Allelic diversity at the Mhc-DQA locus of woodmouse populations (Apodemus sylvaticus) present in the islands and mainland of the northern Mediterranean

• Published in: Global ecology and biogeography Vol. 14; no. 2; pp. 115 - 122
• Main Authors: De Bellocq, Joëlle Goüy, Delarbre, Christiane, Gachelin, Gabriel, Morand, Serge
• Format: Journal Article
• Language: English
• Published: Oxford, UK Blackwell Science Ltd 01.03.2005; Blackwell Publishing; Blackwell
• Subjects: Alleles; Animal and plant ecology; Animal, plant and microbial ecology; Apodemus sylvaticus; balancing selection; Biogeography; Biological and medical sciences; Fundamental and applied biological sciences. Psychology; General aspects; Genetic diversity; Genetic loci; Genetic variation; island populations; Major histocompatibility complex genes; Mediterranean; Mhc-DQA locus; Mice; phylogeography; polymorphism; Population ecology; Population genetics; Rodents; Synecology; Rodentia; island populations; Biogeography; Ecology; polymorphism; Biodiversity; Island; phylogeography; Mediterranean; Vertebrata; Mammalia; Geographic distribution; Apodemus sylvaticus; Locus; Mhc-DQA locus; balancing selection
• ISSN: 1466-822X; 1466-8238; 1466-8238
• DOI: 10.1111/j.1466-822X.2005.00143.x

Aim: Polymorphism at neutral markers and at MHC loci in rodent populations living on islands is generally low. The main genetic factors that may contribute to a reduced level of genetic variability are genetic drift, reduced gene flow and founder events. We investigated the pattern of polymorphism at the second exon of the Mhc-DQA gene in island populations of Apodemus sylvaticus and in their mainland counterparts to investigate the pattern of MHC polymorphism in a phylogeographical context and to assess the impact of insularity on diversity at this locus. Location: Eight north Mediterranean populations of Apodemus sylvaticus were studied, including five island populations (Majorca, Minorca, Porquerolles, Port-Cros and Sicily) and three mainland populations. Methods: cDNA sequencing and nucleotide sequences analyses. Synonymous and non-synonymous substitutions were examined at the PBR and non-PBR sites. The DQA allelic distribution in populations was compared with the woodmouse phylogeography. Results: This study presents novel DQA alleles. High polymorphism of the DQA locus is recorded in natural populations of A. sylvaticus with 13 alleles being widely distributed irrespective of the geographical origin and palaeoclimatic history of populations. The DQA locus does not show the expected pattern for non-synonymous substitutions at the PBR sites. However, island populations show a weak loss of polymorphism in comparison with their mainland counterparts. Main conclusions: The DQA locus in the woodmouse seems to be subject to weak selection and does not allow resolution of phylogeographical relationships among European woodmouse populations. The presence of at least three alleles in island populations and the maintenance of five alleles between the two European lineages over 1.5 Myr suggest that balancing selection may act within populations, and more precisely within island populations, to maintain genetic variability. This study shows that phylogeographical studies are a prerequisite for any genetic investigation of selected genes in natural populations.