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The effects of mating design on introgression between chromosomally divergent sunflower species (1996)

Rieseberg, L. H. ; Arias, D. M. ; Ungerer, M. C. ; [et al.]

Springer

Theoretical and applied genetics 93 (1996), S. 633-644

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ISSN: 1432-2242

Keywords: Sunflower ; H. annuus ; Random amplified polymorphic DNA (RAPD) ; Introgression ; Plant breeding

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Population genetic theory suggests that mating designs employing one or more generations of sib-crossing or selfing prior to backcrossing are more effective than backcrossing alone for moving alleles across linkage groups where effective recombination rates are low (e.g., chromosomally divergent linkages). To test this hypothesis, we analyzed the effects of chromosomal structural differences and mating designs on the frequency and genomic distribution of introgressed markers using the domesticated sunflower, Helianthus annuus, and one of its wild relatives, H. petiolaris, as the experimental system. We surveyed 170 progeny, representing the end products of three different mating designs (design I, P-F1-BC1-BC2-F2-F3; design II, P-F1-F2-BC1-BC2-F3; and design III, P-F1-F2-F3-BC1-BC2), for 197 parental RAPD markers of known genomic location. Comparison of observed patterns of introgression with expectations based on simulations of unrestricted introgression revealed that much of the genome was protected from introgression regardless of mating design or chromosomal structural differences. Although the simulations indicated that all markers should introgress into multiple individuals in each of the three mating designs, 20 of 58 (34%) markers from collinear linkage groups, and 112 of 139 (81%) markers from rearranged linkage groups did not introgress. In addition, the average size of introgressed fragments (12.2 cM) was less than half that predicted by theoretical models (26–33 cM). Both of these observations are consistent with strong selection against introgressed linkage blocks, particularly in chromosomally divergent linkages. Nonetheless, mating designs II and III, which employed one and two generations of sib-mating, respectively, prior to backcrossing, were significantly more effective at moving alleles across both collinear and rearranged linkages than mating design I, in which the backcross generations preceded sib-mating. Thus, breeding strategies that include sib-crossing, in combination with backcrossing, should significantly increase the effectiveness of gene transfer across complex genic or chromosomal sterility barriers.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00417959

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The effects of mating design on introgression between chromosomally divergent sunflower species (1996)

Rieseberg, L. H. ; Arias, D. M. ; Ungerer, M. C. ; [et al.]

Springer

Theoretical and applied genetics 93 (1996), S. 633-644

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Details

ISSN: 1432-2242

Keywords: Key words Sunflower ; H. annuus ; Random amplified polymorphic DNA (RAPD) ; Introgression ; Plant breeding

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Population genetic theory suggests that mating designs employing one or more generations of sib-crossing or selfing prior to backcrossing are more effective than backcrossing alone for moving alleles across linkage groups where effective recombination rates are low (e.g., chromosomally divergent linkages). To test this hypothesis, we analyzed the effects of chromosomal structural differences and mating designs on the frequency and genomic distribution of introgressed markers using the domesticated sunflower, Helianthus annuus, and one of its wild relatives, H. petiolaris, as the experimental system. We surveyed 170 progeny, representing the end products of three different mating designs (design I, P-F1-BC1-BC2-F2- F3; design II, P-F1-F2-BC1-BC2-F3; and design III, P-F1-F2-F3-BC1-BC2), for 197 parental RAPD markers of known genomic location. Comparison of observed patterns of introgression with expectations based on simulations of unrestricted introgression revealed that much of the genome was protected from introgression regardless of mating design or chromosomal structural differences. Although the simulations indicated that all markers should introgress into multiple individuals in each of the three mating designs, 20 of 58 (34%) markers from collinear linkage groups, and 112 of 139 (81%) markers from rearranged linkage groups did not introgress. In addition, the average size of introgressed fragments (12.2 cM) was less than half that predicted by theoretical models (26–33 cM). Both of these observations are consistent with strong selection against introgressed linkage blocks, particularly in chromosomally divergent linkages. Nonetheless, mating designs II and III, which employed one and two generations of sib-mating, respectively, prior to backcrossing, were significantly more effective at moving alleles across both collinear and rearranged linkages than mating design I, in which the backcross generations preceded sib-mating. Thus, breeding strategies that include sib-crossing, in combination with backcrossing, should significantly increase the effectiveness of gene transfer across complex genic or chromosomal sterility barriers.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001220050326

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The effects of non-homology in RAPD bands on similarity and multivariate statistical ordination in Brassica and Helianthus (1998)

Adams, R. P. ; Rieseberg, L. H.

Springer

Theoretical and applied genetics 97 (1998), S. 323-326

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ISSN: 1432-2242

Keywords: Key words RAPD ; DNA fingerprinting ; Homology ; Statistics ; Classification

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract In order to estimate the impact of mis-coding non-homologous, co-migrating DNA bands as homologous, two sets of data were utilized. Analyses were conducted using three Helianthus species in which each co-migrating band had previously been confirmed. Comparisons of the similarities between these three Helianthus species using the original 177 RAPD bands and the corrected, homology verified, 197 RAPD band data set revealed that the triangular relationship among these three species was almost identical in both data sets. The non-homology errors in the Helianthanus data sets were found to be random. These random errors merely reduced the absolute similarities, but not the relative similarities nor the relationships among the taxa, in principal-coordinate-analysis ordination. Analyses of RAPDs for the classical Brassica U triangle were made by inserting random non-homologies for 5, 10, 15 and 20% of the original 220 RAPD bands. These analyses revealed a progressive decrease in similarities and less loading on the first two axes in principal coordinate analysis (PCO). However, the basic U triangle of relationships among these six Brassica species was maintained. It appears that if errors in homology of co-migrating DNA bands are random, this will have little effect on the relative similarities and on PCO ordination. This helps explain the successful use of RAPDs at the specific level.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001220050902

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