Acta Agriculturae Boreali-Sinica

Acta Agriculturae Boreali-Sinica >

2014 , Vol. 29 >Issue 3: 81 - 89

DOI: https://doi.org/10.7668/hbnxb.2014.03.016

Genetic Effects of Oil and Saturated Fatty Acid on Maize Kernel in Different Environment

  • WANG Yun-mei ,
  • GAO Xiang-kuo ,
  • FENG Su-fen ,
  • YANG Ke-chang ,
  • JIANG Lu-hua ,
  • ZHAO Zi-xian ,
  • LI Li-zheng
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  • 1. College of Agronomy and Biotechnology, Yunnan Agricultural University, Kunming 650201, China;
    2. Yunnan Academy of Agricultural Sciences, Kunming 650205, China;
    3. Xuanwei Agricultural Technology Service Center, Xuanwei 655424, China

Received date: 2014-03-16

  Online published: 2014-09-19

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Abstract

For the issues that genetic mechanisms were complicated for corn kernel quality traits, and maternal genetic variance could not be subdivided using traditional analysis methods, a seed genetic model was used to analyze embryo, endosperm, cytoplasmic and maternal effects and G×E interaction effects of oil and saturated fatty acid content for maize kernel, the results indicated that genetic main effect controlled maize oil content, and embryo additive effect was the most important effect.Embryo additive variance(VAo) constituting 88.92% of total genetic variances, the embryo narrow heritability of oil was high, the value was 79.0%.Genetic×environment interaction controlled palmitic acid content, genetic×environment interaction variance(VGE) constituting 91.13% of total genetic variances, endosperm additive interaction(VAeE)and maternal additive interaction effects (VAmE)played an equivalent role for palmitic acid content, their variances percentage to total genetic variances were 47.47% and 41.99% respectively, the differences between maternal interaction heritability(hGmE2)and endosperm interaction heritability(hGeE2)were minor, the value was 39.4% and 39.2% respectively.Genetic×environment interaction also controlled stearic acid content, Genetic×environment interaction variance (VGE) constituting 87.75% of total genetic variances, maternal additive interaction and embryo additive effects played an important role for stearic acid content, maternal interaction heritability(hGmE2) for stearic acid was 43.7%, and endosperm interaction heritability was 43.5%. Several inbred lines were selected for oil and saturated fatty acid improvement, lines P8(ZOL-3), P9(ZOL-4), P10(ZOL-5) were perfect for oil increase, and P7(ZOL-2), P1(ZNL-1)for palmitic acid decrease, P1(ZNL-1), P2(Zi330), P5(1072)for stearic acid decrease.The results provided a theoretical basis for quality oil maize breeding.

Key words: Maize kernel; Oil; Saturated fatty acid; Genetic effects

Cite this article

WANG Yun-mei , GAO Xiang-kuo , FENG Su-fen , YANG Ke-chang , JIANG Lu-hua , ZHAO Zi-xian , LI Li-zheng . Genetic Effects of Oil and Saturated Fatty Acid on Maize Kernel in Different Environment[J]. Acta Agriculturae Boreali-Sinica, 2014 , 29(3) : 81 -89 . DOI: 10.7668/hbnxb.2014.03.016

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