高亚麻酸油菜籽子代不饱和脂肪酸含量的遗传分离分析

Q3 Agricultural and Biological Sciences
Xiaohan Zhang , Jinglong Lian , Chunyan Dai , Xiaoli Wang , Mingzheng Zhang , Xing Su , Yaohua Cheng , Chengyu Yu
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引用次数: 1

摘要

α -亚麻酸(ALA)是一种必需的多不饱和脂肪酸,可以改善人体健康。油菜籽是世界第二大油料作物,但其种子脂肪酸中ALA含量仅为10%左右。通过品种间杂交,选育到ALA含量高达21%的油菜种质YH25005和R8Q10。将它们作为母本(P1)与ALA含量较低的亲本SW (P2)杂交,得到F1杂交种、F2以及P1 (BCP1)和P2 (BCP2)的回交。通过多代联合分离分析,确定了油酸(OA)、亚油酸(LA)和ALA三种主要不饱和脂肪酸含量的主基因+多基因效应。结果表明,虽然在R8Q10和YH25005中部分有利于ALA积累的基因不为等位基因,但在YH25005 × SW和R8Q10 × SW中OA、LA和ALA的遗传均遵循“两对加性主基因+加性显性多基因”的遗传模式。提示OA、LA和ALA含量密切相关,亲本SW中含有FAD2和FAD3位点功能缺失突变的主要基因对ALA的降低和OA的升高有很强的作用。然而,多基因的总遗传效应大于两个主基因,尤其是对ALA含量的影响。这表明,要找到积累足够的小效多基因以获得高ALA含量的植株,有必要采用更大的F2群体。研究结果对高ALA油菜籽育种和今后的基因定位工作具有一定的指导意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Genetic segregation analysis of unsaturated fatty acids content in the filial generations of high-linolenic-acid rapeseed (Brassica napus)

Alpha linolenic acid (ALA) is an essential polyunsaturated fatty acids that can improve human health. Rapeseed is the second largest oil crop in the world but the ALA content in its seed fatty acids is only about 10%. Two rapeseed germplasms YH25005 and R8Q10 with high content (up to 21%) ALA were developed by intervarietal crossing. They were used as the maternal parent (P1) when crossed with a low ALA parent SW (P2) to produce the seeds of the F1 hybrid, F2, and backcrosses to P1 (BCP1) and P2 (BCP2). A multigeneration joint segregation analysis was conducted to determine major gene ​+ ​polygene effects of the content of three major unsaturated fatty acids including oleic (OA), linoleic (LA) and ALA. The results showed that, although some genes favorable to ALA accumulation were not allelic in R8Q10 and YH25005, all the inheritances of OA, LA and ALA in YH25005 ​× ​SW and R8Q10 ​× ​SW followed a genetic model of ‘two pairs of additive major genes ​+ ​additive-dominant polygenes’. It is suggested that the contents of OA, LA and ALA are closely related and the major genes in the parent SW containing loss-of-function mutations in FAD2 and FAD3 loci had strong effect to reduce ALA and elevate OA. However, total genetic effect of the polygenes was greater than that of the two major genes, especial on ALA content. It indicated that it is necessary to employ a larger F2 population to find the plant that accumulate enough minor-effect polygenes for high ALA content. The results are useful for high ALA rapeseed breeding and future work of gene mapping.

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来源期刊
Oil Crop Science
Oil Crop Science Food Science, Plant Science, Agronomy and Crop Science
CiteScore
3.40
自引率
0.00%
发文量
20
审稿时长
74 days
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