Substitution Mapping of Two Closely Linked QTLs on Chromosome 8 Controlling Grain Chalkiness in Rice

发布者:nxy发布时间:2021-12-23浏览次数:316

Substitution Mapping of Two Closely Linked QTLs on Chromosome 8 Controlling Grain Chalkiness in Rice

Yang, WF (Yang, WeifengXiong, L (Xiong, LiangLiang, JY (Liang, Jiayan)  Hao, QW (Hao, Qingwen Luan, X (Luan, Xin)  Tan, QY (Tan, QuanyaLin, SW (Lin, Shiwan)  Zhu, HT (Zhu, Haitao)  Liu, GF (Liu, GuifuLiu, ZP (Liu, Zupei)  Bu, SH (Bu, Suhong)  Wang, SK (Wang, Shaokui)  Zhang, GQ (Zhang, Guiquan)

Rice

DOI:10.1186/s12284-021-00526-4



摘要

Rice varieties are required to have high yield and good grain quality. Grain chalkiness and grain shape are two important traits of rice grain quality. Low chalkiness slender grains are preferred by most rice consumers. Here, we dissected two closely linked quantitative trait loci (QTLs) controlling grain chalkiness and grain shape on rice chromosome 8 by substitution mapping. Two closely linked QTLs controlling grain chalkiness and grain shape were identified using single-segment substitution lines (SSSLs). The two QTLs were then dissected on rice chromosome 8 by secondary substitution mapping. qPGC8.1 was located in an interval of 1382.6 kb and qPGC8.2 was mapped in a 2057.1 kb region. The maximum distance of the two QTLs was 4.37 Mb and the space distance of two QTL intervals was 0.72 Mb. qPGC8.1 controlled grain chalkiness and grain width. qPGC8.2 was responsible for grain chalkiness, grain length and width. The additive effects of qPGC8.1 and qPGC8.2 on grain chalkiness were not affected by higher temperature. Two closely linked QTLs qPGC8.1 and qPGC8.2 were dissected on rice chromosome 8. They controlled the phenotypes of grain chalkiness and grain shape. The two QTLs were insensitive to higher temperature.



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