Fragmented Nuclear DNA Is the Predominant Genetic Material in Human Hair Shafts

Brandhagen, Michael D.; Loreille, Odile; Irwin, Jodi A.

doi:10.3390/genes9120640

Cited by 44 publications

(40 citation statements)

References 37 publications

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“…Tissues that naturally lack intact nDNA, such as single thrombocytes, exclusively yielded the V mitotype. Hair shafts that are known to contain only minute amounts of high molecular weight nDNA ( 61 ), also yielded only the V mitotype in 55 of 56 analyzed hair shafts. Only one of the seven hair shaft samples from individual IV.5 showed the U mitotype in addition to the V mitotype.…”

Section: Discussionmentioning

confidence: 99%

“…However, we suggest the sequence analysis of hair shafts from the affected individual as an elegant alternative. While hair shafts usually contain sufficient amounts of mtDNA for PCR-based analyses, they typically contain only minute amounts of highly degraded nuclear DNA ( 61 ). Consequently, PCR assays aiming at mtDNA target sequences will almost exclusively yield amplicons deriving from the actual mtDNA copies being present in a hair shaft, as demonstrated in our study.…”

Section: Discussionmentioning

confidence: 99%

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Evidence for multi-copy Mega-NUMTsin the human genome

Lutz-Bonengel

Niederstätter

Naue

et al. 2021

Nucleic Acids Research

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The maternal mode of mitochondrial DNA (mtDNA) inheritance is central to human genetics. Recently, evidence for bi-parental inheritance of mtDNA was claimed for individuals of three pedigrees that suffered mitochondrial disorders. We sequenced mtDNA using both direct Sanger and Massively Parallel Sequencing in several tissues of eleven maternally related and other affiliated healthy individuals of a family pedigree and observed mixed mitotypes in eight individuals. Cells without nuclear DNA, i.e. thrombocytes and hair shafts, only showed the mitotype of haplogroup (hg) V. Skin biopsies were prepared to generate ρ° cells void of mtDNA, sequencing of which resulted in a hg U4c1 mitotype. The position of the Mega-NUMT sequence was determined by fluorescence in situ hybridization and two different quantitative PCR assays were used to determine the number of contributing mtDNA copies. Thus, evidence for the presence of repetitive, full mitogenome Mega-NUMTs matching haplogroup U4c1 in various tissues of eight maternally related individuals was provided. Multi-copy Mega-NUMTs mimic mixtures of mtDNA that cannot be experimentally avoided and thus may appear in diverse fields of mtDNA research and diagnostics. We demonstrate that hair shaft mtDNA sequencing provides a simple but reliable approach to exclude NUMTs as source of misleading results.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Evidence for multi-copy Mega-NUMTsin the human genome

Lutz-Bonengel

Niederstätter

Naue

et al. 2021

Nucleic Acids Research

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“…sequencing error, PCR error, DNA damage, pseudogenes) could be consistently distinguished from authentic signal. We have employed methods for doing exactly that in other NGS studies [23,56,57]. However, these analyses have been largely manual, which is not suitable to a production environment.…”

Section: Discussionmentioning

confidence: 99%

“…Hair samples were extracted according to Ref [23], while bone samples were extracted using a variation of the protocol described in Ref [24]. Extracts were quantified using either the Quantifiler Duo assay (Thermo Fisher Scientific, Waltham, MA), an internally validated mtDNA-specific qPCR assay [25], or both.…”

Section: Dna Extraction and Quantitationmentioning

confidence: 99%

Validation of NGS for mitochondrial DNA casework at the FBI Laboratory

Brandhagen

Just

Irwin

2020

Forensic Science International: Genetics

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As a first step towards integrating next generation sequencing (NGS) technology into the FBI Laboratory's operational casework, the PowerSeq™ CRM Nested System, an NGS-based mitochondrial DNA (mtDNA) control region assay, was developmentally and internally validated. The validation studies were conducted in accordance with the Scientific Working Group on DNA Analysis Methods (SWGDAM) Validation Guidelines for Forensic DNA Analysis Methods, and the FBI's Quality Assurance Standards (QAS) for Forensic DNA Testing Laboratories. The assay was shown to be highly reproducible, with variant frequencies across intra and inter-run replicates of the same sample differing, on average, by just 0.3% for substitutions and point heteroplasmies and 1.5% for insertions and deletions. The assay was also shown to be extremely sensitive, yielding complete control region sequence data from as few as 2000 copies of mtDNA. This is a more than 20-fold increase in sensitivity when compared to the FBI Laboratory's current Sanger sequencing-based protocols and, based on mtDNA quantitation values of samples routinely encountered in mtDNA casework, suggests that the percentage of questioned samples from which full control region data can be recovered will increase from our current 20% to approximately 90% success with NGS technology. In addition, the assay requires on average only 30% of the extract volume typically required to develop control region profiles from degraded samples via Sanger sequencing. Overall, these studies establish the reliability of the PowerSeq™ CRM Nested System for accurate mtDNA control region typing and can serve as a model for laboratories seeking to validate NGS protocols for forensic mtDNA analysis.

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“…A special issue on forensic genomics was organized in Genes [ 217 ] by guest editors Manfred Kayser and Walther Parson with 11 articles published between November 2017 and December 2018 (see https://www.mdpi.com/journal/genes/special_issues/Forensic_Genomics ). Topics for these open access articles include performing molecular analysis of the RNA transcriptome for human organ tissue identification to assist in investigations of traumatic injury [ 218 ], investigating the epigenetic discrimination of identical twins using reference sample buccal swabs and saliva and cigarette butts common to forensic evidence [ 163 ], recovering fragmented nuclear DNA from human hair shafts [ 219 ], using high-throughput sequencing to recover nuclear DNA from a 4000-year-old Egyptian mummy head [ 220 ], examining mitochondrial DNA heteroplasmy with MPS to help distinguish maternal relatives [ 221 ], dating juvenile blow flies to assist forensic entomology with postmortem interval estimation [ 222 ], predicting the postmortem interval using microbiome data [ 223 ], applying NGS probe capture enrichment techniques to examine the whole mitochondrial genome and 426 nuclear SNPs on individual telogen hairs [ 224 ], and demonstrating that flanking region variation can impact rates of stutter product formation in STR markers [ 225 ].…”

Section: Recent Special Issues and Review Articles Of Notementioning

confidence: 99%