Genetic mapping of major genes and quantitative traits loci (QTLs) for many important agricultural traits is increasing the integration of biotechnology with the conventional breeding process. Exploitation of the information derived from the map position of traits with agronomical importance and of the linkedmolecular markers, can be achieved through marker assisted selection (MAS) of the traits during the breeding process. However, empirical applications of this procedure have shown that the success of MAS depends upon several factors, including the genetic base of the trait, the degree of the association between the molecular marker and the target gene, the number of individuals that can be analyzed and the genetic background in which the target gene has to be transferred. MAS for simply inherited traits is gaining increasing importance in breeding programs, allowing an acceleration of the breeding process. Traitsrelated to disease resistance to pathogens and to the quality of some crop products are offering some important examples of a possible routinary application of MAS. For more complex traits, like yield and abiotic stress tolerance, a number of constraints have determined severe limitations on an efficient utilizationof MAS in plant breeding, even if there are a few successful applications in improving quantitative traits. Recent advances in genotyping technologies together with comparative and functional genomic approaches are providing useful tools for the selection of genotypes with superior agronomical performancies.

Marker assisted selection in crop plants / Francia, Enrico; G., Tacconi; C., Crosatti; D., Bulgarelli; Barabaschi, Delfina; E., Dall'Aglio; Vale', Giampiero. - In: PLANT CELL TISSUE AND ORGAN CULTURE. - ISSN 0167-6857. - STAMPA. - 82:(2005), pp. 317-342. [10.1007/s11240-005-2387-z]

Marker assisted selection in crop plants

FRANCIA, Enrico;BARABASCHI, Delfina;VALE', GIAMPIERO
2005

Abstract

Genetic mapping of major genes and quantitative traits loci (QTLs) for many important agricultural traits is increasing the integration of biotechnology with the conventional breeding process. Exploitation of the information derived from the map position of traits with agronomical importance and of the linkedmolecular markers, can be achieved through marker assisted selection (MAS) of the traits during the breeding process. However, empirical applications of this procedure have shown that the success of MAS depends upon several factors, including the genetic base of the trait, the degree of the association between the molecular marker and the target gene, the number of individuals that can be analyzed and the genetic background in which the target gene has to be transferred. MAS for simply inherited traits is gaining increasing importance in breeding programs, allowing an acceleration of the breeding process. Traitsrelated to disease resistance to pathogens and to the quality of some crop products are offering some important examples of a possible routinary application of MAS. For more complex traits, like yield and abiotic stress tolerance, a number of constraints have determined severe limitations on an efficient utilizationof MAS in plant breeding, even if there are a few successful applications in improving quantitative traits. Recent advances in genotyping technologies together with comparative and functional genomic approaches are providing useful tools for the selection of genotypes with superior agronomical performancies.
2005
82
317
342
Marker assisted selection in crop plants / Francia, Enrico; G., Tacconi; C., Crosatti; D., Bulgarelli; Barabaschi, Delfina; E., Dall'Aglio; Vale', Giampiero. - In: PLANT CELL TISSUE AND ORGAN CULTURE. - ISSN 0167-6857. - STAMPA. - 82:(2005), pp. 317-342. [10.1007/s11240-005-2387-z]
Francia, Enrico; G., Tacconi; C., Crosatti; D., Bulgarelli; Barabaschi, Delfina; E., Dall'Aglio; Vale', Giampiero
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11380/452188
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