1984
DOI: 10.1007/bf00021890
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Interaction among sporophytic S loci in self-incompatible garden chrysanthemums

Abstract: Certain parent-progeny crosses were studied to determine whether several S loci acted independently or epistatically to produce incompatibility in garden chrysanthemums, Chrysanthemum morifolium RAMAT . The ratios of compatible : incompatible crosses with the original parent, as the pollen parent, were nearly 1 :3, 1 :1, and 1 :1 for the I,, backcross (BC), and BCF2 generations, respectively . In particular, crosses between each progeny and the original parent showed that the number of compatible crosses was m… Show more

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Cited by 13 publications
(6 citation statements)
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“…Additionally, it could be superior to selfing since sib-mating is a mild form of recombinant inbreeding (Anderson et al, 1992) and permits the breeder to select for strong SI and high outcross seed set simultaneously, thereby producing strongly SI parents for F1 hybrid seed production. These full-sibs were created by the breeding scheme developed by Stephens et al (1984) and crossed as follows: SIx mid PSC (84-161-28 x 17), SI x lowPSC (83-76-33 x 24), low PSC × SI (85-312-3 x 6), low PSC x low PSC (85-92-61 × 51; 85-341-4 × 9), and high PSC × low PSC (83-263-1 x 6).…”
Section: Methodsmentioning
confidence: 99%
“…Additionally, it could be superior to selfing since sib-mating is a mild form of recombinant inbreeding (Anderson et al, 1992) and permits the breeder to select for strong SI and high outcross seed set simultaneously, thereby producing strongly SI parents for F1 hybrid seed production. These full-sibs were created by the breeding scheme developed by Stephens et al (1984) and crossed as follows: SIx mid PSC (84-161-28 x 17), SI x lowPSC (83-76-33 x 24), low PSC × SI (85-312-3 x 6), low PSC x low PSC (85-92-61 × 51; 85-341-4 × 9), and high PSC × low PSC (83-263-1 x 6).…”
Section: Methodsmentioning
confidence: 99%
“…Chrysanthemum has a strong selfincompatibility system, thus causing many crosses between related or unrelated individuals to be unsuccessful. Usually only between 5 and 50 per cent of crosses between sibs in an F1 are compatible (Drewlow et at., 1973;Ronald & Ascher, 1975;Zagorski et at., 1983;Stephens et at., 1984). The genetics of the sporophytic self-incompatibility system is not completely resolved but probably several loci are involved (more than two) and there is dominance of alleles (Zagorski et at., 1983;Stephens et at., 1984).…”
Section: Introductionmentioning
confidence: 99%
“…Of six crosses performed over the 2006 crossing season, the number of seeds produced per inflorescence varied from 44 to 140 (mean, 103), demonstrating that this was a compatible cross, as predicted. This result demonstrates that inbreeding by using full-sib crosses is feasible following a similar proposed scheme for garden chrysanthemum (Stephens et al, 1984). Identification of S 2.2 and S 1.2 genotypes among sibs should be relatively easy because of the roughly 1:1 genetic ratio of S 1.2 :S 2.2 genotypes in each sexual generation, assuming that all populations of E. purpurea have a sporophytic SI system with similar dominance relationships.…”
Section: Resultsmentioning
confidence: 76%
“…Parent-offspring backcrosses can be used to determine the type of SI system operating within a species (Stephens et al, 1984). Three types of crossing schemes served as the experimental framework to distinguish between gametophytic and sporophytic SI in a backcrossing scheme (Fig.…”
Section: Methodsmentioning
confidence: 99%