Articles
THE SELF-INCOMPATIBILITY LOCUS OF APRICOT HELPS TO CLARIFY SEVERAL EVOLUTIONARY ASPECTS
Article number
862_35
Pages
227 – 232
Language
English
Abstract
Self-incompatibility of apricot (Prunus armeniaca) is governed by the multi¬allelic S-locus, in which the pistil S-ribonuclease (S-RNase) and the pollen expressed S-haplotype specific F-box (SFB) genes reside.
In apricot, self-compatibility (SC) is due to a loss-of-function mutation within the pollen gene of the SC-haplotype.
Apricot S8-, S9– and SC-haplotypes were analysed using fruit set evaluation, genomic PCRs, RT-PCRs and DNA sequencing of the S-RNase and SFB alleles.
Controlled pollinations revealed that the cross Ceglédi óriás (S8S9) × Ceglédi arany (SCS9) set well, but the reciprocal cross did not.
Sequence analysis revealed that SFB8 is the first known progenitor allele of a naturally occurring SC allele in Prunus. A phylogenetic analysis suggests that SC-haplotype could have evolved in a cultivar with S8Si genotype, where Si is an unidentified incompatibility allele.
The SCS8 Magyarkajszi cultivars might have developed from such a mating.
Several single nucleotide polymorphisms were identified in the SC-RNase and could be used for monitoring apricot dissemination routes between Eastern and Western Europe.
The apricot SC-RNase was subjected to an intron phase analysis revealing some protein evolutionary aspects.
Our results have notable implications for the elucidation of the evolutionary history of present day apricot cultivars and, in general, for the understanding of the transition from self-incompatibility (SI) to self-compatibility.
In apricot, self-compatibility (SC) is due to a loss-of-function mutation within the pollen gene of the SC-haplotype.
Apricot S8-, S9– and SC-haplotypes were analysed using fruit set evaluation, genomic PCRs, RT-PCRs and DNA sequencing of the S-RNase and SFB alleles.
Controlled pollinations revealed that the cross Ceglédi óriás (S8S9) × Ceglédi arany (SCS9) set well, but the reciprocal cross did not.
Sequence analysis revealed that SFB8 is the first known progenitor allele of a naturally occurring SC allele in Prunus. A phylogenetic analysis suggests that SC-haplotype could have evolved in a cultivar with S8Si genotype, where Si is an unidentified incompatibility allele.
The SCS8 Magyarkajszi cultivars might have developed from such a mating.
Several single nucleotide polymorphisms were identified in the SC-RNase and could be used for monitoring apricot dissemination routes between Eastern and Western Europe.
The apricot SC-RNase was subjected to an intron phase analysis revealing some protein evolutionary aspects.
Our results have notable implications for the elucidation of the evolutionary history of present day apricot cultivars and, in general, for the understanding of the transition from self-incompatibility (SI) to self-compatibility.
Authors
J. Halász, A. Pedryc, A. Hegedus
Keywords
crop evolution, intron phase, Prunus armeniaca, SFB, SNP, S-RNase
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