甜瓜
生物
矮化
黄瓜
基因座(遗传学)
园艺
遗传标记
侏儒症
遗传学
植物
砧木
基因
作者
Taifeng Zhang,Jiajun Liu,Shi Liu,Zhuo Ding,Feishi Luan,Peng Gao
出处
期刊:Hortscience
[American Society for Horticultural Science]
日期:2019-08-01
卷期号:54 (8): 1293-1298
被引量:18
标识
DOI:10.21273/hortsci14052-19
摘要
Short internode length (SIL) is one of the most commercially and important traits in melon varieties ( Cucumis melo L.). SIL can result in a compact vining type that promotes concentrated fruit in high-density crops, leading to greater use of light resources for photosynthesis and greater yield per unit area. In our study, two parental melon lines ‘M1-32’ (P 1 , standard vine) and ‘X090’ (P 2 , short internodes), and their F 1 , F 2 , BC 1 P 1 , and BC 1 P 2 progenies were evaluated after being grown in plastic greenhouse conditions in 2017 and 2018. Main stem length (MSL) and internode length (IL) of six melon generations indicated that a single recessive gene ( MD7 ) controlled dwarfism in the ‘X090’ melon line. Whole-genome analysis revealed a genomic region harboring the candidate dwarfism gene on chromosome 7. Six polymorphic cleaved amplified polymorphic sequence (CAPS) markers from chromosome 7 were used to construct a genetic linkage that spanned 30.28 cM. The melon dwarfing locus MD7 responsible for SIL was positioned between markers M7-4 and M7-5, with 3.16 cM of flanking distance. The CAPS markers M7-4 and M7-5 developed have the potential to accelerate the development of dwarf melon varieties, especially in situations when dwarf genotypes are an important breeding goal using marker-assisted selection.
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