水稻碱性胁迫下死叶率和幼苗死亡率的数量性状位点鉴定

Identification of quantitative trait loci for the dead leaf rate and the seedling dead rate under alkaline stress in rice.

作者信息

Qi Dongling, Guo Guizhen, Lee Myung-chul, Zhang Junguo, Cao Guilan, Zhang Sanyuan, Suh Seok-cheol, Zhou Qingyang, Han Longzhi

机构信息

Institute of Crop Science, Chinese Academy of Agricultural Sciences/The National Key Facility for Crop Gene Resources and Genetic Improvement, NFCRI/Key Laboratory of Crop Germplasm Resources and Biotechnology, Ministry of Agriculture, Beijing, China.

出版信息

J Genet Genomics. 2008 May;35(5):299-305. doi: 10.1016/S1673-8527(08)60043-0.

DOI:10.1016/S1673-8527(08)60043-0

PMID:18499074

Abstract

The quantitative trait loci (QTLs) for the dead leaf rate (DLR) and the dead seedling rate (DSR) at the different rice growing periods after transplanting under alkaline stress were identified using an F(2:3) population, which included 200 individuals and lines derived from a cross between two japonica rice cultivars Gaochan 106 and Changbai 9 with microsatellite markers. The DLR detected at 20 days to 62 days after transplanting under alkaline stress showed continuous normal or near normal distributions in F(3) lines, which was the quantitative trait controlled by multiple genes. The DSR showed a continuous distribution with 3 or 4 peaks and was the quantitative trait controlled by main and multiple genes when rice was grown for 62 days after transplanting under alkaline stress. Thirteen QTLs associated with DLR were detected at 20 days to 62 days after transplanting under alkaline stress. Among these, qDLR9-2 located in RM5786-RM160 on chromosome 9 was detected at 34 days, 41 days, 48 days, 55 days, and 62 days, respectively; qDLR4 located in RM3524-RM3866 on chromosome 4 was detected at 34 days, 41 days, and 48 days, respectively; qDLR7-1 located in RM3859-RM320 on chromosome 7 was detected at 20 days and 27 days; and qDLR6-2 in RM1340-RM5957 on chromosome 6 was detected at 55 days and 62 days, respectively. The alleles of both qDLR9-2 and qDLR4 were derived from alkaline sensitive parent "Gaochan106". The alleles of both qDLR7-1 and qDLR6-2 were from alkaline tolerant parent Changbai 9. These gene actions showed dominance and over dominance primarily. Six QTLs associated with DSR were detected at 62 days after transplanting under alkaline stress. Among these, qDSR6-2 and qDSR8 were located in RM1340-RM5957 on chromosome 6 and in RM3752-RM404 on chromosome 8, respectively, which were associated with DSR and accounted for 20.32% and 18.86% of the observed phenotypic variation, respectively; qDSR11-2 and qDSR11-3 were located in RM536-RM479 and RM2596-RM286 on chromosome 11, respectively, which were associated with DSR explaining 25.85% and 15.41% of the observed phenotypic variation, respectively. The marker flanking distances of these QTLs were quite far except that of qDSR6-2, which should be researched further.

摘要

利用一个由200个个体和株系组成的F(2:3)群体，通过微卫星标记，对碱性胁迫下移栽后不同水稻生育期的死叶率（DLR）和死苗率（DSR）的数量性状位点（QTL）进行了鉴定。该群体由两个粳稻品种高产品种106和长白9杂交衍生而来。在碱性胁迫下移栽后20天至62天检测到的DLR在F(3)株系中呈现连续的正态或近似正态分布，这是一个受多基因控制的数量性状。在碱性胁迫下移栽后水稻生长62天时，DSR呈现连续分布且有3或4个峰值，是一个受主基因和多基因控制的数量性状。在碱性胁迫下移栽后20天至62天检测到13个与DLR相关的QTL。其中，位于第9染色体RM5786 - RM160区间的qDLR9 - 2分别在34天、41天、48天、55天和62天被检测到；位于第4染色体RM3524 - RM3866区间的qDLR4分别在34天、41天和48天被检测到；位于第7染色体RM3859 - RM320区间的qDLR7 - 1在20天和27天被检测到；位于第6染色体RM1340 - RM5957区间的qDLR6 - 2分别在55天和62天被检测到。qDLR9 - 2和qDLR4的等位基因均来自碱敏感亲本“高产品种106”。qDLR7 - 1和qDLR6 - 2的等位基因均来自耐碱亲本长白9。这些基因作用主要表现为显性和超显性。在碱性胁迫下移栽后62天检测到6个与DSR相关的QTL。其中，位于第6染色体RM1340 - RM5957区间的qDSR6 - 2和位于第8染色体RM3752 - RM404区间的qDSR8分别与DSR相关，分别解释了观察到的表型变异的20.32%和18.86%；位于第11染色体RM536 - RM479区间的qDSR11 - 2和位于第11染色体RM2596 - RM286区间的qDSR11 - 3分别与DSR相关，分别解释了观察到的表型变异的25.85%和15.41%。除qDSR6 - 2外，这些QTL的侧翼标记距离较远，应进一步研究。