Abstract
Starch is the main component of wheat (Triticum aestivum L.) grain and a key factor in determining wheat processing quality. The Wx gene is the gene responsible for amylose synthesis. An ethyl methanesulfonate (EMS) mutagenized population was generated using common wheat cv. Gao 8901, a popular and high-quality cultivar in China. A waxy mutant (Wx-null) was isolated by screening M3 seeds with KI-I2 staining of endosperm starch. No obvious waxy proteins in Wx-null line were detected using Sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). DNA sequencing revealed three SNPs and a 3-bp InDel in the first exon, and a 16-bp InDel at the junction region of the first Wx-A1 intron from the Wx-null line. Six SNPs were identified in Wx-B1 gene of Wx-null line compared to the wild-type Gao 8901, including four missense mutations. One nonsense mutation was found at position 857 in the fourth exon, which resulted in a premature stop codon. Expression levels of Wx genes were dramatically reduced in the Wx-null line. There were no detectable differences in granule size and morphology between Wx-null and wild-type, but the Wx-null line contained more B-type starch granules. The amylose content of the Wx-null line (0.22%) was remarkably lower compared to the wild-type Gao 8901 (24.71%). Total starch is also lower in the Wx-null line. The Wx-null line may provide a potential waxy material with high agronomic performance in wheat breeding programs.
Highlights
Starch is the main component of wheat (Triticum aestivum L.) grain and a key factor in determining wheat processing quality
Gao 8901 were treated with a 1.0% ethyl methanesulfonate (EMS) solution, with a survival rate of M1 plants of 50–60%
One seed showed brown–red color stained with I 2-KI solution while others were dark blue (Supplementary Fig. S1)
Summary
Starch is the main component of wheat (Triticum aestivum L.) grain and a key factor in determining wheat processing quality. Six SNPs were identified in Wx-B1 gene of Wx-null line compared to the wild-type Gao 8901, including four missense mutations. The amylose content of the Wx-null line (0.22%) was remarkably lower compared to the wild-type Gao 8901 (24.71%). When one or two Wx genes are non-functional, wheat often produces starch with reduced amylose content and is known as ‘partial waxy’[7]. If all three Wx genes are null or non-functional, grains almost entirely consist of amylopectin and are termed ‘waxy’[3,4,8]. Compared with wild-type wheat starch, waxy wheat starch generally has higher peak viscosity and swelling volume, which can improve the quality of noodles including Japanese udon, Chinese-style ra-men and yellow alkaline n oodles[14,15,16]. Waxy starch can influence dough mixing characteristics, bread-making quality and bread shelf-life[17]
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