Analysis of five rare alleles at the STR loci D1S1656, D12S391, D13S317, Penta D,and D2S441

Short tandem repeat (STR) automatic typing technology is extensively used in forensic laboratories with commercial kits, in rare cases genotyping misinterpretations or mislabeling may occur due to unexpected rare alleles. This study refers to the investigation of several rare alleles observed from routine cases. Besides cross-kit verification with Goldeneye 25A (Beijing PeopleSpot Inc, China) and Huaxia platinum (Thermo Fisher Scientific, USA) kits, the next-generation sequencing technology by MiSeq FGx System (Illumina, USA) was applied to further validation. To solve the inconsistent outcomes reached by the above mentioned approaches at D2S441 locus, single gene amplification, gene cloning, and genetic sequencing was also performed. As a result, five rare alleles were detected. Two novel alleles of allele 3 at the D13S317 locus and allele 5 at the D2S441 locus were found; three previously reported alleles of allele 9 at D1S1656 locus, allele 19 at Penta D locus, and allele 28 at D12S391 locus in STRBase were initially supplemented with sequence information. We, therefore, propose that such uncommon observations with rare events should be carefully investigated and interpreted.     

Locus-specific brackets for reliable typing of Y-chromosome short tandem repeat markers

Short tandem repeat (STR) loci, widely used as genetic markers in disease diagnostic studies and human identity applications, are traditionally genotyped through comparison of allele sizes to a sequenced allelic ladder. Allelic ladders permit a floating bin allele calling method to be utilized, which enables reliable allele calling across laboratories, instrument platforms, and electrophoretic conditions. Precise sizing methods for STR allele calling involving fixed bins can also be used when a high degree of precision has been demonstrated within an instrument platform and a set of electrophoretic conditions. An alternative method for reliable genotyping of STR markers, locus-specific brackets (LSBs), is introduced here. LSBs are artificial alleles created through molecular biology manipulations to be shorter or longer than alleles commonly seen in populations under investigation. The size and repeat number of measured alleles are interpolated between the two LSB products that are mixed with the polymerase chain reaction-amplified STR alleles. The advantages and limitations of the LSB approach are described along with a concordance study between the LSB typing approach and other STR typing methods. Complete agreement was observed with 162 samples studied at 5 Y-chromosome loci.     

Detection of sequence variability of the collagen type IIalpha 1 3' variable number of tandem repeat

The variable number of tandem repeat (VNTR) 3' of the collagen type II (COL2A1) gene has been shown to be highly variable with a complex molecular structure. In a previous pilot experiment we observed discordance between methods to genotype this informative marker. To further investigate the extent and molecular nature of this discordance, we genotyped a random sample of 207 Caucasian individuals with two genotyping methods and sequenced new alleles. We compared single-strand (SS) analysis, which is based on detection of size differences between the different alleles, and heteroduplex analysis (HA), which is sensitive to both size and sequence differences. Overall, 26% of discordance between the two methods was detected. Approximately two thirds of this discordance was caused by subdivision of SS-alleles 13R1 and 14R2 into HA-alleles 4A + 4B and 3B + 3C, respectively. Sequence analysis of the COL2A1 VNTR alleles 4B and 3C showed that these alleles differed in sequence, but not in size, from already described SS-alleles, which explains why they escape detection by SS. The 4B allele is a frequent allele in the population (14%) and is, therefore, important to distinguish in association studies. We conclude that HA is a reliable method when the described optimized electrophoretic conditions are used. HA is a sensitive genotyping method to document allelic diversity at this locus, which can distinguish more alleles compared to the SS method.     

Fifty-nine bp repeat polymorphism in the uncommon intron 36 of the human mucin gene MUC5B

A variable number of tandem repeat (VNTR) polymorphism within the intron 36 of the human mucin gene MUC5B, which is mapped to chromosome 11 band p15.5, have been identified using Southern blotting experiments. This polymorphism can be easily assayed by polymerase chain reaction (PCR) to detect linkage of inherited disorder. Five alleles were observed in 86 unrelated individuals due to 3-8 direct perfect repeats of 59 bp. This repeat has the particularity to begin at the end of the preceding exon. Southern blot experiments revealed the locus specificity of the repeat. The sequence of the repeat unit does not match the consensus sequence of Chi-related minisatellites.     

Rapid sizing of microsatellite alleles by gel electrophoresis on microfabricated channels: application to the D19S394 tetranucleotide repeat for cosegregation study of familial hypercholesterolemia.

This study evaluated the applicability of microchip electrophoresis to the sizing of microsatellites suitable to genetic, clinical and forensic applications. The evaluation was performed with the D19S394 tetranucleotide (AAAG) repeat characterized by a wide variation in the repeat number (1-17) and a short recombination distance from the low-density lipoprotein (LDL)-receptor gene that makes it suitable to cosegregation analysis of familial hypercholesterolemia (FH). The study was performed with 70 carriers of two LDL-receptor mutations common in northern Italy (i.e., the 4 bp insertion in exon 10 known as FH-Savona and the D200G missense mutation in the exon 4, known as FH-Padova 1) and 100 healthy controls. The polymerase chain reaction (PCR) amplification products prepared with a cosolvent PCR protocol and an antibody-protected polymerase were directly analyzed with an apparatus for high-voltage capillary electrophoresis on microchips and laser-induced fluorescence detection equipped with chips for the analysis of 25-500 bp dsDNA fragments. The test could not be extended to dinucleotide repeats due to the resolution characteristics of the available microchip. This novel approach was able to distinguish 17 microsatellite alleles varying from 0 to 17 repeats. Many of these alleles were quite rare, but the seven more abundant accounted for over the 70% of allele distribution in control population. The standard deviation in the sizing of the most abundant alleles ranged from +0.60 to +/- 0.75 bp. This indicated that the size attribution to a conventional allele using the +/- 1 bp range around it allowed a confidence limit above the 80 %. The sizing of D19S394 obtained this way allowed the cosegregation analysis with both the FH mutations tested. Therefore, this innovative approach to microsatellite sizing was much simpler, but equally effective as traditional capillary electrophoresis, at least with tetranucleotide repeats.     

Mutation at minisatellite locus DYF155S1: allele length mutation rate is affected by age of progenitor

A father/son material consisting of 1071 pairs was screened for de novo allele length mutation in locus DYF155S1. Six hundred of these pairs were also analyzed in locus DYF155S1 to detect de novo mutations in the minisatellite variant repeat (MVR)-code not resulting in a length change ("boundary switch" mutations). A modified MVR-polymerase chain reaction (PCR) method was used for this purpose. Twenty-seven de novo allele length mutations and eight "boundary switch" mutations were detected indicating mutation frequencies of approximately 2.5% and 1.3%, respectively. The combined mutation rate for MVR-code mutation is approximately 3.8%. There is a significant increase in mutation rate with paternal age (p = 0.049) in allele length mutations. In the present material, the mutation rate in the oldest age group is three times that of the youngest age group. A similar age relationship is not observed in "boundary switch" mutations. A comparison between progenitors and the other fathers in the material revealed no obvious association between mutation rate and allele length or modular structure (variation in repeat sequence). More than 75% of the length mutations involved the gain or loss of one repeat only. This finding as well as the observed paternal age influence on mutation rate, suggests replication slippage to be the major mutation mechanism in length mutations. However, in one particular case, an allele length mutant revealed rearrangements with direct duplication of repeats at distant sites within the repeat array, and with both loss and gain of repeats. Such complex structural changes could indicate that some of the mutants might arise from sister chromatide exchange. The mutation rate of "boundary switch" mutations is by far higher than would be expected if these mutations are two independent one-step allele length mutations. A different age distribution of "boundary switch" mutations than of allele length mutations also argue against such a hypothesis. Together this could indicate that "boundary switches" are products of another mutation mechanism than the one-step allele length mutations.     

Imperfect units of an extended microsatellite structure involving single nucleotide changes

Short tandem repeats (STRs) and single nucleotide polymorphisms (SNPs) are widely used as markers in human genome studies. We have characterized a highly polymorphic STR locus (D20S85) with (AAAG)n repeats, by a combination of direct DNA sequencing and single-strand conformation polymorphism (SSCP) analysis. Eight STR alleles were first identified on denaturing gels, and SSCP gels were then used to demonstrate the existence of previously indistinguishable multiple alleles at the locus on the basis of variable allelic flanking sequences. This was confirmed by direct sequencing of the alleles. Four transitions, two G to A and two A to G in the 5'-flanking region of the locus at positions 14, 22, 24, and 26 effectively subdivided the STR alleles into two groups, with frequencies of 0.431 and 0.569, respectively. The mutational processes that generated the polymorphisms involved both simple changes in the number of AAAG repeats and single nucleotide mutations in the region flanking the repeat. The findings have potential application in the avoidance of false linkage and association. A composite locus of this nature, with separate STR and SNP evolutionary histories and resulting from different mutational processes, also could have wide application in studies of selection, drift, migration and inbreeding.     

Rapid and sensitive genotyping of dopamine D4 receptor tandem repeats by automated ultrathin-layer gel electrophoresis

Prior studies have revealed possible association between the presence of a seven repeat of the 48 bp variable number tandem repeat polymorphism of the human dopamine D4 receptor gene (DRD4) and some normal and pathological human traits, such as novelty seeking, hyperactivity disorders, and substance abuse. Some reports supported this finding whereas others did not. Incorrect genotyping could be one of the reasons for these controversial results, and might originate from preferential amplification of shorter polymerase chain reaction (PCR) products, resulting in the so-called allele dropout. In this paper we optimized the conditions for simultaneous amplification of shorter and longer amplicons of the 48 bp repeat region of the DRD4 gene in order to avoid the loss of the longer allele and consequent incorrect genotyping, using very low DNA template concentrations and partial replacement of 2'-deoxyguanosine-5'-triphosphate (dGTP) by 2'-deoxyinosine-5'-triphosphate (dITP). The optimized PCR method in combination with high throughput automated ultrathin-layer gel electrophoresis was suitable for rapid genotyping from less than a nanogram DNA using noninvasive sampling (buccal epithelial cells). All detected genotypes are presented, including such rear heterozygotes as the 2 x and 8 x 48 bp repeats in the same sample, showing the reliability of our novel detection method of longer alleles in the presence of shorter alleles.     

Genotype-phenotype correlation of SMN locus genes in spinal muscular atrophy patients from India

Spinal muscular atrophy has been classified into four groups based on the age of onset and clinical severity of the disease. Homozygous deletion in SMN1 gene causes the disease but the clinical severity may be modified by copy number of homologous gene SMN2 as well as the extent of deletion at SMN locus. In the view of scarcity of genotype and phenotype correlation data from India, this study has been undertaken to determine that correlation in SMA patients by using the SMN and NAIP genes and two polymorphic markers C212 and C272 located in this region. Two to four alleles of the markers C212 and C272 were observed in normal individuals. However, majority of Type I patients showed only one allele from both markers whereas in Type II and III patients, 2-3 alleles were observed. The SMN2 copy number in our type III patients showed that patients carry 3-5 copies of SMN2 gene. Our results suggest that extent of deletions encompassing H4F5, SMN1, NAIP and copy number of SMN2 gene can modify the SMA phenotype, thus accounting for the different clinical subtypes of the disease.     

Evaluation of whole-genome amplification of low-copy-number DNA in chimerism analysis after allogeneic stem cell transplantation using STR marker typing

Whole-genome DNA amplification (WGA) is a promising method that generates large amounts of DNA from samples of limited quantity. We investigated the accuracy of a multiplex PCR approach to WGA over STR loci. The amplification bias within a locus and over all analyzed loci was investigated in relation to the amount of template in the WGA reaction, the specific STR locus, and allele length. We observed reproducible error-free STR profiles with 10 ng down to 1 ng of DNA template. The amplification deviation at a locus and between loci was within the intra-method reproducibility. WGA is the method of choice for amplifying nanogram amounts of genomic DNA for different applications. We detected unbalanced STR amplifications at one locus and between loci, allelic drop-outs, and additional alleles after WGA of low-copy-number DNA. We found that the high number of drop-outs and drop-ins could be eradicated using pooled DNA from separate WGA reactions even with as little as 100 pg of starting template. Nevertheless, the quality of the results was still not sufficient for use in routine chimerism analysis of limited specific cell populations after allogeneic stem cell transplantation.     

Heteroduplex analysis of minisatellite variability

Minisatellites are tandem repeat arrays of middle size (5-100 bp) repeat units widely distributed in eukaryotic genomes. They have been related to several important features of human genome biology, including gene regulation, chromosomal fragile sites, and imprinting. In this report, we have critically assessed and employed heteroduplex analysis (HA) for the identification of different human minisatellite MsH43 alleles. This minisatellite is organized as a repeat array of 5-6 bp units spanning 0.5 kbp. Our results demonstrate that this procedure is an easy, rapid, and reliable method to document allelic diversity for this locus. This work suggests that HA will also be a useful tool for studying the polymorphism of other minisatellites with small repeat units.     

Sizing short tandem repeat alleles in capillary array gel electrophoresis instruments.

A 96-capillary array gel electrophoresis Applied Biosystems 3700 instrument has been used to analyse AMPF/STR SGM Plus short tandem repeat (STR) loci for forensic applications. This multiplex consists of ten STR loci plus the Amelogenin locus and currently forms the basis of the UK National DNA database that currently holds more than 1 million profiles. Of particular interest is the accuracy of allele designation that is determined by comparison with standard control allelic ladder markers. Some loci have higher standard deviations than others. In particular the high-molecular-weight HUMFIBRA alleles have high standard deviations of the order of 0.15 and it is these alleles that are most likely to be misdesignated. However, this risk is minimised by the analysis of at least five different allelic ladders across the array to estimate the mean size of each allele. In conjunction with this, a series of guidelines that can be programmed into expert systems are used to minimise risks of misdesignation. The efficacy of the procedures utilised are tested by computer simulation and demonstrated to be robust.     

Development of multiplex PCR system with 15 X-STR loci and genetic analysis in three nationality populations from China

The aim of this study is to develop a new multiplex PCR system that simultaneously amplifies the 15 X-chromosome short tandem repeats (X-STRs) loci in the same PCR reaction, and to obtain the 15 X-STR loci database in three nationality populations from China. This multiplex system includes DXS7133, DXS6801, DXS981, DXS6809, DXS7424, DXS6789, DXS9898, DXS7132, GATA165B12, DXS101, DXS10075, DXS6800, GATA31E08, DXS10074, and DXS10079, which were successfully analyzed on 1251 DNA samples (670 males and 581 females) from Guangdong Han population, Xinjiang Uigur and Kazakh. The allele frequencies and mutation rates of the 15 loci were investigated, and the allele frequency distribution among different populations was compared. A total of 6-17 alleles for each locus were observed and altogether 170 alleles for all the selected loci were found. Thirteen cases with mutation of the above loci were detected in 11,850 meioses. Pairwise comparisons of the allele frequencies distribution showed significant differences in most loci among different populations. The results indicate that this multiplex system may provide high polymorphism information for kinship testing and relationship investigations, and it is necessary to gain allele frequency and mutation rate of different population for forensic application.     

The application of magnetic bead hybridization for the recovery and STR amplification of degraded and inhibited forensic DNA

A common problem in the analysis of forensic DNA evidence is the presence of environmentally degraded and inhibited DNA. Such samples produce a variety of interpretational problems such as allele imbalance, allele dropout and sequence specific inhibition. In an attempt to develop methods to enhance the recovery of this type of evidence, magnetic bead hybridization has been applied to extract and preconcentrate DNA sequences containing short tandem repeat (STR) alleles of interest. In this work, genomic DNA was fragmented by heating, and sequences associated with STR alleles were selectively hybridized to allele-specific biotinylated probes. Each particular biotinylated probe-DNA complex was bound to streptavidin-coated magnetic beads using enabling enrichment of target DNA sequences. Experiments conducted using degraded DNA samples, as well as samples containing a large concentration of inhibitory substances, showed good specificity and recovery of missing alleles. Based on the favorable results obtained with these specific probes, this method should prove useful as a tool to improve the recovery of alleles from degraded and inhibited DNA samples.     

A novel nomenclature for the hypervariable short tandem repeat APOAI1

A novel nomenclature for the hypervariable microsatellite DNA, APOAI1 locus, is proposed. The complex nature of the repeat unit in this locus results in alleles separated by a single base. Polymerase chain reaction (PCR) products amplified from this locus were separated by single-strand conformation polymorphism (SSCP) electrophoresis. All the single-stranded DNA bands on the SSCP gel were removed from the gel and a second amplification performed. Homozygous DNA fragments amplified from single-stranded DNA were sequenced. From the 100 individuals studied, 30 alleles and 73 genotypes were found. A system of nomenclature for the APOAI1 locus is provided that is logical and in line with previous models. Using the primers described, the locus can be amplified and alleles designated on the basis of size. This system of nomenclature will assist in the exchange of data between laboratories for this locus.     

Characterization of sequence variation at 30 autosomal STRs in Chinese Han and Tibetan populations

Massively parallel sequencing (MPS) technologies have the ability to reveal sequence variations within STR alleles as well as their nominal allele lengths, which have traditionally been detected by CE instruments. Recently, Thermo Fisher Scientific has updated the MPS-STR panel, named the Precision ID GlobalFiler next-generation sequencing (NGS) STR Panel version 2, with primers redesigned to add two pentanucleotide tandem repeat loci and profile interpretation supported by the Converge software. Using the Ion Chef System, the Ion S5XL System, and the Converge software, genetic variations were characterized within STR repeat and flanking regions of 30 autosomal STR markers in 115 unrelated individuals from two Chinese population groups (58 Tibetans and 57 Hans). Nineteen STRs demonstrated a relative increase in diversity with the variant sequence alleles compared with those of traditional nominal length alleles. In total, 390 alleles were identified by their sequences compared with 258 alleles that were identified by length. Of these 92 sequence variants found within the STR repeat regions, 40 variants were located in STR flanking regions. Additionally, the agreement of the results with CE data was evaluated, as was the ability of this new MPS panel to analyze case-type (11 samples) and artificially degraded samples (seven samples in triplicate). The results generated from this study illustrate that extensive sequence variation exists in commonly used STR markers in the selected population samples and indicate that this NGS STR panel has the potential to be used as an effective tool for human forensics.     

Development and Characterization of EST-SSR Markers from <em>Scapharca broughtonii</em> and Their Transferability in <em>Scapharca subcrenata</em> and <em>Tegillarca granosa</em>

Twenty-five novel EST-derived simple sequence repeat (EST-SSR) markers were developed in the ark shell Scapharca broughtonii. Polymorphisms of these EST-SSR markers were evaluated in 48 wild individuals collected from Shidao, Shandong Province, China. A total of 202 alleles were detected at 25 loci. The numbers of alleles per locus ranged from 4 to 14, with an average of 8.08. The observed and expected heterozygosities varied from 0.2917 to 1.000 and from 0.3570 to 0.9002, respectively. After sequential Bonferroni correction for multiple tests, only one locus was found to deviate from Hardy-Weinberg equilibrium. Twenty-five EST-SSR markers showed a high rate of across-species transferability (100%) in Scapharca subcrenata and a low rate of across-genus transferability (20%) in Tegillarca granosa. These EST-SSRs will be helpful for QTL mapping, molecular breeding and investigation of population genetic diversity in ark shell S. broughtonii and other Scapharca species.     

Validation of the HumDXS6807 short tandem repeat polymorphism for forensic application.

This paper presents sequence and population genetic data of the HumDXS6807 short tandem repeat (also known as CHLC.GATA52B03) which is a tetranucleotide repeat polymorphism representing seven alleles of 251-275 bp in length. HumDXS6807 is located at Xpter-Xp22.2, i.e., at a genetic distance of more than 87 and 151 cM from the well-known markers HumARA and HumHPRTB, respectively. Kinship tests in 157 family trios revealed a typical X-linked codominant inheritance; mutations were not found. Population genetic data were obtained by analyzing a Caucasian population sample comprising 308 females and 209 males: polymorphism information content (PIC) = 0.640; Heterozygosity (Het) = 0.668; Mean exclusion chance (MEC) = 0.414. The HumDXS6807 allele distribution met the Hardy-Weinberg expectations.     

虾夷马粪海胆微卫星标记制备及对3个养殖群体的遗传多样性分析

通过磁珠富集法分离获得了虾夷马粪海胆微卫星DNA序列160个.其中完美型108个(67.50%),非完美型33个(20.63%),复合型19个(11.88%),微卫星DNA序列最多重复次数达到107次.根据这些微卫星DNA序列的两翼序列,采用Primer 5软件设计出虾夷马粪海胆的微卫星引物,通过筛选,采用其中的12对微卫星DNA标记对大连凌水群体(DL)、大连獐子岛群体(DZ)、山东荣城群体(SR)3个虾夷马粪海胆养殖群体的遗传多样性进行分析,共获得73个等位基因,不同引物获得的等位基因数为1~11个,片段大小为84~362 bp.除SUX001位点外,其余位点的PIC值在0.264 0~0.670 5之间,3个群体的平均观测杂合度分别为0.4618(DL),0.437 5(SR)和0.434 0(DZ),平均期望杂合度分别为0.502 6(DL),0.507 9(SR)和0.449 4(DZ).Hardy-Weinberg平衡分析显示,73%的被检测位点显著偏离平衡,F-检验显示4个位点的Fst值低于0.05,表明群体间存在一定程度的分化.群体间遗传相似性系数、遗传距离及UPGMA聚类分析表明大连獐子岛群体(DZ)与大连凌水群体(DL)群体亲缘关系较近,二者与山东荣成群体(SR)亲缘关系较远.对深入了解我国虾夷马粪海胆养殖群体遗传结构特征及其种质资源状况具有重要意义.     

Haplotype studies support slippage as the mechanism of germline mutations in short tandem repeats

Germline mutations of human short tandem repeat (STR) loci are expansions or contractions of repeat arrays which are not well understood in terms of the mechanism(s) underlying such mutations. Although polymerase slippage is generally accepted as a mechanism capable to explain most features of such mutations, it is still possible that unequal crossing over plays some role in those events, as most studies in humans could not exclude unequal crossing over (UCO). Crossing over can be studied by analyzing haplotypes using flanking markers. To check for UCO in mutations, we have analyzed 150 paternity cases for which more than the usual trio (mother, child, and father) were available for testing by analyzing 16 STR loci. In a total of 4900 parent-child allele transfers four mutations were observed at different loci (D8S1179, D18S51, D21S11, and SE33/ACTBP2). To identify the mutated allele and to check for UCO, we typed at least four informative loci flanking the mutated locus and used the pedigree data to establish haplotypes. By doing so we were able to exclude UCO in each case. Moreover, we were able to identify the mutations as one-repeat contractions/expansions. Our data thus support slippage as the mechanism of germline mutations in STRs.