We analyzed the two hypervariable segments HVS-I and HVS-II of 108 Chinese Tu ethnic minority group samples for forensic and population genetics purposes, Comparing with Anderson sequence, 79 polymorphic loci in HVS-I...We analyzed the two hypervariable segments HVS-I and HVS-II of 108 Chinese Tu ethnic minority group samples for forensic and population genetics purposes, Comparing with Anderson sequence, 79 polymorphic loci in HVS-I and 40 in HVS-II were found in Chinese Tu ethnic minority group mtDNA sequences, and 90 and 64 haplotypes were then defined. Haplotype diversity and the mean pairwise differences were 0.9903±0.0013 and 5.7785 in HVS-I, and 0.9777±0.0013 and 3.5819 in HVS-II, respectively. By analyzing the hypervariable domain from nucleotide 1,6180 to 1,6193 in HVS-I, we defined some new types of sequence variations. We also compared the relationship between Tu population and other populations using mtDNA HVS-I sequences. According to Rst genetic distances, the phylogenetic tree showed that the Tu population, the Xi'an Han population, the Chinese Korean, and the Mongol ethnic group were in a clade. This indicated a close genetic relationship between them. There were far relations between the Tu population and other Chinese southern Han populations, Siberian, European, African, and other foreign populations. The results suggest that Tu population has a multi-origin and has also merged with other local populations.展开更多
Due to the virtues of no stutter peaks,low rates of mutation,and short amplicon sizes,insertion/deletion(InDei)polymorphism is an indispensable tool for analyzing degraded DNA samples from crime scenes for human ident...Due to the virtues of no stutter peaks,low rates of mutation,and short amplicon sizes,insertion/deletion(InDei)polymorphism is an indispensable tool for analyzing degraded DNA samples from crime scenes for human identifications(Wang et al.,2021).Herein,a self-developed panel of 43 InDei loci constructed previously by our group was utilized to evaluate the genetic diversities and explore the genetic background of the Han Chinese from Beijing(HCB)including 301 random healthy individuals.展开更多
Context:As the increasing number of pet canines,the identification of canine has attracted much attentions in the forensic field,however,the genetic diversities of pet canines still remained unknown.Aims:To explore ge...Context:As the increasing number of pet canines,the identification of canine has attracted much attentions in the forensic field,however,the genetic diversities of pet canines still remained unknown.Aims:To explore genetic polymorphisms of 19 short tandem repeat(STR)loci and genetic relationships between the two studied canine groups and reference group.Subjects and Methods:In the present study,genetic polymorphisms of 19 STR loci and a sex-linked zinc finger locus were analyzed in a total of 594 canines in Standard Poodle and Bichon Frise groups from China.Results:A total of 166,159 alleles were observed in the Standard Poodle,Bichon Frise groups with the corresponding allelic frequencies ranging from 0.0030-0.6108 to 0.0012-0.6148,respectively.The combined discrimination power and probability of exclusion of 19 STR loci in Standard Poodle and Bichon Frise groups were 0.9999999999999497,0.999962884;and 0.99999999999999995,0.999965955,respectively.Furthermore,the genetic distances between the two canine groups and Labrador retriever group were calculated,and the results indicated that Standard Poodle and Bichon Frise groups showed a closer genetic relationship,while the two canine groups had distant genetic relationships with Labrador retriever group.The result of population genetic structure revealed that genetic component distributions in the three canine groups were different.The predicted accuracies of the constructed random forest prediction model for three validation sets(25%individuals randomly selected from three populations with 808 individuals)were higher than 0.9,especially for the individuals in validation set from the Bichon Frise group is 1.Conclusions:The 19 STR loci could be used for individual identification,canine breed identification and paternity testing in the two canine groups.展开更多
文摘We analyzed the two hypervariable segments HVS-I and HVS-II of 108 Chinese Tu ethnic minority group samples for forensic and population genetics purposes, Comparing with Anderson sequence, 79 polymorphic loci in HVS-I and 40 in HVS-II were found in Chinese Tu ethnic minority group mtDNA sequences, and 90 and 64 haplotypes were then defined. Haplotype diversity and the mean pairwise differences were 0.9903±0.0013 and 5.7785 in HVS-I, and 0.9777±0.0013 and 3.5819 in HVS-II, respectively. By analyzing the hypervariable domain from nucleotide 1,6180 to 1,6193 in HVS-I, we defined some new types of sequence variations. We also compared the relationship between Tu population and other populations using mtDNA HVS-I sequences. According to Rst genetic distances, the phylogenetic tree showed that the Tu population, the Xi'an Han population, the Chinese Korean, and the Mongol ethnic group were in a clade. This indicated a close genetic relationship between them. There were far relations between the Tu population and other Chinese southern Han populations, Siberian, European, African, and other foreign populations. The results suggest that Tu population has a multi-origin and has also merged with other local populations.
基金This study was supported by the National Natural Science Foundation of China(No.81373248).
文摘Due to the virtues of no stutter peaks,low rates of mutation,and short amplicon sizes,insertion/deletion(InDei)polymorphism is an indispensable tool for analyzing degraded DNA samples from crime scenes for human identifications(Wang et al.,2021).Herein,a self-developed panel of 43 InDei loci constructed previously by our group was utilized to evaluate the genetic diversities and explore the genetic background of the Han Chinese from Beijing(HCB)including 301 random healthy individuals.
基金supported by Shaanxi Science and Technology Co‑ordination and Innovation Project under Grant(number 2015KTCL03‑03)。
文摘Context:As the increasing number of pet canines,the identification of canine has attracted much attentions in the forensic field,however,the genetic diversities of pet canines still remained unknown.Aims:To explore genetic polymorphisms of 19 short tandem repeat(STR)loci and genetic relationships between the two studied canine groups and reference group.Subjects and Methods:In the present study,genetic polymorphisms of 19 STR loci and a sex-linked zinc finger locus were analyzed in a total of 594 canines in Standard Poodle and Bichon Frise groups from China.Results:A total of 166,159 alleles were observed in the Standard Poodle,Bichon Frise groups with the corresponding allelic frequencies ranging from 0.0030-0.6108 to 0.0012-0.6148,respectively.The combined discrimination power and probability of exclusion of 19 STR loci in Standard Poodle and Bichon Frise groups were 0.9999999999999497,0.999962884;and 0.99999999999999995,0.999965955,respectively.Furthermore,the genetic distances between the two canine groups and Labrador retriever group were calculated,and the results indicated that Standard Poodle and Bichon Frise groups showed a closer genetic relationship,while the two canine groups had distant genetic relationships with Labrador retriever group.The result of population genetic structure revealed that genetic component distributions in the three canine groups were different.The predicted accuracies of the constructed random forest prediction model for three validation sets(25%individuals randomly selected from three populations with 808 individuals)were higher than 0.9,especially for the individuals in validation set from the Bichon Frise group is 1.Conclusions:The 19 STR loci could be used for individual identification,canine breed identification and paternity testing in the two canine groups.
