Lee Man Bo, Kim Dae Yeon, Seo Yong Weon
a Department of Biotechnology, College of Life Sciences & Biotechnology, Korea University, Seoul 02841, Korea.
b Division of Biotechnology, College of Life Sciences & Biotechnology, Korea University, Seoul 02841, Korea.
Genome. 2017 Jul;60(7):581-587. doi: 10.1139/gen-2016-0145. Epub 2017 Mar 20.
Brachypodium distachyon has been proposed as a model plant for agriculturally important cereal crops such as wheat and barley. Seed coat colour change from brown-red to yellow was observed in a mutant line (142-3) of B. distachyon, which was induced by chronic gamma radiation. In addition, dwarf phenotypes were observed in each of the lines 142-3, 421-2, and 1376-1. To identify causal mutations for the seed coat colour change, the three mutant lines and the wild type were subjected to whole-genome re-sequencing. After removing natural variations, 906, 1057, and 978 DNA polymorphisms were detected in 142-3, 421-2, and 1376-1, respectively. A total of 13 high-risk DNA polymorphisms were identified in mutant 142-3. Based on a comparison with DNA polymorphisms in 421-2 and 1376-1, candidate causal mutations for the seed coat colour change in 142-3 were selected. In the two independent Arabidopsis thaliana lines carrying T-DNA insertions in the AtCHI, seed colour change was observed. We propose a frameshift mutation in BdCHI1 as a causal mutation responsible for seed colour change in 142-3. The DNA polymorphism information for these mutant lines can be utilized for functional genomics in B. distachyon and cereal crops.
短柄草已被提议作为小麦和大麦等具有重要农业意义的谷类作物的模式植物。在由慢性γ辐射诱导的短柄草突变系(142-3)中观察到种皮颜色从棕红色变为黄色。此外,在142-3、421-2和1376-1这三个品系中均观察到了矮化表型。为了鉴定种皮颜色变化的因果突变,对这三个突变系和野生型进行了全基因组重测序。去除自然变异后,在142-3、421-2和1376-1中分别检测到906、1057和978个DNA多态性。在突变体142-3中总共鉴定出13个高风险DNA多态性。基于与421-2和1376-1中DNA多态性的比较,选择了142-3中种皮颜色变化的候选因果突变。在两个独立的拟南芥品系中,AtCHI中携带T-DNA插入,观察到种子颜色变化。我们提出BdCHI1中的移码突变是导致142-3中种子颜色变化的因果突变。这些突变系的DNA多态性信息可用于短柄草和谷类作物的功能基因组学研究。
