Evolutionary pattern of the presence and absence genes in Fragaria species

Presence and absence polymorphisms (PAPs) exist extensively and have been investigated in different organisms. However, PAPs have rarely been detected between strawberry species at the genome level. This study identified the presence and absence genes (P/A genes) between wild strawberry species (Fra...

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Bibliographic Details
Published in:Canadian journal of plant science 2022-04, Vol.102 (2), p.427-436
Main Authors: Zhong, Yan, Wang, Ping, Shi, Qinglong, Cheng, Zong-Ming
Format: Article
Language:English
Subjects:
Adaptability
biotic and abiotic stresses
Chromosomes
EF-hand
Fragaria
Fragaria ananassa
Fragaria vesca
fraisier
gene duplication
Genes
Genetic aspects
Genetic polymorphisms
Genomes
Genomics
gènes de présence et d’absence
Plant sciences
presence and absence genes
Protein kinase
Protein kinases
Proteins
répétition des gènes
Species
Strawberries
strawberry
stress biotiques et abiotiques
Telomeres
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Summary:Presence and absence polymorphisms (PAPs) exist extensively and have been investigated in different organisms. However, PAPs have rarely been detected between strawberry species at the genome level. This study identified the presence and absence genes (P/A genes) between wild strawberry species (Fragaria vesca) and octoploid cultivated species (F. × ananassa) under a relatively strict criterion. In total, 333 P/A genes present in the wild strawberry but absent in the cultivated strawberry were detected. Of the P/A genes, 91.89% (306/333) were single genes, and only 8.11% were confirmed as multi-genes. The majority of the identified P/A genes in Fragaria were generated by tandem duplications. The P/A genes were unevenly distributed on the seven chromosomes of woodland strawberry, and they clustered preferentially near the telomeric regions of the chromosomes. The P/A genes tended to encode proteins with domains closely associated with responses to varying ecological factors, such as PPR, Protein kinases (PKs), NB-ARC, F-box and EF-hand domains. This indicated that the P/A genes were associated with coping with biotic and abiotic stresses to improve the adaptability of plants to changing environments.
ISSN:0008-4220
1918-1833
DOI:10.1139/CJPS-2020-0316