Prevalence and characterisation of size and sequence-based microvariant alleles at nine autosomal STR markers in the Central Indian population
Though microvariant alleles are widely reported in global populations, they are not well characterised to date. To study the prevalence and characterisation of size and sequence-based microvariant alleles Next Generation Sequencing (NGS) was used to sequence microvariant alleles at nine autosomal ST...
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| Published in | Annals of human biology Vol. 48; no. 7-8; pp. 614 - 620 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
England
Taylor & Francis
17.11.2021
Taylor & Francis Group |
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| Online Access | Get full text |
| ISSN | 0301-4460 1464-5033 1464-5033 |
| DOI | 10.1080/03014460.2021.2010804 |
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| Abstract | Though microvariant alleles are widely reported in global populations, they are not well characterised to date.
To study the prevalence and characterisation of size and sequence-based microvariant alleles
Next Generation Sequencing (NGS) was used to sequence microvariant alleles at nine autosomal STR markers in 138 samples.
After sequencing 31 STR markers using Precision ID GlobalFilerTM NGS STR panel v2, only nine markers, i.e. D12S391, D19S433, D1S1656, D21S11, D2S441, D7S820, FGA, Penta D, and TH01 showed the prevalence of microvariant alleles. Occurrence of microvariant alleles was positively correlated with Total Possible Alleles (p < 0.005), Power of Discrimination (p < 0.01), Polymorphic Information Content (p < 0.01), and Power of Exclusion (p < 0.05) and negatively correlated with the Matching Probability (p < 0.01). The average allele frequency of the microvariant alleles was found to be significantly less than the allele frequency value of the complete alleles (p = 0.88). Further, sequencing of these microvariant alleles reveals the deletion of nucleotides from the start, end, or middle of the repeat unit is responsible for the generation of a microvariant allele.
Prevalence of microvariant alleles is rare in nature and is limited to 9 STR loci out of 31 STR loci tested in the central Indian population. The occurrence of microvariant alleles in a locus increases its forensic and paternity application. |
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| AbstractList | Though microvariant alleles are widely reported in global populations, they are not well characterised to date.
To study the prevalence and characterisation of size and sequence-based microvariant alleles
Next Generation Sequencing (NGS) was used to sequence microvariant alleles at nine autosomal STR markers in 138 samples.
After sequencing 31 STR markers using Precision ID GlobalFilerTM NGS STR panel v2, only nine markers, i.e. D12S391, D19S433, D1S1656, D21S11, D2S441, D7S820, FGA, Penta D, and TH01 showed the prevalence of microvariant alleles. Occurrence of microvariant alleles was positively correlated with Total Possible Alleles (p < 0.005), Power of Discrimination (p < 0.01), Polymorphic Information Content (p < 0.01), and Power of Exclusion (p < 0.05) and negatively correlated with the Matching Probability (p < 0.01). The average allele frequency of the microvariant alleles was found to be significantly less than the allele frequency value of the complete alleles (p = 0.88). Further, sequencing of these microvariant alleles reveals the deletion of nucleotides from the start, end, or middle of the repeat unit is responsible for the generation of a microvariant allele.
Prevalence of microvariant alleles is rare in nature and is limited to 9 STR loci out of 31 STR loci tested in the central Indian population. The occurrence of microvariant alleles in a locus increases its forensic and paternity application. Though microvariant alleles are widely reported in global populations, they are not well characterised to date. To study the prevalence and characterisation of size and sequence-based microvariant alleles. Next Generation Sequencing (NGS) was used to sequence microvariant alleles at nine autosomal STR markers in 138 samples. After sequencing 31 STR markers using Precision ID GlobalFilerTM NGS STR panel v2, only nine markers, i.e. D12S391, D19S433, D1S1656, D21S11, D2S441, D7S820, FGA, Penta D, and TH01 showed the prevalence of microvariant alleles. Occurrence of microvariant alleles was positively correlated with Total Possible Alleles ( < 0.005), Power of Discrimination ( < 0.01), Polymorphic Information Content ( < 0.01), and Power of Exclusion ( < 0.05) and negatively correlated with the Matching Probability ( < 0.01). The average allele frequency of the microvariant alleles was found to be significantly less than the allele frequency value of the complete alleles ( = 0.88). Further, sequencing of these microvariant alleles reveals the deletion of nucleotides from the start, end, or middle of the repeat unit is responsible for the generation of a microvariant allele. Prevalence of microvariant alleles is rare in nature and is limited to 9 STR loci out of 31 STR loci tested in the central Indian population. The occurrence of microvariant alleles in a locus increases its forensic and paternity application. Though microvariant alleles are widely reported in global populations, they are not well characterised to date.BACKGROUNDThough microvariant alleles are widely reported in global populations, they are not well characterised to date.To study the prevalence and characterisation of size and sequence-based microvariant alleles.AIMTo study the prevalence and characterisation of size and sequence-based microvariant alleles.Next Generation Sequencing (NGS) was used to sequence microvariant alleles at nine autosomal STR markers in 138 samples.SUBJECTS AND METHODSNext Generation Sequencing (NGS) was used to sequence microvariant alleles at nine autosomal STR markers in 138 samples.After sequencing 31 STR markers using Precision ID GlobalFilerTM NGS STR panel v2, only nine markers, i.e. D12S391, D19S433, D1S1656, D21S11, D2S441, D7S820, FGA, Penta D, and TH01 showed the prevalence of microvariant alleles. Occurrence of microvariant alleles was positively correlated with Total Possible Alleles (p < 0.005), Power of Discrimination (p < 0.01), Polymorphic Information Content (p < 0.01), and Power of Exclusion (p < 0.05) and negatively correlated with the Matching Probability (p < 0.01). The average allele frequency of the microvariant alleles was found to be significantly less than the allele frequency value of the complete alleles (p = 0.88). Further, sequencing of these microvariant alleles reveals the deletion of nucleotides from the start, end, or middle of the repeat unit is responsible for the generation of a microvariant allele.RESULTSAfter sequencing 31 STR markers using Precision ID GlobalFilerTM NGS STR panel v2, only nine markers, i.e. D12S391, D19S433, D1S1656, D21S11, D2S441, D7S820, FGA, Penta D, and TH01 showed the prevalence of microvariant alleles. Occurrence of microvariant alleles was positively correlated with Total Possible Alleles (p < 0.005), Power of Discrimination (p < 0.01), Polymorphic Information Content (p < 0.01), and Power of Exclusion (p < 0.05) and negatively correlated with the Matching Probability (p < 0.01). The average allele frequency of the microvariant alleles was found to be significantly less than the allele frequency value of the complete alleles (p = 0.88). Further, sequencing of these microvariant alleles reveals the deletion of nucleotides from the start, end, or middle of the repeat unit is responsible for the generation of a microvariant allele.Prevalence of microvariant alleles is rare in nature and is limited to 9 STR loci out of 31 STR loci tested in the central Indian population. The occurrence of microvariant alleles in a locus increases its forensic and paternity application.CONCLUSIONSPrevalence of microvariant alleles is rare in nature and is limited to 9 STR loci out of 31 STR loci tested in the central Indian population. The occurrence of microvariant alleles in a locus increases its forensic and paternity application. Background Though microvariant alleles are widely reported in global populations, they are not well characterised to date. Aim To study the prevalence and characterisation of size and sequence-based microvariant alleles Subjects and methods Next Generation Sequencing (NGS) was used to sequence microvariant alleles at nine autosomal STR markers in 138 samples. Results After sequencing 31 STR markers using Precision ID GlobalFilerTM NGS STR panel v2, only nine markers, i.e. D12S391, D19S433, D1S1656, D21S11, D2S441, D7S820, FGA, Penta D, and TH01 showed the prevalence of microvariant alleles. Occurrence of microvariant alleles was positively correlated with Total Possible Alleles (p < 0.005), Power of Discrimination (p < 0.01), Polymorphic Information Content (p < 0.01), and Power of Exclusion (p < 0.05) and negatively correlated with the Matching Probability (p < 0.01). The average allele frequency of the microvariant alleles was found to be significantly less than the allele frequency value of the complete alleles (p = 0.88). Further, sequencing of these microvariant alleles reveals the deletion of nucleotides from the start, end, or middle of the repeat unit is responsible for the generation of a microvariant allele. Conclusions Prevalence of microvariant alleles is rare in nature and is limited to 9 STR loci out of 31 STR loci tested in the central Indian population. The occurrence of microvariant alleles in a locus increases its forensic and paternity application. |
| Author | Dash, Hirak Ranjan Das, Surajit Srivastava, Ankit Vajpayee, Kamayani |
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| Snippet | Though microvariant alleles are widely reported in global populations, they are not well characterised to date.
To study the prevalence and characterisation of... Though microvariant alleles are widely reported in global populations, they are not well characterised to date.BACKGROUNDThough microvariant alleles are widely... Background Though microvariant alleles are widely reported in global populations, they are not well characterised to date. Aim To study the prevalence and... |
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| SubjectTerms | Alleles DNA Fingerprinting forensic and paternity parameters Gene Frequency Genetics, Population Humans Microsatellite Repeats - genetics Microvariant alleles Prevalence sequencing STRs |
| Title | Prevalence and characterisation of size and sequence-based microvariant alleles at nine autosomal STR markers in the Central Indian population |
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