Extreme genetic differences among populations of Gazella granti, Grant's gazelle in Kenya

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Extreme genetic differences among populations of Gazella granti, Grant's gazelle in Kenya. / Arctander, P; Kat, P W; Aman, R A; Siegismund, H R.

In: Heredity, Vol. 76 ( Pt 5), 1996, p. 465-75.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Arctander, P, Kat, PW, Aman, RA & Siegismund, HR 1996, 'Extreme genetic differences among populations of Gazella granti, Grant's gazelle in Kenya', Heredity, vol. 76 ( Pt 5), pp. 465-75.

APA

Arctander, P., Kat, P. W., Aman, R. A., & Siegismund, H. R. (1996). Extreme genetic differences among populations of Gazella granti, Grant's gazelle in Kenya. Heredity, 76 ( Pt 5), 465-75.

Vancouver

Arctander P, Kat PW, Aman RA, Siegismund HR. Extreme genetic differences among populations of Gazella granti, Grant's gazelle in Kenya. Heredity. 1996;76 ( Pt 5):465-75.

Author

Arctander, P ; Kat, P W ; Aman, R A ; Siegismund, H R. / Extreme genetic differences among populations of Gazella granti, Grant's gazelle in Kenya. In: Heredity. 1996 ; Vol. 76 ( Pt 5). pp. 465-75.

Bibtex

@article{121448c0cd0611dd9473000ea68e967b,
title = "Extreme genetic differences among populations of Gazella granti, Grant's gazelle in Kenya",
abstract = "Mitochondrial DNA (mtDNA) control region sequences from six Kenyan Grant's gazelle (Gazella granti) populations were highly divergent among locations. Neighbouring populations not separated by geographical or vegetational barriers exhibited and nucleotide sequence divergence about 14 per cent. A similar level of divergence separates Grant's gazelles from a closely related species, the Soemmering's gazelle (G. soemmeringii). Nuclear microsatellite repeat number variation at two loci also indicated substantial population genetic differentiation. Despite high levels of sequence divergence populations of Grant's gazelles were more closely related to each other than to Soemmering's and Thompson's gazelles (G. thomsoni) as measured by nucleotide sequence divergence at the mtDNA protein coding cytochrome b gene and the nuclear alpha-lactalbumin gene. This pattern of extensive differentiation is hypothesized to have resulted from recently established contacts between formerly allopatric populations.",
author = "P Arctander and Kat, {P W} and Aman, {R A} and Siegismund, {H R}",
note = "Keywords: Alleles; Animals; Antelopes; Base Sequence; DNA Primers; DNA, Mitochondrial; Ecology; Gene Frequency; Genetic Variation; Geography; Kenya; Lactalbumin; Molecular Sequence Data; Phylogeny; Polymerase Chain Reaction; Species Specificity",
year = "1996",
language = "English",
volume = "76 ( Pt 5)",
pages = "465--75",
journal = "Heredity",
issn = "0018-067X",
publisher = "nature publishing group",

}

RIS

TY - JOUR

T1 - Extreme genetic differences among populations of Gazella granti, Grant's gazelle in Kenya

AU - Arctander, P

AU - Kat, P W

AU - Aman, R A

AU - Siegismund, H R

N1 - Keywords: Alleles; Animals; Antelopes; Base Sequence; DNA Primers; DNA, Mitochondrial; Ecology; Gene Frequency; Genetic Variation; Geography; Kenya; Lactalbumin; Molecular Sequence Data; Phylogeny; Polymerase Chain Reaction; Species Specificity

PY - 1996

Y1 - 1996

N2 - Mitochondrial DNA (mtDNA) control region sequences from six Kenyan Grant's gazelle (Gazella granti) populations were highly divergent among locations. Neighbouring populations not separated by geographical or vegetational barriers exhibited and nucleotide sequence divergence about 14 per cent. A similar level of divergence separates Grant's gazelles from a closely related species, the Soemmering's gazelle (G. soemmeringii). Nuclear microsatellite repeat number variation at two loci also indicated substantial population genetic differentiation. Despite high levels of sequence divergence populations of Grant's gazelles were more closely related to each other than to Soemmering's and Thompson's gazelles (G. thomsoni) as measured by nucleotide sequence divergence at the mtDNA protein coding cytochrome b gene and the nuclear alpha-lactalbumin gene. This pattern of extensive differentiation is hypothesized to have resulted from recently established contacts between formerly allopatric populations.

AB - Mitochondrial DNA (mtDNA) control region sequences from six Kenyan Grant's gazelle (Gazella granti) populations were highly divergent among locations. Neighbouring populations not separated by geographical or vegetational barriers exhibited and nucleotide sequence divergence about 14 per cent. A similar level of divergence separates Grant's gazelles from a closely related species, the Soemmering's gazelle (G. soemmeringii). Nuclear microsatellite repeat number variation at two loci also indicated substantial population genetic differentiation. Despite high levels of sequence divergence populations of Grant's gazelles were more closely related to each other than to Soemmering's and Thompson's gazelles (G. thomsoni) as measured by nucleotide sequence divergence at the mtDNA protein coding cytochrome b gene and the nuclear alpha-lactalbumin gene. This pattern of extensive differentiation is hypothesized to have resulted from recently established contacts between formerly allopatric populations.

M3 - Journal article

C2 - 8666544

VL - 76 ( Pt 5)

SP - 465

EP - 475

JO - Heredity

JF - Heredity

SN - 0018-067X

ER -

ID: 9225831