Author:
Yang Weifeng,Chen Songliang,Hao Qingwen,Zhu Haitao,Tan Quanya,Lin Shaojun,Chen Guodong,Li Zhan,Bu Suhong,Liu Zupei,Liu Guifu,Wang Shaokui,Zhang Guiquan
Abstract
AbstractRice chalkiness is a key limiting factor of high-quality rice. The breeding of low chalkiness varieties has always been a challenging task due to the complexity of chalkiness and its susceptibility to environmental factors. In previous studies, we identified six QTLs for the percentage of grain chalkiness (PGC), named qPGC5, qPGC6, qPGC8.1, qPGC8.2, qPGC9 and qPGC11, using single-segment substitution lines (SSSLs) with genetic background of Huajingxian 74 (HJX74). In this study, we utilized the six low chalkiness QTLs to develop 17 pyramiding lines with 2–4 QTLs. The results showed that the PGC decreased with the increase of QTLs in the pyramiding lines. The pyramiding lines with 4 QTLs significantly reduced the chalkiness of rice and reached the best quality level. Among the six QTLs, qPGC5 and qPGC6 showed greater additive effects and were classified as Group A, while the other four QTLs showed smaller additive effects and were classified as Group B. In pyramiding lines, although the presence of epistasis, additivity remained the main component of QTL effects. qPGC5 and qPGC6 showed stronger ability to reduce rice chalkiness, particularly in the environment of high temperature (HT) in the first cropping season (FCS). Our research demonstrates that by pyramiding low chalkiness QTLs, it is feasible to develop the high-quality rice varieties with low chalkiness at the best quality level even in the HT environment of FCS.
Funder
National Natural Science Foundation of China
the China Postdoctoral Science Foundation
the Key Research and Development Program of Guangdong Province
the major science and technology research projects of Guangdong Laboratory for Lingnan Modern Agriculture
Publisher
Springer Science and Business Media LLC