QTL mapping and genome-wide association study reveal two novel loci associated with green flesh color in cucumber

Green flesh color, resulting from the accumulation of chlorophyll, is one of the most important commercial traits for the fruits. The genetic network regulating green flesh formation has been studied in tomato, melon and watermelon. However, little is known about the inheritance and molecular basis...

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Bibliographic Details
Published in:BMC plant biology 2019-06, Vol.19 (1), p.243-243, Article 243
Main Authors: Bo, Kailiang, Wei, Shuang, Wang, Weiping, Miao, Han, Dong, Shaoyun, Zhang, Shengping, Gu, Xingfang
Format: Article
Language:English
Subjects:
Biodiversity
Carotenoids
Chlorophyll
Chromosome rearrangements
Color
Cucumber
Cucumbers
Cucumis
Domestication
Evolution
Fruits
Gene mapping
Genes
Genetic analysis
Genetic aspects
Genetic control
Genetic diversity
Genetic engineering
Genetic markers
Genetic research
Genetics
Genome-wide association studies
Genomes
Genomics
Geographical distribution
Green flesh
GWAS
Heredity
Identification and classification
Inversions
Mapping
Microsatellites
Natural populations
Novels
Photosynthesis
Physiological aspects
Plant biochemistry
Plant coloration
Population genetics
Populations
QTL
Quantitative genetics
Quantitative trait loci
Signal transduction
Tomatoes
Vitamin A
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Summary:Green flesh color, resulting from the accumulation of chlorophyll, is one of the most important commercial traits for the fruits. The genetic network regulating green flesh formation has been studied in tomato, melon and watermelon. However, little is known about the inheritance and molecular basis of green flesh in cucumber. This study sought to determine the main genomic regions associated with green flesh. Three F and two BC populations derived from the 9110Gt (cultivated cucumber, green flesh color) and PI183967 (wild cucumber, white flesh color) were used for the green flesh genetic analysis. Two F populations of them were further employed to do the map construction and quantitative trait loci (QTL) study. Also, a core cucumber germplasms population was used to do the GWAS analysis. We identified three indexes, flesh color (FC), flesh extract color (FEC) and flesh chlorophyll content (FCC) in three environments. Genetic analysis indicated that green flesh color in 9110Gt is controlled by a major-effect QTL. We developed two genetic maps with 192 and 174 microsatellite markers respectively. Two novel inversions in Chr1 were identified between cultivated and wild cucumbers. The major-effect QTL, qgf5.1, was identified using FC, FEC and FCC index in all different environments used. In addition, the same qgf5.1, together with qgf3.1, was identified via GWAS. Further investigation of two candidate regions using pairwise LD correlations, combined with genetic diversity of qgf5.1 in natural populations, it was found that Csa5G021320 is the candidate gene of qgf5.1. Geographical distribution revealed that green flesh color formation could be due to the high latitude, which has longer day time to produce the photosynthesis and chlorophyll synthesis during cucumber domestication and evolution. We first reported the cucumber green flesh color is a quantitative trait. We detected two novel loci qgf5.1 and qgf3.1, which regulate the green flesh formation in cucumber. The QTL mapping and GWAS approaches identified several candidate genes for further validation using functional genomics or forward genetics approaches. Findings from the present study provide a new insight into the genetic control of green flesh in cucumber.
ISSN:1471-2229
1471-2229
DOI:10.1186/s12870-019-1835-6