High-Density SNP Genotyping of Tomato (Solanum lycopersicum L.) Reveals Patterns of Genetic Variation Due to Breeding

Sim, Sung-Chur; Deynze, Allen Van; Stoffel, Karl; Douches, David S.; Zarka, Daniel G.; Ganal, Martin W.; Chetelat, Roger T.; Hutton, Samuel F.; Scott, John W.; Gardner, Richard G.; Panthee, Dilip R.; Mutschler, Martha A.; Myers, James R.; Francis, David M.

doi:10.1371/journal.pone.0045520

Cited by 142 publications

(146 citation statements)

References 91 publications

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“…With the recent development of high-throughput genotyping tools (Sim et al 2012a), their use on a large number of accessions (Blanca et al 2015;Sim et al 2012b), and the release of sequence data for nearly 440 tomato genomes (Lin et al 2014; The 100 Tomato Genome Sequencing Consortium et al 2014), there is an abundance of information to facilitate selection. These resources have generated interest in developing models predicting breeding values for tomato improvement (Duangjit et al 2016;Hernán-dez-Bautista et al 2016;Yamamoto et al 2016a, b).…”

Section: Discussionmentioning

confidence: 99%

The use of historical datasets to develop multi-trait selection models in processing tomato

Liabeuf

Francis

2017

Euphytica

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Multi-trait indices (MTI) weigh traits based on their importance to facilitate selection in plant and animal improvement. In animal breeding, economic values are used to develop MTIs. For vegetables, economic data valuing traits are rarely available. We posit that varieties with traits valued by growers and processors achieve higher market share and longer life span. Our objective was to develop MTIs predicting success of tomato varieties. Historical data for the California processing tomato industry from 1992 to 2013 provided measurements for yield, soluble solids (Brix), color, pH, market share, and life span for 258 varieties. We used random models to estimate best linear unbiased predictors (BLUPs) for phenotypic traits of each variety, and evaluated trends over time. Yield has been increasing from 2006, while Brix stayed constant. Because yield and Brix are negatively correlated, this trend suggests that Brix influenced selection. The average number of resistances reported in varieties ranking in the top ten increased from 2 to 4.5 between 1992 and 2013. MTIs predicting success from phenotypic traits were developed with general linear models and tested using leave-one-out cross validation. MTIs weighing yield, Brix, pH and color were significantly correlated to success metrics and selected a significantly higher proportion of successful varieties relative to random sampling. The index multiplying yield and brix, suggested in the literature, was not significantly correlated with variety success. The MTIs suggested that fruit quality had less of an influence on variety success than yield. The MTIs developed could help improve gain under selection for quality traits in addition to yield.

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Section: Discussionmentioning

confidence: 99%

The use of historical datasets to develop multi-trait selection models in processing tomato

Liabeuf

Francis

2017

Euphytica

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“…In tomato, it has been recently shown that population structure analysis based on SNP markers allowed the characterization and discrimination of landraces and varieties [36][37][38]. In addition, in cacao seeds, SNP fingerprints allowed the identification of an adulterant variety [39].…”

Section: Dna Markersmentioning

confidence: 99%

DNA Markers for Food Products Authentication

Scarano

Rao

2014

Diversity

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Media constantly refer of unscrupulous producers that adulterate, alter or replace premium products in food chains with the goal to maximize illegally profits. Food traceability is a central issue for the identification of improper labeling of processed food and feed and there are rules aimed to protect consumers and producers against fraudulent substitution of quality products in food chain, but the tools available are not always appropriate. DNA-based markers proved very effective for fresh and processed food molecular authentication. In this review, we illustrate potential and limits of different DNA markers focusing on low, medium and high-throughput markers, in order to monitor the genetic identity of food components in meat, fish and plants net-chains.

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“…The 62,576 nonredundant putative SNPs reported by Hamilton et al (2012) will be a source of SNPs for cultivated tomato lines of S. lycopersicum (Sim et al 2012b). In addition, 171,792 SNP, insertion, and deletion candidates were also identified from the mapping analysis of 'Micro-Tom' BAC-end sequences compared with the reference genome of S. lycopersicum 'Heinz 1706' (Asamizu et al 2012).…”

Section: Intraspecific Mapsmentioning

confidence: 99%

Structural analyses of the tomato genome

Sato

Shirasawa

Tabata

2013

Plant Biotechnology

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Over the last 10 years, considerable efforts have been undertaken to develop genomic resources in tomato, including genomic clones, physical maps, DNA markers, mapping populations, and genetic linkage maps. Such resources facilitate the investigation of genome structure and gene functions, and the identification of genes of agronomic importance. In parallel, an international project with the participation of over 90 groups from 14 countries has been utilizing these resources to proceed with the deciphering of all of the genetic information carried by tomato. With the aid of new sequencing technologies and sophisticated bioinformatics, sequencing of the whole genome of tomato was successfully completed and the results were published in May 2012. The resulting large number of DNA markers, high-density linkage maps, and information on the structure and function of almost all of the gene components in the tomato genome are expected to contribute to a wide variety of biological fields by accelerating the processes of identification, isolation, and functional assignment of genes of interest, understanding of the evolutional process of Solanaceae and other plants, and breeding of new varieties with better agronomic traits.

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High-Density SNP Genotyping of Tomato (Solanum lycopersicum L.) Reveals Patterns of Genetic Variation Due to Breeding

Cited by 142 publications

References 91 publications

The use of historical datasets to develop multi-trait selection models in processing tomato

The use of historical datasets to develop multi-trait selection models in processing tomato

DNA Markers for Food Products Authentication

Structural analyses of the tomato genome

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