An SNP-based saturated genetic map and QTL analysis of fruit-related traits in Zucchini using Genotyping-by-sequencing

An SNP-based saturated genetic map and QTL analysis of fruit-related traits in Zucchini using Genotyping-by-sequencing

[EN] Background: Cucurbita pepo is a cucurbit with growing economic importance worldwide. Zucchini morphotype is the most important within this highly variable species. Recently, transcriptome and Simple Sequence Repeat (SSR)- and Single Nucleotide Polymorphism (SNP)-based medium density maps have b...

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Hauptverfasser: Montero-Pau, Javier, Blanca Postigo, José Miguel, Esteras Gómez, Cristina, Martínez Pérez, Eva María, GOMEZ P, Monforte Gilabert, Antonio José, Cañizares Sales, Joaquín, Picó Sirvent, María Belén
Format: Artikel
Sprache:eng
Schlagworte:
Candidate genes
Cartography
Cucurbita pepo
GBS
GENETICA
Phenotyping
RIL
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Zusammenfassung:[EN] Background: Cucurbita pepo is a cucurbit with growing economic importance worldwide. Zucchini morphotype is the most important within this highly variable species. Recently, transcriptome and Simple Sequence Repeat (SSR)- and Single Nucleotide Polymorphism (SNP)-based medium density maps have been reported, however further genomic tools are needed for efficient molecular breeding in the species. Our objective is to combine currently available complete transcriptomes and the Zucchini genome sequence with high throughput genotyping methods, mapping population development and extensive phenotyping to facilitate the advance of genomic research in this species. Results: We report the Genotyping-by-sequencing analysis of a RIL population developed from the inter subspecific cross Zucchini x Scallop (ssp. pepo x ssp. ovifera). Several thousands of SNP markers were identified and genotyped, followed by the construction of a high-density linkage map based on 7,718 SNPs (average of 386 markers/linkage group) covering 2,817.6 cM of the whole genome, which is a great improvement with respect to previous maps. A QTL analysis was performed using phenotypic data obtained from the RIL population from three environments. In total, 48 consistent QTLs for vine, flowering and fruit quality traits were detected on the basis of a multiple-environment analysis, distributed in 33 independent positions in 15 LGs, and each QTL explained 1.5 62.9% of the phenotypic variance. Eight major QTLs, which could explain greater than 20% of the phenotypic variation were detected and the underlying candidate genes identified. Conclusions: Here we report the first SNP saturated map in the species, anchored to the physical map. Additionally, several consistent QTLs related to early flowering, fruit shape and length, and rind and flesh color are reported as well as candidate genes for them. This information will enhance molecular breeding in C. pepo and will assist the gene cloning underlying the studied QTLs, helping to reveal the genetic basis of the studied processes in squash. This work has been carried out in the framework of the INIA projects RTA2011-00044-C02-1/2 and E-RTA2013-00020-C04-03 of the Spanish Instituto Nacional de Investigacion y Tecnologia Agraria y Alimentaria (INIA) cofunded with FEDER funds (EU). Montero-Pau, J.; Blanca Postigo, JM.; Esteras Gómez, C.; Martínez Pérez, EM.; GOMEZ P; Monforte Gilabert, AJ.; Cañizares Sales, J... (2017). An SNP-based saturated genetic ma