplasm Enhancement and College of Horticulture, Nanjing Agricultural University, Nanjing, People's Republic of China.
State Key Laboratory of Crop Genetics and Germplasm Enhancement and College of Life Sciences, Nanjing Agricultural University, Nanjing, People's Republic of China.
Mol Genet Genomics. 2017 Aug;292(4):895-907. doi: 10.1007/s00438-017-1321-5. Epub 2017 Apr 25.
Carotenoid dioxygenases, including 9-cis-epoxycarotenoid dioxygenases (NCEDs) and carotenoid cleavage dioxygenases (CCDs), can selectively cleave carotenoids into various apocarotenoid products that play important roles in fleshy fruit development and abiotic stress response. In this study, we identified 12 carotenoid dioxygenase genes in diploid strawberry Fragaria vesca, and explored their evolution with orthologous genes from nine other species. Phylogenetic analyses suggested that the NCED and CCDL groups moderately expanded during their evolution, whereas gene numbers of the CCD1, CCD4, CCD7, and CCD8 groups maintained conserved. We characterized the expression profiles of FveNCED and FveCCD genes during flower and fruit development, and in response to several abiotic stresses. FveNCED1 expression positively responded to osmotic, cold, and heat stresses, whereas FveNCED2 was only induced under cold stress. In contrast, FveNCED2 was the unique gene highly and continuously increasing in receptacle during fruit ripening, which co-occurred with the increase in endogenous abscisic acid (ABA) content previously reported in octoploid strawberry. The differential expression patterns suggested that FveNCED1 and FveNCED2 were key genes for ABA biosynthesis in abiotic stress responses and fruit ripening, respectively. FveCCD1 exhibited the highest expression in most stages of flower and fruit development, while the other FveCCDs were expressed in a subset of stages and tissues. Our study suggests distinct functions of FveNCED and FveCCD genes in fruit development and stress responses and lays a foundation for future study to understand the roles of these genes and their metabolites, including ABA and other apocarotenoid products, in the growth and development of strawberry.
类胡萝卜素双加氧酶,包括9-顺式环氧类胡萝卜素双加氧酶(NCEDs)和类胡萝卜素裂解双加氧酶(CCDs),能够选择性地将类胡萝卜素裂解为各种类胡萝卜素产物,这些产物在肉质果实发育和非生物胁迫响应中发挥着重要作用。在本研究中,我们在二倍体草莓凤梨草莓(Fragaria vesca)中鉴定出12个类胡萝卜素双加氧酶基因,并与其他9个物种的直系同源基因一起探讨了它们的进化情况。系统发育分析表明,NCED和CCDL组在进化过程中适度扩张,而CCD1、CCD4、CCD7和CCD8组的基因数量保持保守。我们对FveNCED和FveCCD基因在花和果实发育过程中以及对几种非生物胁迫的响应的表达谱进行了表征。FveNCED1的表达对渗透、寒冷和热胁迫呈阳性反应,而FveNCED2仅在寒冷胁迫下被诱导。相比之下,FveNCED2是果实成熟期间花托中唯一高度且持续增加的基因,这与先前在八倍体草莓中报道的内源脱落酸(ABA)含量增加同时发生。差异表达模式表明,FveNCED1和FveNCED2分别是在非生物胁迫响应和果实成熟过程中ABA生物合成的关键基因。FveCCD1在花和果实发育的大多数阶段表现出最高表达,而其他FveCCD基因则在部分阶段和组织中表达。我们的研究表明FveNCED和FveCCD基因在果实发育和胁迫响应中具有不同的功能,并为未来研究这些基因及其代谢产物(包括ABA和其他类胡萝卜素产物)在草莓生长发育中的作用奠定了基础。
