Branham Sandra E, Wright Sara J, Reba Aaron, Morrison Ginnie D, Linder C Randal
From the US Vegetable Laboratory, Agricultural Research Service, United States Department of Agriculture, Charleston, SC 29414 (Branham); Department of Biology, Washington University, St. Louis, MO (Wright); Integrative Biology Department, University of Texas at Austin, Austin, TX (Branham, Reba, and Linder); and Division of Plant Sciences, University of Missouri, Columbia, MO (Morrison).
J Hered. 2016 May;107(3):257-65. doi: 10.1093/jhered/esw008. Epub 2016 Feb 10.
Seed oil melting point is an adaptive, quantitative trait determined by the relative proportions of the fatty acids that compose the oil. Micro- and macro-evolutionary evidence suggests selection has changed the melting point of seed oils to covary with germination temperatures because of a trade-off between total energy stores and the rate of energy acquisition during germination under competition. The seed oil compositions of 391 natural accessions of Arabidopsis thaliana, grown under common-garden conditions, were used to assess whether seed oil melting point within a species varied with germination temperature. In support of the adaptive explanation, long-term monthly spring and fall field temperatures of the accession collection sites significantly predicted their seed oil melting points. In addition, a genome-wide association study (GWAS) was performed to determine which genes were most likely responsible for the natural variation in seed oil melting point. The GWAS found a single highly significant association within the coding region of FAD2, which encodes a fatty acid desaturase central to the oil biosynthesis pathway. In a separate analysis of 15 a priori oil synthesis candidate genes, 2 (FAD2 and FATB) were located near significant SNPs associated with seed oil melting point. These results comport with others' molecular work showing that lines with alterations in these genes affect seed oil melting point as expected. Our results suggest natural selection has acted on a small number of loci to alter a quantitative trait in response to local environmental conditions.
种子油熔点是一种适应性数量性状,由构成油的脂肪酸相对比例决定。微观和宏观进化证据表明,由于在竞争条件下种子萌发期间总能量储备与能量获取速率之间存在权衡,选择改变了种子油的熔点,使其与萌发温度协同变化。在共同园圃条件下种植的391份拟南芥自然种质的种子油成分,被用于评估一个物种内种子油熔点是否随萌发温度而变化。为支持适应性解释,种质收集地点的长期春季和秋季月平均田间温度显著预测了它们的种子油熔点。此外,进行了全基因组关联研究(GWAS),以确定哪些基因最有可能是种子油熔点自然变异的原因。GWAS在FAD2编码区域内发现了一个高度显著的关联,FAD2编码一种对油生物合成途径至关重要的脂肪酸去饱和酶。在对15个先验油合成候选基因的单独分析中,有2个基因(FAD2和FATB)位于与种子油熔点相关的显著单核苷酸多态性(SNP)附近。这些结果与其他人的分子研究结果一致,表明这些基因发生改变的品系会按预期影响种子油熔点。我们的结果表明,自然选择作用于少数基因座,以响应当地环境条件改变一个数量性状。