Different methods to determine length heteroplasmy within the mitochondrial control region

Lutz-Bonengel, Sabine; Sänger, Timo; Pollak, Stefan; Szibor, R.

doi:10.1007/s00414-004-0457-0

Cited by 47 publications

(65 citation statements)

References 23 publications

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“…According to previous reports [15,16,17], direct sequencing, fluorescence-labelled restriction fragment analysis and cloning analysis have been used to detect and identify length heteroplasmy in mitochondrial HV1 and HV2 regions. In comparing the detection limit of the three methods, the level of detection was found to increase in the order from direct sequencing of the mtDNA to restriction fragment analysis, to the cloning assay [17]. However, restriction fragment analysis was thought to be a sufficiently accurate alternative for most applications involving heteroplasmy analysis.…”

Section: Resultsmentioning

confidence: 99%

Mitochondrial DNA CA dinucleotide repeats in Koreans: the presence of length heteroplasmy

et al. 2004

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The mitochondrial DNA HV3 region contains CA dinucleotide repeats which display length polymorphism. To analyze this for forensic purposes, we designed a fluorescence-labelled PCR primer set for short amplification products and carried out genotyping by using capillary electrophoresis. A total of 4 alleles with 4-7 repeat units were observed and the genetic diversity was estimated to be 0.5120 in 500 unrelated Koreans. Interestingly, three individuals showed two or three length variants, i.e. length heteroplasmy.

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Section: Resultsmentioning

confidence: 99%

Mitochondrial DNA CA dinucleotide repeats in Koreans: the presence of length heteroplasmy

et al. 2004

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“…DNA analysis has become an indispensable tool in almost every forensic laboratory and is an integral part of main forensic tasks (i.e., paternity testing, human and nonhuman identification, and examination of forensic stains) [1][2][3][4][5][6]. The application of polymerase-based amplification of DNA-and especially of autosomal short tandem repeats (STRs)-to forensic molecular genetics has been pathbreaking [7][8][9][10].…”

Section: Introductionmentioning

confidence: 99%

Low-volume amplification on chemically structured chips using the PowerPlex16 DNA amplification kit

et al. 2005

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In forensic DNA analysis, improvement of DNA typing technologies has always been an issue. It has been shown that DNA amplification in low volumes is a suitable way to enhance the sensitivity and efficiency of amplification. In this study, DNA amplification was performed on a flat, chemically structured glass slide in 1-microl reaction volumes from cell line DNA contents between 1,000 and 4 pg. On-chip DNA amplification reproducibly yielded full allelic profiles from as little as 32 pg of template DNA. Applicability on the simultaneous amplification of 15 short tandem repeats and of a segment of the Amelogenin gene, which are routinely used in forensic DNA analysis, is shown. The results are compared to conventional in-tube amplification carried out in 25-microl reaction volumes.

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“…This finding agreed with that of several previous studies [23][24][25] . C-stretch length heteroplasmy increases the difficulties of DNA sequencing 19,20,36) and individual identification.…”

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confidence: 99%

“…The evolutionary rate or base substitutions of both regions were shown to be high 17,18) . There is a C-rich sequence in both regions with the first being extensively studied [19][20][21] and its evolutionary mechanism is not certainly known 21) .…”

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Identification of Human Bone Remains by Autosomal STRs and Mitochondrial DNA SNPs

Amer

Al-Harthi

Refaat

et al. 2017

J. Hard Tissue Biology.

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Advanced extraction and purification techniques were found to be essential tools for obtaining sufficient DNA from bones. However, in case of short tandem repeats (STRs) typing failure especially with old skeletal remains, mitochondrial DNA (mtDNA) analysis is the ultimate solution for individual and species identification. Thirty six bone samples were collected from human remains. DNA was extracted using the organic method after special sample preparations and quantified using a Real-time polymerase chain reaction (RT-PCR). Polymerase chain reaction (PCR) was done using Identifiler Plus PCR Amplification Kit and amplified products were typed using a Genetic Analyzer for autosomal STR typing. Samples with DNA concentration above 0.04 ng were efficient in obtaining their complete STR profiles. MtDNA control region was also amplified and sequenced. MtDNA was more efficient than autosomal STR profiling in discriminating among human bone samples especially those which have low and/or degraded DNA content.

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Different methods to determine length heteroplasmy within the mitochondrial control region

Cited by 47 publications

References 23 publications

Mitochondrial DNA CA dinucleotide repeats in Koreans: the presence of length heteroplasmy

Mitochondrial DNA CA dinucleotide repeats in Koreans: the presence of length heteroplasmy

Low-volume amplification on chemically structured chips using the PowerPlex16 DNA amplification kit

Identification of Human Bone Remains by Autosomal STRs and Mitochondrial DNA SNPs

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