Two distinct genomic regions, harbouring the period and fruitless genes, affect male courtship song in Drosophila montana

Two distinct genomic regions, harbouring the period and fruitless genes, affect male courtship song in Drosophila montana

Acoustic signals often have a significant role in pair formation and in species recognition. Determining the genetic basis of signal divergence will help to understand signal evolution by sexual selection and its role in the speciation process. An earlier study investigated quantitative trait locus...

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Bibliographic Details
Published in:Heredity Vol. 108; no. 6; pp. 602 - 608
Main Authors: Lagisz, M, Wen, S-Y, Routtu, J, Klappert, K, Mazzi, D, Morales-Hojas, R, Schäfer, M A, Vieira, J, Hoikkala, A, Ritchie, M G, Butlin, R K
Format: Journal Article
Language:English
Published: England Springer Nature B.V 01-06-2012
Nature Publishing Group
Subjects:
Acoustics
Animal communication
Animal reproduction
Animals
chromosome 2
Chromosome Mapping
Courtship
Drosophila - genetics
Drosophila - physiology
Drosophila melanogaster
Drosophila montana
Evolution
Gene mapping
Genes, Insect
Genetic markers
Genetic Variation
Genome, Insect
Genomes
Genomics
Insects
Male
Mate selection
Microsatellite Repeats
Microsatellites
Molecular Sequence Data
Original
Pair bond
Period protein
Quantitative Trait Loci
Sexual Behavior, Animal
Sexual selection
Song
Speciation
Species Specificity
Vocalization, Animal - physiology
X chromosome
X Chromosome - genetics
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Summary:Acoustic signals often have a significant role in pair formation and in species recognition. Determining the genetic basis of signal divergence will help to understand signal evolution by sexual selection and its role in the speciation process. An earlier study investigated quantitative trait locus for male courtship song carrier frequency (FRE) in Drosophila montana using microsatellite markers. We refined this study by adding to the linkage map markers for 10 candidate genes known to affect song production in Drosophila melanogaster. We also extended the analyses to additional song characters (pulse train length (PTL), pulse number (PN), interpulse interval, pulse length (PL) and cycle number (CN)). Our results indicate that loci in two different regions of the genome control distinct features of the courtship song. Pulse train traits (PTL and PN) mapped to the X chromosome, showing significant linkage with the period gene. In contrast, characters related to song pulse properties (PL, CN and carrier FRE) mapped to the region of chromosome 2 near the candidate gene fruitless, identifying these genes as suitable loci for further investigations. In previous studies, the pulse train traits have been found to vary substantially between Drosophila species, and so are potential species recognition signals, while the pulse traits may be more important in intra-specific mate choice.
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Current address: Department of Entomology, South China Agricultural University, Guangzhou 510642, China.
Current address: Aquatic Ecology, Eawag, Duebendorf CH-8600, Switzerland.
Current address: ETH Zürich, Institute of Agricultural Sciences, Applied Entomology, Zürich CH-8092, Switzerland.
Current address: Institute of Evolutionary Biology and Environmental Studies, Universität Zürich, Zürich CH-8057, Switzerland.
Current address: Department of Evolutionary Biology, University of Basel, Basel CH-4051, Switzerland.
ISSN:0018-067X
1365-2540
DOI:10.1038/hdy.2011.129