Nuclear DNA diversity in worldwide distributed human populations

Nuclear DNA diversity in worldwide distributed human populations

Nucleotide variation was examined in an 8 kb intronic DNA bordering exon 44 of the human dystrophin gene on Xp21. Thirty-six polymorphisms (substitutions, small insertions/deletions and one (T) n microsatellite) were found using SSCP/heteroduplex analysis of DNA samples from mixed Europeans, Papua N...

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Bibliographic Details
Published in:Gene Vol. 205; no. 1; pp. 161 - 171
Main Authors: Zigtkiewicz, Ewa, Yotova, Vania, Jarnik, Michal, Korab-Laskowska, Maria, Kídd, Kenneth K., Modiano, David, Scozzari, Rosaria, Stoneking, Mark, Tishkoff, Sarah, Batzer, Mark, Labuda, Damian
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 31-12-1997
Subjects:
Ascertainment bias
Cell Nucleus - metabolism
DNA - genetics
DNA polymorphism
Dystrophin
Gene Frequency
Genetic Variation
Human evolution
Humans
Polymorphism, Single-Stranded Conformational
Species Specificity
X Chromosome
Ascertainment bias
DNA polymorphism
Human evolution
SSCP
Dystrophin
PCR
RFLP
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Summary:Nucleotide variation was examined in an 8 kb intronic DNA bordering exon 44 of the human dystrophin gene on Xp21. Thirty-six polymorphisms (substitutions, small insertions/deletions and one (T) n microsatellite) were found using SSCP/heteroduplex analysis of DNA samples from mixed Europeans, Papua New Guineans as well as from six African, three Asian and two Amerindian populations. In this way the European bias in the nuclear polymorphism ascertainment has been avoided. In a maximum likelihood tree constructed from the frequency data, Africans clustered separately from the non-African populations. Fifteen polymorphisms were shared among most of the populations compared, whereas 13 sites were found to be endemic to Africans and four to non-Africans. The common sites contributed most to the average heterozygosity ( H n = 0.101% ±0.023), whereas the endemic ones, being rare, had little effect on this estimate. The F ST , values were lower for Africans (0.072) than for non-Africans (0.158), suggesting a higher level of gene exchange within Africa, corroborating the observation of a greater number of segregating sites on this continent than elsewhere. The data suggest a recent common origin of the African and non-African populations, where a greater geographical isolation of the latter resulted in a smaller number of newly acquired polymorphisms.
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ISSN:0378-1119
1879-0038
DOI:10.1016/S0378-1119(97)00408-3