Domestication and Breeding of Tomatoes: What have We Gained and What Can We Gain in the Future

BACKGROUND: It has been shown that a large variation is present and exploitable from wild Solanum species but most of it is still untapped. Considering the thousands of Solanum accessions in different gene banks and probably even more that are still untouched in the Andes, it is a challenge to explo...

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Published in:Annals of botany 2007-10, Vol.100 (5), p.1085-1094
Main Authors: Bai, Yuling, Lindhout, Pim
Format: Article
Language:English
Subjects:
Agriculture - trends
backcross qtl analysis
Biodiversity
Breeding
Breeding - methods
Crops, Agricultural - genetics
cultivated tomato
domestication
fruit size
Fruits
genetic diversity
Genetic loci
Genetic variation
Genomes
genomics
Genomics - trends
genus lycopersicon
Lycopersicon esculentum - genetics
lycopersicon-esculentum
natural variation
Phenotypic traits
Plant domestication
Plant genetics
Plants
quantitative trait loci
resistance genes
REVIEW
Solanum lycopersicum
solanum-lycopersicoides
Tomatoes
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Lindhout, Pim
description BACKGROUND: It has been shown that a large variation is present and exploitable from wild Solanum species but most of it is still untapped. Considering the thousands of Solanum accessions in different gene banks and probably even more that are still untouched in the Andes, it is a challenge to exploit the diversity of tomato. What have we gained from tomato domestication and breeding and what can we gain in the future? SCOPE: This review summarizes progress on tomato domestication and breeding and current efforts in tomato genome research. Also, it points out potential challenges in exploiting tomato biodiversity and depicts future perspectives in tomato breeding with the emerging knowledge from tomato-omics. CONCLUSIONS: From first domestication to modern breeding, the tomato has been continually subjected to human selection for a wide array of applications in both science and commerce. Current efforts in tomato breeding are focused on discovering and exploiting genes for the most important traits in tomato germplasm. In the future, breeders will design cultivars by a process named 'breeding by design' based on the combination of science and technologies from the genomic era as well as their practical skills.
doi_str_mv 10.1093/aob/mcm150
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Considering the thousands of Solanum accessions in different gene banks and probably even more that are still untouched in the Andes, it is a challenge to exploit the diversity of tomato. What have we gained from tomato domestication and breeding and what can we gain in the future? SCOPE: This review summarizes progress on tomato domestication and breeding and current efforts in tomato genome research. Also, it points out potential challenges in exploiting tomato biodiversity and depicts future perspectives in tomato breeding with the emerging knowledge from tomato-omics. CONCLUSIONS: From first domestication to modern breeding, the tomato has been continually subjected to human selection for a wide array of applications in both science and commerce. Current efforts in tomato breeding are focused on discovering and exploiting genes for the most important traits in tomato germplasm. 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subjects Agriculture - trends
backcross qtl analysis
Biodiversity
Breeding
Breeding - methods
Crops, Agricultural - genetics
cultivated tomato
domestication
fruit size
Fruits
genetic diversity
Genetic loci
Genetic variation
Genomes
genomics
Genomics - trends
genus lycopersicon
Lycopersicon esculentum - genetics
lycopersicon-esculentum
natural variation
Phenotypic traits
Plant domestication
Plant genetics
Plants
quantitative trait loci
resistance genes
REVIEW
Solanum lycopersicum
solanum-lycopersicoides
Tomatoes
title Domestication and Breeding of Tomatoes: What have We Gained and What Can We Gain in the Future
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