Kenta Nomura scite author profile

In this study, 30 microsatellite markers recommended by the International Society for Animal Genetics and the Food and Agriculture Organization were used to determine the extent of genetic differentiation and phylogenetic relationships among indigenous chicken populations sampled in Kenya, Uganda, Ethiopia and Sudan. Genetic differentiation (F(ST)) and chord genetic distances (D(C)) indicated that the indigenous chickens were genetically related but distinct from commercial broiler and egg layer lines. Genetic divergence among the indigenous chickens determined using the Mantel test was significantly influenced (P < 0.001) by geographic (reproductive) isolation. Genetic subdivisions were found between the Kenyan/Ugandan chicken populations and Ethiopian/Sudanese chicken populations. The Marsabit chicken population from northern Kenya was the most genetically distinct population within the Kenyan and Ugandan chicken cluster, thus warranting further investigation.

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Cytogenetic anchoring of radiation hybrid and virtual maps of sheep chromosome X and comparison of X chromosomes in sheep, cattle, and human

Goldammer¹,

Brunner²,

Rebl³

et al. 2009

Chromosome Res

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A comprehensive physical map was generated for Ovis aries chromosome X (OARX) based on a cytogenomics approach. DNA probes were prepared from bacterial artificial chromosome (BAC) clones from the CHORI-243 sheep library and were assigned to G-banded metaphase spreads via fluorescence in-situ hybridization (FISH). A total of 22 BACs gave a single hybridization signal to the X chromosome and were assigned out of 32 tested. The positioned BACs contained 16 genes and a microsatellite marker which represent new cytogenetically mapped loci in the sheep genome. The gene and microsatellite loci serve to anchor between the existing radiation hybrid (RH) and virtual sheep genome (VSG) maps to the cytogenetic OARX map, whilst the BACs themselves also serve as anchors between the VSG and the cytogenetic maps. An additional 17 links between the RH and cytogenetic maps are provided by BAC end sequence (BES) derived markers that have also been positioned on the RH map. Comparison of the map orders for the cytogenetic, RH, and virtual maps reveals that the orders for the cytogenetic and RH maps are most similar, with only one locus, represented by BAC CH243-330E18, mapping to relatively different positions. Several discrepancies, including an inverted segment are found when comparing both the cytogenetic and RH maps with the virtual map. These discrepancies highlight the value of using physical mapping methods to inform the process of future in silico map construction. A detailed comparative analysis of sheep, human, and cattle mapping data allowed the construction of a comparative map that confirms and expands the knowledge about evolutionary conservation and break points between the X chromosomes of the three mammalian species.

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Reconstructing the origin and dispersal patterns of village chickens across East Africa: insights from autosomal markers

et al. 2013

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Unravelling the genetic history of any livestock species is central to understanding the origin, development and expansion of agricultural societies and economies. Domestic village chickens are widespread in Africa. Their close association with, and reliance on, humans for long-range dispersal makes the species an important biological marker in tracking cultural and trading contacts between human societies and civilizations across time. Archaezoological and linguistic evidence suggest a complex history of arrival and dispersion of the species on the continent, with mitochondrial DNA (mtDNA) D-loop analysis revealing the presence of five distinct haplogroups in East African village chickens. It supports the importance of the region in understanding the history of the species and indirectly of human interactions. Here, through a detailed analysis of 30 autosomal microsatellite markers genotyped in 657 village chickens from four East African countries (Kenya, Uganda, Ethiopia and Sudan), we identify three distinct autosomal gene pools (I, II and III). Gene pool I is predominantly found in Ethiopia and Sudan, while II and III occur in both Kenya and Uganda. A gradient of admixture for gene pools II and III between the Kenyan coast and Uganda's hinterland (P = 0.001) is observed, while gene pool I is clearly separated from the other two. We propose that these three gene pools represent genetic signatures of separate events in the history of the continent that relate to the arrival and dispersal of village chickens and humans across the region. Our results provide new insights on the history of chicken husbandry which has been shaped by terrestrial and maritime contacts between ancient and modern civilizations in Asia and East Africa.

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An ovine whole‐genome radiation hybrid panel used to construct an RH map of ovine chromosome 9

Nomura

Goldammer

et al. 2007

Animal Genetics

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A High-Resolution Radiation Hybrid Map of Sheep Chromosome X and Comparison with Human and Cattle

Goldammer

Brunner²,

Rebl³

et al. 2009

Cytogenet Genome Res

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A radiation hybrid (RH) map of sheep X chromosome (Ovisaries; OARX) containing 146 physically anchored loci was generated in this study, providing information for comparative X chromosome analysis between the maps of sheep, human, and cattle. Primers typed on the USUoRH5000 ovine whole-genome radiation hybrid panel were designed from sequences predicted to be on the ovine X chromosome, based on comparative mapping within the virtual sheep genome browser (v1.2). The resulting RH map for the ovine X chromosome consists of 4 linkage groups composed of 76 BAC end sequences (BES), 28 gene loci that were confirmed within ovine BAC clones in the CHORI-243 ovine BAC library, 28 additional gene loci from the ovine comparative map and 14 polymorphic sequence tagged sites (STS) from the OARX linkage map. This first-generation RH map of OARX contributes to the expansion of a comprehensive ovine genome map for sheep and provides evidence of rearrangements in loci order compared to the human and cattle orders.

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Kenta Nomura

Genetic relationships among Kenyan and other East African indigenous chickens

Cytogenetic anchoring of radiation hybrid and virtual maps of sheep chromosome X and comparison of X chromosomes in sheep, cattle, and human

Reconstructing the origin and dispersal patterns of village chickens across East Africa: insights from autosomal markers

An ovine whole‐genome radiation hybrid panel used to construct an RH map of ovine chromosome 9

A High-Resolution Radiation Hybrid Map of Sheep Chromosome X and Comparison with Human and Cattle

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