Effect of <i>Tm-2a</i>, <i>Sw-5</i> and <i>Ty-1</i> Gene Introduction on the Agronomic Performance and Metabolic Profile of Traditional Muchamiel-Type Tomato Varieties

Effect of <i>Tm-2a</i>, <i>Sw-5</i> and <i>Ty-1</i> Gene Introduction on the Agronomic Performance and Metabolic Profile of Traditional Muchamiel-Type Tomato Varieties

The introduction of virus resistance genes into traditional tomato varieties offers a strategy to preserve genetic diversity and enhance commercial viability. However, the homozygous presence of these genes has been associated with negative effects on yield and fruit quality. This two-year study eva...

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Bibliographic Details
Main Authors: Alicia Sánchez, Juana Cava, Virginia Hernández, Pilar Flores, Santiago García-Martínez, Pedro Carbonell, Elena Sánchez, Nuria López, Elia Molina, José Fenoll, Pilar Hellín
Format: Article
Language:English
Published: MDPI AG 2025-07-01
Series:Horticulturae
Subjects:
landraces
bioactive composition
flavor-related quality
tomato breeding
Online Access:https://www.mdpi.com/2311-7524/11/7/838
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Summary:The introduction of virus resistance genes into traditional tomato varieties offers a strategy to preserve genetic diversity and enhance commercial viability. However, the homozygous presence of these genes has been associated with negative effects on yield and fruit quality. This two-year study evaluated the impact of introducing the <i>Tm-2a</i>, <i>Sw-5</i> and <i>Ty-1</i> genes, which are associated with resistance to ToMV, TSWV and TYLCV, respectively, on the agronomic yield, fruit characteristics and metabolic profile of Muchamiel-type cultivars. Four hybrids were obtained by crossing two breeding lines carrying the resistance genes in homozygosis (UMH1139 and UMH1200) with two traditional susceptible varieties (MC1 and MC2). Hybrids matched or exceeded the agronomic performance of their parents. Fruit morphology of the hybrids was similar to traditional parents. The presence of <i>Ty-1</i> correlated with reduced organic acid concentration, though hybrids exhibited higher levels than the homozygous line, UMH1200. No negative effects on soluble sugars or secondary metabolites were observed. Genotypes carrying resistance genes, breeding lines and hybrids exhibited higher flavonoid contents, suggesting a potential role in virus response. Hybrids maintained or improved the bioactive profile of traditional varieties. These findings support the development of Muchamiel-type hybrids that combine the presence of virus resistance genes in heterozygosity with the desirable traits of traditional tomatoes.
ISSN:2311-7524

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