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Identification of genetic factors for alachlor tolerance in maize by molecular markers analysis (1996)

Sari-Gorla, M. ; Rampoldi, L. ; Binelli, G. ; [et al.]

Springer

Molecular genetics and genomics 251 (1996), S. 551-555

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ISSN: 1617-4623

Keywords: Maize ; Herbicide ; Molecular markers ; Gametophytic selection ; Linkage analysis

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Genetic factors controlling tolerance to the herbicide Alachlor in maize were localised by means of two different strategies. In the first approach, backcross (BC) plants, derived from pollen which had been subjected to selective pressure for resistance to the herbicide, were analysed for segregation distortion at 47 RFLP loci and compared to BC plants obtained from non-selected pollen. Preferential transmission of five chromosomal regions where putative QTLs (Quantitative Trait Loci) are localised was revealed in the BC plants from selected pollen. A second approach was based on a classical linkage analysis for segregation of the same set of RFLPs and factors controlling the trait, in a BC population of 210 individuals, by means of regression analysis. This study detected seven significant loci in four genomic regions. Overall, two loci revealed both segregation distortion and association with the expression of the trait, indicating linkage to genes expressed in both gametophytic and sporophytic phase. Three chromosomal regions appeared to carry factors involved in plant tolerance to Alachlor which are not expressed in pollen. Conversely, three loci were linked to factors selectable in pollen, but did not reveal significant association with tolerance in the plant in the segregating populations.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02173644

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Genetic analysis of drought tolerance in maize by molecular markers I. Yield components (1999)

Frova, C. ; Krajewski, P. ; di Fonzo, N. ; [et al.]

Springer

Theoretical and applied genetics 99 (1999), S. 280-288

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ISSN: 1432-2242

Keywords: Key words Zea mays L ; Drought tolerance ; Molecular markers ; Yield components ; Linkage analysis

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Grain yield is a complex trait, strongly influenced by the environment: severe losses can be caused by drought, a stress common in most maize-growing areas, including temperate climatic zones. Accordingly, drought tolerance is one of the main components of yield stability, and its improvement is a major challenge to breeders. The aim of the present work was the identification, in maize genotypes adapted to temperate areas, of genomic segments responsible for the expression of drought tolerance of yield components: ear length, ear weight, kernel weight, kernel number and 50-kernel weight. A linkage analysis between the expression of these traits and molecular markers was performed on a recombinant inbred population of 142 families, obtained by repeated selfing of the F1 between lines B73 and H99. The population, genotyped at 173 loci (RFLPs, microsatellites and AFLPs), was evaluated in well-watered and water-stressed conditions. A drought tolerance index was calculated as the ratio between the mean value of the trait in the two environments. For the traits measured, a highly positive correlation was found over the two water regimes, and more than 50% of the quantitative trait loci (QTLs) detected were the same in both; moreover, the direction of the allelic contribution was always consistent, the allele increasing the trait value being mostly from line B73. Several QTLs were common to two or more traits. For the tolerance index, however, most of the QTLs were specific for a single component and different from those controlling the basic traits; in addition, a large proportion of the alleles increasing tolerance were provided by line H99. The data suggest that drought tolerance for yield components is largely associated with genetic and physiological factors independent from those determining the traits per se. The implications of these results for developing an efficient strategy of marker-assisted selection for drought tolerance are discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001220051233

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