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Chromosome substitutions of Triticum timopheevii in common wheat and some observations on the evolution of polyploid wheat species (1996)

Brown-Guedira, G. L. ; Badaeva, E. D. ; Gill, B. S. ; [et al.]

Springer

Theoretical and applied genetics 93 (1996), S. 1291-1298

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ISSN: 1432-2242

Keywords: Triticum timopheevii ; Triticum aestivum ; Chromosome substitution ; C-banding

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Whether the two tetraploid wheat species, the well known Triticum turgidum L. (macaroni wheat, AABB genomes) and the obscure T. timopheevii Zhuk. (AtAtGG), have monophyletic or diphyletic origin from the same or different diploid species presents an interesting evolutionary problem. Moreover, T. timopheevii and its wild form T. araraticum are an important genetic resource for macaroni and bread-wheat improvement. To study these objectives, the substitution and genetic compensation abilities of individual T. timopheevii chromosomes for missing chromosomes of T. aestivum ‘Chinese Spring’ (AABBDD) were analyzed. ‘Chinese Spring’ aneuploids (nullisomic-tetrasomics) were crossed with a T. timopheevii x Aegilops tauschii amphiploid to isolate T. timopheevii chromosomes in a monosomic condition. The F1 hybrids were backcrossed one to four times to Chinese Spring aneuploids without selection for the T. timopheevii chromosome of interest. While spontaneous substitutions involving all At- and G-genome chromosomes were identified, the targeted T. timopheevii chromosome was not always recovered. Lines with spontaneous substitutions from T. timopheevii were chosen for further backcrossing. Six T. timopheevii chromosome substitutions were isolated: 6At (6A), 2G (2B), 3G (3B), 4G (4B), 5G (5B) and 6G (6B). The substitution lines had normal morphology and fertility. The 6At of T. timopheevii was involved in a translocation with chromosome 1G, resulting in the transfer of the group-1 gliadin locus to 6At. Chromosome 2G substituted for 2B at a frequency higher than expected and may carry putative homoeoalleles of gametocidal genes present on group-2 chromosomes of several alien species. Our data indicate a common origin for tetraploid wheat species, but from separate hybridization events because of the presence of a different spectrum of intergenomic translocations.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00223462

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Expectations of means and genetic variances in backcross populations (1984)

Cox, T. S.

Springer

Theoretical and applied genetics 68 (1984), S. 35-41

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ISSN: 1432-2242

Keywords: Introgression ; Population size ; Sampling ; Backcrossing ; Linkage

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The genetic variance among F2-derived lines of backcrosses (BCgF2-derived lines) depends on the backcross generation (g), the number of F1 plants crossed and selfed in generations 1 through g, and the number of BCgF2-derived lines evaluated. Additive genetic variance decreases linearly with backcrossing when one BCF1 plant per generation is crossed and selfed. The relationship is curvilinear if more than one BCF1 plant is used; as the number of BCF1 plants increases, additive genetic variance among BC1F2-derived lines approaches that among BC0F2-derived lines. The effect of population size on genetic variance is due both to fixation of alleles in previous generations and to sampling of genotypes in the population being evaluated. Dominance and repulsion linkage can cause small increases in genetic variance from BC0 to BC1.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00252308

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Genetic variance and drift in selfed and intermated populations derived from backcrossing (1984)

Cox, T. S.

Springer

Theoretical and applied genetics 68 (1984), S. 183-186

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ISSN: 1432-2242

Keywords: Genetic variance ; Genetic drift ; Backcrossings ; Population size ; Selection

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The genetic variance among random-mated lines derived from backcrossing (BCgS1 lines) depends upon the backcross generation (g) and the number (n) of BCgF1 plants crossed in generations 1 through g. There is little effect of n on genetic variance for n 〉 6. The genetic variance among BCgF2-derived lines is greater than that among BCgS1 lines for all g. If either BCgF2-derived or BCgS1 lines are used as a base population for recurrent selection, 8, 16, 32, and 64 BC1F1, BC2F1, BC3F1, and BC4F1 plants, respectively, should be used to avoid loss of donor alleles to drift.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00252336

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