Please use this identifier to cite or link to this item: https://biore.bio.bg.ac.rs/handle/123456789/6180
Title: Mutation rates of 22 autosomal STR loci in a European population from central Balkan, Republic of Serbia
Authors: Garai Nemanja
Pešović, Jovan 
Dobrijević Zorana
Brkušanin, Miloš 
Matijašević, Suzana 
Radenković, Lana 
Radovanović, Nemanja 
Karanović, Jelena 
Brajušković, Goran 
Savić-Pavićević, Dušanka 
Keywords: short tandem repeat (STR);mutation rate;paternity testing;DNA identification;population data
Issue Date: May-2023
Rank: M34
Publisher: Institute for Genetic Engineering and Biotechnology, University of Sarajevo
Journal: Genetics&Applications, ABMBBIH
Start page: 78
End page: 78
Conference: International Conference of Biochemists and Molecular Biologists in Bosnia and Herzegovina – ABMBBIH (Association of Biochemists and Molecular Biologists in B&H Conference)
Abstract: 
Analysis of short tandem repeats (STRs) is a tool for human DNA identification, including paternity
and criminal investigations. Locus-specific STR mutation rates are critical for interpretation of DNA
identification in practice. Accumulating evidence suggests that STR mutation rates are population specific. However, STR mutation rates based on trios have not been analyzed in European population
yet. In this study, mutation rates of 20 CODIS and two additional autosomal STR loci (Penta E and
Penta D) were determined from 1279 cases of paternity testing in the Serbian population, and the
relationships between STR mutation rates and sex, allele length, and heterozygosity were investigated.
A total of 63 mutations were observed at 18 loci in a total of 28278 allele transmissions, including 62
(98.4%) single-step and 1 (1.6%) two-step mutations. The average mutation rate was 1.7×10-3 (95%
CI: 1.3-2.3×10-3), whereas locus-specific mutation rates ranged from 5.6×10-3 (D12S391) to 0.6×10-3
(D2S1338, D5S818, and D21S11). No mutation was observed at the TPOX, TH01, D16S539, and
D22S1045 loci. The mutation rate of paternal origin (2.4×10-3) was eight times higher than that of
maternal origin (0.3×10-3), and long alleles mutated more frequently than short and medium alleles
(χ2=4.436 and χ2=4.646, respectively, p<0.05). No differences were found when analyzing overall
expansion versus contraction (χ2=0.999, p=0.317). Among short alleles two expansions and no
contraction were detected, while among long ones three expansions and nine contractions were
observed. Furthermore, we found no correlation between locus-specific mutation rates and
corresponding heterozygosity (rs=-0.188, p=0.559). Comparisons between populations revealed
statistically significant differences in locus-specific mutation rates of 13 CODIS STRs between Serbian
population and Chinese or Brazilian. Our results show that STR mutation rates depend on sex, allele
size and population, and provide useful data on STR mutation rate based on trios for human DNA
identification in European populations.
URI: https://biore.bio.bg.ac.rs/handle/123456789/6180
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