春化
生物
上位性
遗传学
数量性状位点
转录组
等位基因
基因
基因座(遗传学)
表型
开花位点C
芸苔属
基因组
基因型
遗传变异
拟南芥
特质
异位表达
光周期性
候选基因
遗传建筑学
转基因
遗传模型
表达数量性状基因座
适应(眼睛)
遗传分析
作者
Shuai Yin,Peng Yue,Taihua Yang,Qingdong Jin,Yu Wang,Ming Wan,Dewei Mu,Graham J.W. King,Changli Zeng,Xianhong Ge,Jing Wang
摘要
Allelic variations in BnaFLC.A10, BnaFLC.A2, and BnaFT.A2 have been associated with flowering time regulation in Brassica napus. However, the effects of their interactions remain insufficiently understood. In this study, we investigated the genetic basis underlying flowering time differences between the winter-type Tapidor and the spring-type Westar. Utilizing quantitative trait locus sequencing (QTL-seq) and transcriptome analysis, BnaFLC.A10, BnaFLC.A2, and BnaFT.A2 were identified as candidate genes associated with flowering time variation. Functional evidence from transgenic ectopic expression and CRISPR/Cas9-mediated genome editing supports their involvement in flowering time regulation. Genotypic and phenotypic analysis of 248 individuals from an (Westar×Tapidor) F2 population, along with 226 B. napus accessions, indicated additive effects of BnaFLC.A10 and BnaFLC.A2 in vernalization requirements and potential epistatic interactions with different BnaFT.A2 alleles. These results provide insights into the genetic interactions underlying flowering time variation and may assist in optimizing allele combinations for enhanced adaptation in B. napus breeding.
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