Analysis of Mutation Rate of 17 Y-Chromosome Short Tandem Repeats Loci Using Tanzanian Father-Son Paired Samples.

Q3 Biochemistry, Genetics and Molecular Biology

Genetics Research International Pub Date : 2018-08-06 DOI:10.1155/2018/8090469

Fidelis Charles Bugoye, Elias Mulima, Gerald Misinzo

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引用次数: 5

Abstract

Hundred unrelated father-son buccal swab sample pairs collected from consented Tanzanian population were examined to establish mutation rates using 17 Y-STRs loci DYS19, DYS389I, DYS389II, DYS390, DYS391, DYS392, DYS393, DYS385a, DYS385b, DYS437, DYS438, DYS439, DYS448, DYS456, DYS458, DYS635, and Y-GATA-H4 of the AmpFlSTRYfiler kit used in forensics and paternity testing. Prior to 17 Y-STRs analysis, father-son pair biological relationships were confirmed using 15 autosomal STRs markers and found to be paternally related. A total of four single repeat mutational events were observed between father and sons. Two mutations resulted in the gain of a repeat and the other two resulted in a loss of a repeat in the son. All observed mutations occurred at tetranucleotide loci DYS389II, DYS385a, and DYS385b. The locus specific mutation rate varied between 0 and 1.176 x10^-3 and the average mutation rate of 17Y-STRs loci in the present study was 2.353x10^-3 (6.41x10^-4 - 6.013x10^-3) at 95% CI. Furthermore the mean fathers' age with at least one mutation at son's birth was 32 years with standard error of 2.387 while the average age of all fathers without mutation in a sampled population at son's birth was 26.781 years with standard error of 0.609. The results shows that fathers' age at son's birth may have an effect on Y-STRs mutation rate analysis, though this age difference was statistically not significant using unpaired samples t-test (p = 0.05). As a consequence of observed mutation rates in this study, the precise and reliable understanding of mutation rate at Y-chromosome STR loci is necessary for a correct evaluation and interpretation of DNA typing results in forensics and paternity testing involving males. The criterion for exclusion in paternity testing should be defined, so that an exclusion from paternity has to be based on exclusion constellations at a minimum of two 17 Y-STRs loci.

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坦桑尼亚父子配对样本对17个Y染色体短串联重复位点突变率的分析。

使用法医学和亲子鉴定中使用的AmpFlSTRYfiler试剂盒的17个Y-STR基因座DYS19、DYS389I、DYS389 II、DYS390、DYS391、DYS392、DYS393、DYS385a、DYS385 b、DYS437、DYS438、DYS439、DYS448、DYS456、DYS458、DYS635和Y-GATA-H4，对从同意的坦桑尼亚人群中收集的100对不相关的父子颊拭子样本进行检测，以确定突变率。在17个Y-STR分析之前，使用15个常染色体STR标记证实了父子对的生物学关系，并发现其与父母有关。在父子之间总共观察到四个单一重复突变事件。两个突变导致儿子获得一个重复，另外两个突变则导致儿子失去一个重复。所有观察到的突变都发生在四核苷酸位点DYS389II、DYS385a和DYS385b。位点特异性突变率在0和1.176×10-3之间变化，在95%置信区间，本研究中17Y STR位点的平均突变率为2.353×10-3（6.41x10-4-6.013×10-3）。此外，在儿子出生时至少有一个突变的父亲的平均年龄为32岁，标准误差为2.387，而在儿子出生的抽样人群中，所有没有突变的父亲平均年龄为26.781岁，标准错误为0.609。结果表明，父亲在儿子出生时的年龄可能会对Y-STR突变率分析产生影响，尽管使用未配对样本t检验，这种年龄差异在统计学上并不显著（p=0.05），准确可靠地了解Y染色体STR基因座的突变率对于在涉及男性的法医学和亲子鉴定中正确评估和解释DNA分型结果是必要的。应确定亲子鉴定中的排除标准，以便从亲子鉴定中排除必须基于至少两个17个Y-STR基因座的排除星座。

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来源期刊

Genetics Research International Biochemistry, Genetics and Molecular Biology-Genetics

CiteScore

2.90

自引率

0.00%

发文量

期刊介绍： Genetics Research International is a peer-reviewed, Open Access journal that publishes original research articles as well as review articles in all areas of genetics and genomics. The journal focuses on articles bearing on heredity, biochemistry, and molecular biology, as well as clinical findings.