Inheritance and interactions of incompatibility alleles in the tetraploid sour cherry

Three progenies of sour cherry (Prunus cerasus) were analysed to correlate self-(in)compatibility status with S-RNase phenotype in this allotetraploid hybrid of sweet and ground cherry. Self-(in)compatibility was assessed in the field and by monitoring pollen tube growth after selfing. The S-RNase p...

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Veröffentlicht in:Theoretical and applied genetics 2006, Vol.112 (2), p.315-326
Hauptverfasser: Boskovic, R.I, Wolfram, B, Tobutt, K.R, Cerovic, R, Sonneveld, T
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Sprache:eng
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Zusammenfassung:Three progenies of sour cherry (Prunus cerasus) were analysed to correlate self-(in)compatibility status with S-RNase phenotype in this allotetraploid hybrid of sweet and ground cherry. Self-(in)compatibility was assessed in the field and by monitoring pollen tube growth after selfing. The S-RNase phenotypes were determined by isoelectric focusing of stylar proteins and staining for RNase activity and, for the parents, confirmed by PCR. Seedling phenotypes were generally consistent with disomic segregation of S-RNase alleles. The genetic arrangements of the parents were deduced to be 'Köröser' (self-incompatible) S ₁ S ₄ .S B S D , 'Schattenmorelle' (self-compatible) S ₆ S ₁₃ .S B S B , and clone 43.87 (self-compatible) S ₄ S ₁₃ .S B S B , where “.” separates the two homoeologous genomes. The presence of S ₄ and S ₆ alleles at the same locus led to self-incompatibility, whereas S ₁₃ and S B at homoeologous loci led to self-compatibility. The failure of certain heteroallelic genotypes in the three crosses or in the self-incompatible seedlings indicates that S ₄ and S ₆ are dominant to S B . However, the success of S ₁₃ S B pollen on styles expressing corresponding S-RNases indicates competitive interaction or lack of pollen-S components. In general, the universal compatibility of S ₁₃ S B pollen may explain the frequent occurrence of S ₁₃ and S B together in sour cherry cultivars. Alleles S B and S D , that are presumed to derive from ground cherry, and S ₁₃ , presumably from sweet cherry, were sequenced. Our findings contribute to an understanding of inheritance of self-(in)compatibility, facilitate screening of progenies for self-compatibility and provide a basis for studying molecular interactions in heteroallelic pollen.
ISSN:0040-5752
1432-2242
DOI:10.1007/s00122-005-0130-0