Ting Xiong scite author profile

-Twelve Chinese indigenous goat populations were genotyped for twenty-six microsatellite markers recommended by the EU Sheep and Goat Biodiversity Project. A total of 452 goats were tested. Seventeen of the 26 microsatellite markers used in this analysis had four or more alleles. The mean expected heterozygosity and the mean observed heterozygosity for the population varied from 0.611 to 0.784 and 0.602 to 0.783 respectively. The mean F ST (0.105) demonstrated that about 89.5% of the total genetic variation was due to the genetic differentiation within each population. A phylogenetic tree based on the Nei (1978) standard genetic distance displayed a remarkable degree of consistency with their different geographical origins and their presumed migration throughout China. The correspondence analysis did not only distinguish population groups, but also confirmed the above results, classifying the important populations contributing to diversity. Additionally, some specific alleles were shown to be important in the construction of the population structure. The study analyzed the recent origins of these populations and contributed to the knowledge and genetic characterization of Chinese indigenous goat populations. In addition, the seventeen microsatellites recommended by the EU Sheep and Goat Biodiversity Project proved to be useful for the biodiversity studies in goat breeds.genetic relationship / microsatellite / goat / Chinese indigenous population

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Genetic variation analysis within and among Chinese indigenous swine populations using microsatellite markers

Fan

Wang

et al. 2002

Animal Genetics

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The genetic structure of five types of Taihu pig (Erhualian, Middle Meishan, Small Meishan, Mizhu and Shawutou), Jiangquhai and Dongchuan pigs in China were investigated, by means of 27 microsatellite markers proposed by the Food and Agriculture Organisation, International Society for Animal Genetics (FAO-ISAG). The Hardy-Weinberg equilibrium test indicated that genetic drift had occurred in these populations, which may be caused by founder effects, intensive selection and close breeding. Genetic heterozygosity and the effective number of alleles per population were calculated, and showed that the genetic variability of the Jiangquhai pig was the largest, while the Small Meishan had the lowest. Genetic differentiation was within each population as shown by the fixation index (F(ST)=0.18). Both a neighbour-joining (NJ) tree constructed from Nei's standard genetic distance and principal component analysis based on allele frequencies can distinguish types of Taihu pig from the other two breeds. Among Taihu pig populations, Erhualian and Mizhu grouped into one branch, while Middle Meishan, Small Meishan and Shawutou clustered as another branch. By including previously published data on European pigs reported, we confirmed that Chinese indigenous pigs and European pigs have diverged into two distinct groups.

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Genetic variation and relationships of eighteen Chinese indigenous pig breeds

et al. 2003

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-Chinese indigenous pig breeds are recognized as an invaluable component of the world's pig genetic resources and are divided traditionally into six types. Twenty-six microsatellite markers recommended by the FAO (Food and Agriculture Organization) and ISAG (International Society of Animal Genetics) were employed to analyze the genetic diversity of 18 Chinese indigenous pig breeds with 1001 individuals representing five types, and three commercial breeds with 184 individuals. The observed heterozygosity, unbiased expected heterozygosity and the observed and effective number of alleles were used to estimate the genetic variation of each indigenous breed. The unbiased expected heterozygosity ranged between 0.700 (Mashen) and 0.876 (Guanling), which implies that there is an abundant genetic variation stored in Chinese indigenous pig breeds. Breed differentiation was shown by fixation indices (F IT , F IS , and F ST ). The F ST per locus varied from 0.019 (S0090) to 0.170 (SW951), and the average F ST of all loci was 0.077, which means that most of the genetic variation was kept within breeds and only a little of the genetic variation exists between populations. The Neighbor-Joining tree was constructed based on the Nei D A (1978) distances and one large cluster with all local breeds but the Mashen breed, was obtained. Four smaller sub-clusters were also found, which included two to four breeds each. These results, however, did not completely agree with the traditional type of classification. A Neighbor-Joining dendrogram of individuals was established from the distance of ln(proportions of shared alleles); 92.14% of the individuals were clustered with their own breeds, which implies that this method is useful for breed demarcation. This extensive research on pig genetic diversity in China indicates that these 18 Chinese indigenous breeds may have one common ancestor, helps us to better understand the relative distinctiveness of pig genetic resources, and will assist in developing a national plan for the conservation and utilization of Chinese indigenous pig breeds.

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Genetic diversity analyses of 10 indigenous Chinese pig populations based on 20 microsatellites1

Yang

Zhao

et al. 2004

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To study the genetic diversity of Chinese indigenous pig breeds, a total of 403 pigs from 10 local populations and 1 exotic Duroc breed were genotyped for 20 microsatellite markers. Heterozygosity and Wright's F-statistics (F(IS), F(ST), and F(IT)) were calculated to determine the genetic variation in those populations. The observed heterozygosities were in the range of 0.31 (Duroc) to 0.66 (Shengxian). The F(IS) value was in a range of -0.07 to 0.48. The mean F(ST) showed that approximately 78% of the genetic variation was within-population and 22% was across the populations. The 10 Chinese local breeds were classified into two major groups according to the phylogenetic tree, which was based on standard genetic distance. Four pig populations, Jianli, Ganxi Two Ends Black, Shaziling, and Dongshan were grouped into one branch. Before the study, these four populations were all classified as Central China Two Ends Black according to coat color, shape of the head, and shape of the ear. The Jinhua pig, which also has the two-ends-black coat color, was also grouped to the same branch but was not traditionally classified into this type. The five populations were located in various provinces in central China. The other five populations, Nanyang Black, Hainan Spotted, Huainan Black, Jiaxing Black, and Shengxian Spotted (black body, white feet), were grouped into another branch. The two groups of pig breeds had the same F(ST) value (0.14) when calculated separately. This value was similar to that of Iberian pigs (0.13) but smaller than that of the European pigs (0.27) as reported by other researchers. Our study showed that large genetic differentiation exists in Chinese pig breeds. The grouping of the five two-ends-black populations into one branch of the phylogenetic tree may indicate that the number of conservation farms can be decreased for this type of pig.

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Ting Xiong

Effect of high intensity ultrasound on structure and foaming properties of pea protein isolate

Genetic relationships among twelve Chinese indigenous goat populations based on microsatellite analysis

Genetic variation analysis within and among Chinese indigenous swine populations using microsatellite markers

Genetic variation and relationships of eighteen Chinese indigenous pig breeds

Genetic diversity analyses of 10 indigenous Chinese pig populations based on 20 microsatellites1

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