Self-(in)compatibility in Tunisian apple accessions [Malus domestica. Borkh]: S-genotypes identification and pollen tube growth analysis

Main conclusion Self-incompatibility studies have revealed a potential use of Tunisian apple resources for crop improvement and modern breeding programs and a likely correlation between the pollen tube growth and flowering period. ss Apples [ Malus domestica. Borkh] exhibit an S -RNase-based gametop...

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Bibliographic Details
Published in:Planta 2024-06, Vol.259 (6), p.137-137, Article 137
Main Authors: Abdallah, Donia, Ben Mustapha, Sana, Balti, Imen, Salhi-Hannachi, Amel, Baraket, Ghada
Format: Article
Language:English
Subjects:
Agriculture
Alleles
Apples
Biomedical and Life Sciences
Compatibility
Crop improvement
Ecology
Flowering
Flowers - genetics
Flowers - growth & development
Flowers - physiology
Forestry
Fruits
Gene frequency
Genotype
Genotypes
Incompatibility
Life Sciences
Malus - genetics
Malus - growth & development
Malus - physiology
Malus domestica
Original Article
Plant reproduction
Plant Sciences
Pollen
Pollen - genetics
Pollen - growth & development
Pollen - physiology
Pollen Tube - genetics
Pollen Tube - growth & development
Pollen Tube - physiology
Pollen tubes
Pollination
Population genetics
Ribonucleases - genetics
Ribonucleases - metabolism
Self-incompatibility
Self-Incompatibility in Flowering Plants - genetics
Tunisia
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Summary:Main conclusion Self-incompatibility studies have revealed a potential use of Tunisian apple resources for crop improvement and modern breeding programs and a likely correlation between the pollen tube growth and flowering period. ss Apples [ Malus domestica. Borkh] exhibit an S -RNase-based gametophytic self-incompatibility (GSI) system. Four primer combinations were used to S -genotype eighteen Tunisian local apple accessions and twelve introduced accessions that served as references. Within the Tunisian local accessions, S 2, S 3, S 7, and S 28 S -alleles were the most frequent and were assigned to 14 S -genotypes; among them, S 7 S 28, S 3 S 7, S 2 S 5, and S 2 S 3 were the most abundant. PCA plot showed that population structuring was affected by the S -alleles frequencies and revealed a modern origin of the Tunisian varieties rather than being ancient ones. Nonetheless, the results obtained with 17 SSR markers showed a separate grouping of local Tunisian accessions that calls into question the hypothesis discussed. Pollination experiments showed that the pollen started to germinate within 24 h of pollination but 48 h after pollination in the “El Fessi” accession. The first pollen tubes arrived in the styles within 36 h of pollination in two early flowering accessions known as “Arbi” and “Bokri”, and after 72 h of pollination in late flowering “El Fessi” and 48 h after pollination in remaining accessions. The first pollen tube arrests were observed in accessions “Arbi” and “Bokri” within 84 h of pollination, within 108 h of pollination in “El Fessi” and within 108 h of pollination in remaining accessions. In the apple accession called “Boutabgaya,” the pollen tubes reached the base of the style within 120 h of pollination without being aborted. Nevertheless, the self-compatible nature of “Boutabgaya” needs more studies to be confirmed. However, our results revealed the malfunction of the female component of the GSI in this accession. To conclude, this work paved the path for further studies to enhance the insight (i) into the relation between the flowering period and the pollen tube growth, (ii) self-compatible nature of “Boutabgaya”, and (iii) the origin of the Tunisian apple.
ISSN:0032-0935
1432-2048
DOI:10.1007/s00425-024-04418-x