Accelerating Tomato Breeding by Exploiting Genomic Selection Approaches

Cappetta, Elisa; Andolfo, Giuseppe; Matteo, Antonio Di; Barone, Amalia; Frusciante, Luigi; Ercolano, Maria Raffaella

doi:10.3390/plants9091236

Cited by 38 publications

(22 citation statements)

References 102 publications

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“…Tomato was extensively used as a model plant for resistance/tolerance studies and important progresses were made through both genetic and biotechnological approaches [ 11 , 12 ]. It is known that tomato plants have developed numerous defense mechanisms that are effective against arthropod pests, such as physical barriers (i.e.…”

Section: Introductionmentioning

confidence: 99%

Tomato transcriptomic response to Tuta absoluta infestation

et al. 2021

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Background The South America pinworm, Tuta absoluta, is a destructive pest of tomato that causes important losses worldwide. Breeding of resistant/tolerant tomato cultivars could be an effective strategy for T. absoluta management but, despite the economic importance of tomato, very limited information is available about its response to this treat. To elucidate the defense mechanisms to herbivore feeding a comparative analysis was performed between a tolerant and susceptible cultivated tomato at both morphological and transcriptome level to highlight constitutive leaf barriers, molecular and biochemical mechanisms to counter the effect of T. absoluta attack. Results The tolerant genotype showed an enhanced constitutive barrier possibly as result of the higher density of trichomes and increased inducible reactions upon mild infestation thanks to the activation/repression of key transcription factors regulating genes involved in cuticle formation and cell wall strength as well as of antinutritive enzymes, and genes involved in the production of chemical toxins and bioactive secondary metabolites. Conclusions Overall, our findings suggest that tomato resilience to the South America pinworm is achieved by a combined strategy between constitutive and induced defense system. A well-orchestrated modulation of plant transcription regulation could ensure a trade-off between defense needs and fitness costs. Our finding can be further exploited for developing T. absoluta tolerant cultivars, acting as important component of integrated pest management strategy for more sustainable production.

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Section: Introductionmentioning

confidence: 99%

Tomato transcriptomic response to Tuta absoluta infestation

et al. 2021

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“…The number of breeding programs that have already implemented genomic-assisted breeding has increased considerably in recent years [ 229 , 230 , 231 ]. The use of this approach has been facilitated by the development of high-throughput genotyping techniques (such as genotyping by sequencing and DNA chip arrays) in various important crop species, including maize [ 232 , 233 , 234 ], tomato [ 235 , 236 ], wheat [ 237 , 238 ], and rice [ 239 , 240 ], among others. Identification of genomic regions associated with a complex trait is based on a model in which many loci underlie the trait of interest continuously and in which non-genetic factors may also be important [ 241 , 242 ].…”

Section: Gwas Genomic and Phenomic Predictionmentioning

confidence: 99%

OMICs, Epigenetics, and Genome Editing Techniques for Food and Nutritional Security

Gogolev

Ahmar

Akpınar³

et al. 2021

Plants

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The incredible success of crop breeding and agricultural innovation in the last century greatly contributed to the Green Revolution, which significantly increased yields and ensures food security, despite the population explosion. However, new challenges such as rapid climate change, deteriorating soil, and the accumulation of pollutants require much faster responses and more effective solutions that cannot be achieved through traditional breeding. Further prospects for increasing the efficiency of agriculture are undoubtedly associated with the inclusion in the breeding strategy of new knowledge obtained using high-throughput technologies and new tools in the future to ensure the design of new plant genomes and predict the desired phenotype. This article provides an overview of the current state of research in these areas, as well as the study of soil and plant microbiomes, and the prospective use of their potential in a new field of microbiome engineering. In terms of genomic and phenomic predictions, we also propose an integrated approach that combines high-density genotyping and high-throughput phenotyping techniques, which can improve the prediction accuracy of quantitative traits in crop species.

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“…Esfuerzo que ha sido insuficiente y limitado la competitividad del INIFAP ante las trasnacionales en el sector hortícola, por lo que, el reto es iniciar un programa sistematizado de mejoramiento genético aplicando diferentes estrategias genotécnicas. Para esto, se deberá innovar con materiales de selección genómica (Cappetta et al, 2020;Hernández-Bautista et al, 2020) combinadas con el mejoramiento tradicional, la hibridación, selección, retrocruzas, introgresión, etc.…”

Section: Perspectivas Y Retos Del Mejoramiento Genético De Especies Hortícolas En Méxicounclassified

Aportaciones del Instituto Nacional de Investigaciones Forestales, Agrícolas y Pecuarias al mejoramiento genético de hortalizas

González-Pérez

Meraz

Canul-Ku³

et al. 2021

Remexca

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México es centro de origen y de diversificación de especies hortícolas. A través de la diversidad genética que se posee, se han desarrollado diversos materiales mejorados, en los que, el Instituto Nacional de Investigaciones Forestales, Agrícolas y Pecuarias ha sido un pilar muy importante, por ser esta, una de sus principales actividades. En el programa de mejoramiento genético de hortalizas se aplican diferentes estrategias genotécnicas relevantes para el incremento del rendimiento de bulbo, fruto y tubérculo, como la selección de clones en ajo, selección individual o hibridación en cebolla, pedigrí o de formación de líneas puras por autofecundación en chile; selección recurrente o hibridación en jitomate, selección clonal en papa, selección familial de medios hermanos maternos en tomate de cáscara, con las que se han generado líneas experimentales, clones, híbridos y variedades. Producto de esas investigaciones se han liberado 19 variedades de ajo, 10 de cebolla, 21 de chile, 29 de papa y 2 de tomate de cáscara en los 35 años del INIFAP. Variedades que han sido adoptadas por productores en las diferentes regiones agroecológicas de México. Sin embargo, a pesar de los esfuerzos que los fitomejoradores hacen por continuar con la generación de materiales mejorados, no se ha podido impactar en un mercado dominado por empresas trasnacionales, por lo que, es necesario que el INIFAP implemente estrategias de posicionamiento e invierta en la conservación y mejora genética del germoplasma que posee, lo que a futuro resultará en la obtención mejores materiales genéticos que contribuyan al beneficio de la salud humana.

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Accelerating Tomato Breeding by Exploiting Genomic Selection Approaches

Cited by 38 publications

References 102 publications

Tomato transcriptomic response to Tuta absoluta infestation

Tomato transcriptomic response to Tuta absoluta infestation

OMICs, Epigenetics, and Genome Editing Techniques for Food and Nutritional Security

Aportaciones del Instituto Nacional de Investigaciones Forestales, Agrícolas y Pecuarias al mejoramiento genético de hortalizas

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