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低温影响不同抗寒性的油橄榄基因型果实中脂肪酸去饱和酶和油质的转录。

Cold affects the transcription of fatty acid desaturases and oil quality in the fruit of Olea europaea L. genotypes with different cold hardiness.

机构信息

Dipartimento di Biologia Ambientale, Sapienza Università di Roma, Rome, Italy.

出版信息

J Exp Bot. 2011 Jun;62(10):3403-20. doi: 10.1093/jxb/err013. Epub 2011 Feb 28.

DOI:10.1093/jxb/err013
PMID:21357772
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3130166/
Abstract

The olive tree lacks dormancy and is low temperature sensitive, with differences in cold tolerance and oil quality among genotypes. The oil is produced in the drupe, and the unsaturated fatty acids contribute to its quality. The aim of the present research was to investigate the relationship among development, cold response, expression of fatty acid desaturase (FAD) genes, and unsaturated fatty acid composition in drupes belonging to genotypes differing in leaf cold tolerance, but producing good oil (i.e. the non-hardy Moraiolo, the semi-hardy Frantoio, and the hardy Canino). In all genotypes, cold sensitivity, evaluated by cold-induced transient increases in cytosolic calcium, was high in the epi-mesocarp cells before oil body formation, and decreased during oil biogenesis. However, genotype-dependent differences in cold sensitivity appeared at the end of oil production. Genotype-dependent differences in FAD2.1, FAD2.2, FAD6, and FAD7 expression levels occurred in the epi-mesocarp cells during the oleogenic period. However, FAD2.1 and FAD7 were always the highest in the first part of this period. FAD2.2 and FAD7 increased after cold applications during oleogenesis, independently of the genotype. Unsaturated fatty acids increased in the drupes of the non-hardy genotype, but not in those of the hardy one, after cold exposure at the time of the highest FAD transcription. The results show a direct relationship between FAD expression and lipid desaturation in the drupes of the cold-sensitive genotype, and an inverse relationship in those of the cold-resistant genotype, suggesting that drupe cold acclimation requires a fine FAD post-transcriptional regulation. Hypotheses relating FAD desaturation to storage and membrane lipids, and genotype cold hardiness are discussed.

摘要

油橄榄休眠期短,对低温敏感,不同基因型间存在耐冷性和油质差异。油存在于核果中,不饱和脂肪酸决定了其品质。本研究旨在探讨不同叶片耐冷性但产油良好基因型(即不抗寒的 Moraiolo、半抗寒的 Frantoio 和抗寒的 Canino)核果发育、冷响应、脂肪酸去饱和酶(FAD)基因表达与不饱和脂肪酸组成之间的关系。在所有基因型中,冷诱导胞质钙瞬变评估的冷敏感性在油体形成前的外果皮细胞中较高,并在油脂生物合成过程中降低。然而,在油脂生产末期,出现了依赖基因型的冷敏感性差异。在产油期,外果皮细胞中 FAD2.1、FAD2.2、FAD6 和 FAD7 的表达水平存在依赖基因型的差异。然而,在该时期的前半部分,FAD2.1 和 FAD7 总是最高的。在油脂生物合成过程中进行冷处理后,FAD2.2 和 FAD7 增加,与基因型无关。在冷处理时,高转录 FAD 时,非抗寒基因型的核果中不饱和脂肪酸增加,但抗寒基因型的核果中则不增加。结果表明,在冷敏感基因型的核果中,FAD 表达与脂质去饱和之间存在直接关系,而在抗寒基因型的核果中则存在相反关系,这表明核果的冷驯化需要精细的 FAD 转录后调控。讨论了与 FAD 去饱和相关的假说,包括与贮藏和膜脂质的关系,以及基因型的抗寒性。

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