Identification of long-grain chromosome segment substitution line Z744 and QTL analysis for agronomic traits in rice

作     者：MA Fu-ying DU Jie WANG Da-chuan WANG Hui ZHAO Bing-bing HE Guang-hua YANG Zheng-lin ZHANG Ting WU Ren-hong ZHAO Fang-ming MA Fu-ying;DU Jie;WANG Da-chuan;WANG Hui;ZHAO Bing-bing;HE Guang-hua;YANG Zheng-lin;ZHANG Ting;WU Ren-hong;ZHAO Fang-ming

作者机构：Rice Research InstituteAcademy of Agricultural SciencesSouthwest UniversityChongqing 400715P.R.China 

出 版 物：《Journal of Integrative Agriculture》 (农业科学学报（英文版）)

年 卷 期：2020年第19卷第5期

页      面：1163-1169页

核心收录：

学科分类：0710[理学-生物学] 0832[工学-食品科学与工程（可授工学、农学学位）] 0830[工学-环境科学与工程（可授工学、理学、农学学位）] 1004[医学-公共卫生与预防医学(可授医学、理学学位)] 0905[农学-畜牧学] 09[农学] 0906[农学-兽医学] 0901[农学-作物学] 0703[理学-化学] 0902[农学-园艺学] 0713[理学-生态学] 

基　　金：supported by the National Natural Science Foundation of China(31871593) the Chongqing Science and Technology Commission Special Project,China(cstc2016shms-ztzx0032) the Southwest University Innovation Team Project,China(XDJK2017A004)。 

主　　题：rice chromosome segment substitution line grain length QTL 

摘      要：Length of grain affects the appearance, quality, and yield of rice. A rice long-grain chromosome segment substitution line Z744, with Nipponbare as the recipient parent and Xihui 18 as the donor parent, was identified. Z744 contains a total of six substitution segments distributed on chromosomes(Chrs.) 1, 2, 6, 7, and 12, with an average substitution length of 2.72 Mb. The grain length, ratio of length to width, and 1 000-grain weight of Z744 were significantly higher than those in Nipponbare. The plant height, panicle number, and seed-set ratio in Z744 were significantly lower than those in Nipponbare, but they were still 78.7 cm, 13.5 per plant, and 86.49%, respectively. Furthermore, eight QTLs of different traits were identified in the secondary F2 population, constructed by Nipponbare and Z744 hybridization. The grain weight of Z744 was controlled by two synergistic QTLs(qGWT1 and q GWT7) and two subtractive QTLs(qGWT2 and qGWT6), respectively. The increase in the grain weight of Z744 was caused mainly by the increase in grain length. Two QTLs were detected, qGL1 and qGL7-3, which accounted for 25.54 and 15.58% of phenotypic variation, respectively. A Chi-square test showed that the long-grain number and the short-grain number were in accordance with the 3:1 separation ratio, which indicates that the long grain is dominant over the short-grain and Z744 was controlled mainly by the principal effect qGL1. These results offered a good basis for further fine mapping of qGL1 and further dissection of other QTLs into single-segment substitution lines.