Developmental Validation of a MPS Workflow with a PCR-Based Short Amplicon Whole Mitochondrial Genome Panel

Cihlar, Jennifer Churchill; Amory, Christina; Lagacé, Robert; Roth, Chantal; Parson, Walther; Budowle, Bruce

doi:10.3390/genes11111345

Cited by 31 publications

(35 citation statements)

References 62 publications

(30 reference statements)

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“…The technology has meanwhile matured and provides a comparably cost-effective and less labor-intensive solution compared to Sanger-based techniques, particularly when many samples or full mitogenomes are analyzed [46]. The forensic application of mitogenome MPS, which expanded the targeted portion from the CR to the entire mitogenome, meanwhile increased the abundance of observed and reported NUMTs (e.g., [42,[47][48][49]. This is in part due to the enhanced sensitivity gained with MPS, which allows for the detection of low frequency variants in mtDNA sequence alignments, such as those originating from NUMT reads.…”

Section: Numts In Forensic Applicationsmentioning

confidence: 99%

“…Yet, each of them has certain properties that help with its diagnosis when assessing threshold-based variant calls. NUMTs are likely to be observed at known NUMT locations [29,30,42,[47][48][49]56], whereas point heteroplasmyparticularly in the codR - [57][58][59][60][61] and stochastic error occur at random locations across the mitogenome [62][63][64]. Furthermore, point heteroplasmy is not observed in a majority of mitogenome haplotypes when applying variant detection thresholds realistic to forensic samples, i.e., a minimum of 5-10% [57][58][59][60][61].…”

Section: Numts In Forensic Applicationsmentioning

confidence: 99%

“…This is why mtDNA analysis in general, and particularly in tissues of forensic interest (e.g., rootless hair shafts, degraded bone/teeth), does not yield NUMT signals above background noise. However, NUMTs may appear frequently in reference-type samples assayed with mini amplicon enrichment techniques [42,47,49]. One method to address NUMT co-amplification in reference samples and relatively high-quality forensic samples is to control (i.e., reduce) the quantity of genomic DNA prior to PCR [49,70,77].…”

Section: Numts In Forensic Applicationsmentioning

confidence: 99%

“…This is why quantitation of the mtDNA and the nDNA in a sample to direct the input quantity for mitogenome PCR may be important in mini amplicon laboratory workflows (e.g., [79,80]), or those involving high-quality DNA followed by WGS or hybridization capture. Validation studies have demonstrated that mini amplicon strategies require mtDNA amounts as little as the equivalent of a single cell or even less as template to generate reliable sequences [81], and, as little as 23 copies of mtDNA to generate a full mitogenome sequence [47]. This indicates that smaller amounts of template mtDNA are sufficient for mitogenome sequencing.…”

Section: Numts In Forensic Applicationsmentioning

confidence: 99%

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Interpreting NUMTs in forensic genetics: Seeing the forest for the trees

Marshall

Parson

2021

Forensic Science International: Genetics

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Nuclear mitochondrial DNA (mtDNA) segments (NUMTs) were discovered shortly after sequencing the first human mitochondrial genome. They have earlier been considered to represent archaic elements of ancient insertion events, but modern sequencing technologies and growing databases of mtDNA and NUMT sequences confirm that they are abundant and some of them phylogenetically young. Here, we build upon mtDNA/NUMT review articles published in the mid 2010 s and focus on the distinction of NUMTs and other artefacts that can be observed in aligned sequence reads, such as mixtures (contamination), point heteroplasmy, sequencing error and cytosine deamination. We show practical examples of the effect of the mtDNA enrichment method on the representation of NUMTs in the mapped sequence data and discuss methods to bioinformatically filter NUMTs from mtDNA reads.

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Section: Numts In Forensic Applicationsmentioning

confidence: 99%

Section: Numts In Forensic Applicationsmentioning

confidence: 99%

Section: Numts In Forensic Applicationsmentioning

confidence: 99%

Section: Numts In Forensic Applicationsmentioning

confidence: 99%

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Interpreting NUMTs in forensic genetics: Seeing the forest for the trees

Marshall

Parson

2021

Forensic Science International: Genetics

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“…One major issue is that a mitochondrial DNA haplotype may be comprised of potentially 100 s of amplicons. These amplicons may overlap to varying degrees and may have varied PCR efficiencies [ 17 ]. In contrast, continuous methods based on massively parallel sequencing (MPS) data need to balance purely quantitative data (variant read-counts) against the linkage (and resultant linkage disequilibrium, LD) inherent to the mitochondrial genome (e.g., as per [ 18 ]).…”

Section: Introductionmentioning

confidence: 99%

Graph Algorithms for Mixture Interpretation

Crysup

Woerner

King

et al. 2021

Genes

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The scale of genetic methods are presently being expanded: forensic genetic assays previously were limited to tens of loci, but now technologies allow for a transition to forensic genomic approaches that assess thousands to millions of loci. However, there are subtle distinctions between genetic assays and their genomic counterparts (especially in the context of forensics). For instance, forensic genetic approaches tend to describe a locus as a haplotype, be it a microhaplotype or a short tandem repeat with its accompanying flanking information. In contrast, genomic assays tend to provide not haplotypes but sequence variants or differences, variants which in turn describe how the alleles apparently differ from the reference sequence. By the given construction, mitochondrial genetic assays can be thought of as genomic as they often describe genetic differences in a similar way. The mitochondrial genetics literature makes clear that sequence differences, unlike the haplotypes they encode, are not comparable to each other. Different alignment algorithms and different variant calling conventions may cause the same haplotype to be encoded in multiple ways. This ambiguity can affect evidence and reference profile comparisons as well as how “match” statistics are computed. In this study, a graph algorithm is described (and implemented in the MMDIT (Mitochondrial Mixture Database and Interpretation Tool) R package) that permits the assessment of forensic match statistics on mitochondrial DNA mixtures in a way that is invariant to both the variant calling conventions followed and the alignment parameters considered. The algorithm described, given a few modest constraints, can be used to compute the “random man not excluded” statistic or the likelihood ratio. The performance of the approach is assessed in in silico mitochondrial DNA mixtures.

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Massively Parallel Sequencing of the Mitogenome from Human Hair Shafts in Forensic Investigations

Korber,

Canale,

Holland

2023

Current Protocols

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This article highlights methods used to perform DNA extraction, mitochondrial DNA quantification, multiplex PCR amplification, amplicon‐based massively parallel sequencing, and data analysis of the mitochondrial genome (mitogenome) from human hair shafts. The focus is on applications to forensic casework, but this set of protocols can be used for any purpose involving small cuttings (as small as 1 to 5 mm) of human hair shafts up to 40 years from the time of collection. © 2023 The Authors. Current Protocols published by Wiley Periodicals LLC.Basic Protocol 1: Extraction of mitochondrial DNA from human hair shaftsBasic Protocol 2: Quantification of mitochondrial DNA (copies/μl)Basic Protocol 3: Multiplex amplification of the mitogenomeBasic Protocol 4: Library preparation and sequencing of mitogenome ampliconsBasic Protocol 5: Data analysis of mitogenome haplotypes

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Developmental Validation of a MPS Workflow with a PCR-Based Short Amplicon Whole Mitochondrial Genome Panel

Cited by 31 publications

References 62 publications

Interpreting NUMTs in forensic genetics: Seeing the forest for the trees

Interpreting NUMTs in forensic genetics: Seeing the forest for the trees

Graph Algorithms for Mixture Interpretation

Massively Parallel Sequencing of the Mitogenome from Human Hair Shafts in Forensic Investigations

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