Preliminary molecular variability among haplotypes of Saudi Arabian house sparrow Passer domesticus
Sayed A. M. Amer, Metwally M. Montaser, Mohammed Shobrak
DOI: 10.4236/oje.2011.13010   PDF   HTML     4,077 Downloads   8,144 Views  


Genetic variability of Passer domesticus from different localities of Saudi Arabia was investigated. Six hundred and fifty nine nucleotides were sequenced from the mitochondrial cytochrome b gene. There was a slight difference among the studied haplotypes and most substitutions were synonymous. In some haplotypes at the west of Arabian Peninsula (mountainous habitat), two transitions only were non-synonymous. The data were used to construct the relationship of the Arabian house sparrow to its con specific taxa from Europe and America. Neigh-bor-joining (NJ), maximum-par-simony (MP) and maximum-likelihood (ML) analytical methods were used. The three methods showed clustering of the Arabian haplotypes in one group and their sister relationship with the haplotypes from Netherlands and America. A spanish Haplotypes came basal to both groups. Collecting more samples and more DNA data could be of necessary to clearly address the genetic variability of this rapidly propagated species in Arabia.

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Amer, S. , Montaser, M. and Shobrak, M. (2011) Preliminary molecular variability among haplotypes of Saudi Arabian house sparrow Passer domesticus. Open Journal of Ecology, 1, 73-76. doi: 10.4236/oje.2011.13010.

Conflicts of Interest

The authors declare no conflicts of interest.


[1] Kekkonen, J., Seppa, P., Hanski, I.K., Jensen, H., Vaisanen, R.A. and Brommer, J.E. (2011) Low genetic differentiation in a sedentary bird: House sparrow population genetics in a contiguous landscape. Heredity, 106, 183-190. doi:10.1038/hdy.2010.32
[2] Summers-Smith, J.D. (1988) The Sparrows: A study of the genus passer. T and AD Poyser, Staffordshire.
[3] Anderson, T.R. (2006) The ubiquitous house sparrow: From genes to populations. Oxford University Press, Ox- ford. doi:10.1093/acprof:oso/9780195304114.001.0001
[4] Barrowclough, G.F. (1983) Biochemical studies of micro- evolutionary processes. In: Brush, A.H. and Clark. J.G.A. Eds., Perspectives in ornithology, University of Cambridge Press, Cambridge, 223-261.
[5] Fleischer, C. (1983) A comparison of theoretical and ele- ctrophoretic assessment of genetic structure in popula- tions of the house sparrow (Passer domesticus). Evolu- tion, 37, 1001-1009. doi:10.2307/2408414
[6] Parkin, D.T. and Cole, S.R. (1985) Genetic differentia- tion and rates of evolution in some populations of the house sparrow (Passer domesticus) in Australia and New Zealand. Heredity, 53, 15-23. doi:10.1038/hdy.1985.4
[7] Bjordal, H., Cole, S.R. and Parkin, D.T. (1986) Genetic differentiation among some populations of the house sparrow Passer domesticus from south-western Norway. Heriditas, 105, 107-114. doi:10.1111/j.1601-5223.1986.tb00648.x
[8] Wetton, J.H., Parkin, T. and Carter, R.E. (1992) The use of genetic markers for parentage analysis in Passer domesticus (house sparrows). Heredity, 69, 243-254. doi:10.1038/hdy.1992.122
[9] Neumann, K. and Wetton, J.H. (1996) Highly polymorphic microsatellites in the house sparrow Passer domesticus. Molecular Ecology, 5, 307-309. doi:10.1111/j.1365-294X.1996.tb00319.x
[10] Griffith, S.C., Stewart, I.R.K., Dawson, D.A., Owens, I.P.F. and Burke, T. (1999) Contrasting levels of extra-pair pa- ternity in mainland and island populations of the house sparrow (Passer domesticus): Is there an ‘island effect’? Biological Journal of the Linnaean Society, 68, 303-316. doi:10.1006/bijl.1999.0343
[11] Griffith, S.C., Dawson, D.A., Jensen, H., Ockendon, N., Greig, C., Neumann, K. and Burke, T. (2007) Fourteen polymorphic microsatellite loci characterized in the house sparrow Passer domesticus (Passeridae, Aves). Molecu- lar Ecology, 7, 333-336.
[12] Allende, L.M., Ruboi, I., Guillén, J., Ruiz-del-Valle, V., Guillen, J., Martinez-Laso, J. and Lowy, E. (2001) The old world sparrows (Genus Passer): Phylogeography and their relative abundance of nuclear mtDNA pseudogenes. Journal of Molecular Evolution, 53, 144-154.
[13] Van der Meij, M.A.A., de Bakker, M.A.G. and Bout, R.G. (2005) Phylogenetic relationships of finches and allies based on nuclear and mitochondrial DNA. Molecular Phylogenetics and Evolution, 34, 97-105. doi:10.1016/j.ympev.2004.09.006
[14] Dor, R. and Lotem, A. (2009) Heritability of nestling begging intensity in the house sparrow (Passer domesticus). Evolution, 63, 738-748. doi:10.1111/j.1558-5646.2008.00598.x
[15] Negro, J.J. and Torres, M.J. (1999) Genetic variability and differentiation of two bearded vulture Gypaetus bar- batus populations and implications for reintroduction projects. Biological Conservation, 87, 249-254. doi:10.1016/S0006-3207(98)00056-1
[16] Edwards, S.V., Arctander, P. and Wilson, A.C. (1991) Mi- tochondrial resolution of a deep branch in the genealogical tree for perching birds. Proceedings: Biological Sciences, 243, 99-107. doi:10.1098/rspb.1991.0017
[17] Swofford, D.L. (2002) PAUP*. Phylogenetic analysis using parsimony (*and Other Methods). 4th Edition, Sunder-land, Sinauer.
[18] Saitou, N. and Nei, M. (1987) The neighbor-joining me- thod: A new method for reconstructing phylogenetic trees. Molecular Biology and Evolution, 4, 406-425.
[19] Evans, P.G.H. (1987) Electrophoretic variability of gene products. In: Cooke, F. and Buckley, P.A. Eds., Avian ge- netics: A population and ecological approach, Academic Press, London, 105-162.
[20] Ward, R.D., Skibinski, D.O.F. and Woodwark, M. (1992) Protein heterozygosity, protein structure, and taxonomic differentiation. Evolutionary Biology, 26, 73-159. doi:10.1007/978-1-4615-3336-8_3
[21] Garnier, S., Durand, P., Arnathau, C., Risterucci, A.M., Es- parza-Salas, R., Cellier-Holzem, E. and Sorci, G. (2009) New polymorphic microsatellite loci in the house sparrow, Passer domesticus. Molecular Ecology Resources, 9, 1063-1065. doi:10.1111/j.1755-0998.2009.02552.x

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