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Population Structure Analysis (population + structure_analysis)
Selected AbstractsMolecular investigation on strain genetic relatedness and population structure of Beauveria bassianaENVIRONMENTAL MICROBIOLOGY, Issue 10 2003Chengshu Wang Summary Triplicate molecular methods, i.e. polymerase chain reaction-restriction fragment length polymorphism of the pr1 gene, microsatellite markers and 28S rDNA haplotyping by detecting the presence or absence of group I introns, were used for population study of the entomopathogenic fungus, Beauveria bassiana. The findings showed that the average genetic diversity index of geographical populations was significantly smaller than that of populations derived from insect host orders, indicating that the genetic relatedness of B. bassiana strains was highly associated with geographical locality rather than insect host species. The reproductive style of all the B. bassiana populations was found to be non-clonal. Population structure analysis revealed that the average divergent coefficient among populations of B. bassiana was far below 1 (0.1112), which indicated that there was no significant genetic differentiation between populations, and that the overall genetic diversity mainly resulted from the genetic variations within geographical populations. Statistically, genetic distances between populations were positively correlated with geographical distances, suggesting that geographical separation poses an obstacle to the possibility and frequency of genetic exchanges between populations. On the other hand, gene flow was indirectly established to occur between B. bassiana populations. [source] Association analysis of fibre traits in Gossypium arboreum accessionsPLANT BREEDING, Issue 2 2008S. K. Kantartzi Abstract Advances in the use of diploid Asiatic species in cotton breeding require an understanding of the relatedness and ancestry of diploid cotton accessions, and identification of simple sequence repeat (SSR) markers associated with agronomically important phenotypic traits, for example, fibre quality. Fifty-six Gossypium arboreum germplasm accessions introduced from nine regions of Africa, Asia and Europe were evaluated for eight fibre characters (lint percentage, lint colour, elongation, micronaire, strength, 50% span length, 2.5% span length and maturity%) and genotyped with 98 SSR markers. When viewed across all accessions most of the SSR markers were polymorphic. Population structure analysis identified six main clusters for the accessions which corresponded to different geographic regions, indicating agreement between genetic and predefined populations. The general linear model method was used to disclose marker,trait associations. Marker,trait associations were investigated by fitting single marker regression models for phenotypic traits on marker band intensities with correction for population structure. This paper illustrates the potential of association mapping in diploid cotton, because existing phenotypic data, a modest number of SSR markers, and a pioneering statistical analysis, identified interesting associations. [source] Identification of microsatellite DNA markers for population structure analysis in Indian major carp, Cirrhinus mrigala (Hamilton-Buchanan, 1882)JOURNAL OF APPLIED ICHTHYOLOGY, Issue 2 2004K. K. Lal Summary Forty-four primer sequences available for four cyprinid fishes were tested to amplify microsatellite loci in Indian major carp, Cirrhinus mrigala. A total of 12 loci were successfully amplified with clear scorable patterns and five thereof were polymorphic. Suitability of the identified polymorphic loci in population structure analysis of C. mrigala was assessed. Genetic variation was examined in 76 specimens collected from five different rivers. The mean observed heterozygosity ranged from 0.247 to 0.333. Significant heterogeneity in allele frequencies was detected, indicating that the samples analysed did not belong to homogenous populations. The identified microsatellite markers are promising for the analysis of intraspecific divergence in C. mrigala across its distribution range. [source] Genetic diversity and population structure of indigenous yellow cattle breeds of China using 30 microsatellite markersANIMAL GENETICS, Issue 6 2007G. X. Zhang Summary Twenty-seven domesticated yellow cattle breeds of China and three introduced cattle breeds were analysed by means of 30 microsatellite markers to determine the level of genetic variation within and among populations as well as the population structure. In all, 480 microsatellite alleles were observed across the 30 breeds with the mean number of alleles per locus of 9.093 for native breeds and 6.885 for the three introduced breeds. Mean F -statistics (0.08) for Chinese native cattle breeds implied that 92% of the total genetic variation was from genetic differentiation within each breed and 8% of the genetic variation existed among breeds. A phylogenetic tree was constructed based on Nei's genetic distances, and three clusters were obtained. According to the tree, the three introduced breeds were distinct from the 27 native breeds. The indigenous cattle breeds were divided into two clusters, one cluster including five humpless breeds and the other cluster containing 22 humped breeds. This study identifies multiple origins of yellow cattle of China from Bos taurus and Bos indicus. Furthermore, population structure analysis implies that there are possibly five independent original domestications for yellow cattle in China. Four of five origins were four different Bos indicus types, mainly in areas of the Chang Jiang, the Zhu Jiang River basin, the Yellow River and the Huai River basin. The other origin was for Bos taurus type of Mongolian descent, mainly located in Northwestern China, the Mongolian plateau and Northeastern China or north of the Great Wall. [source] | ||||||||||