Bioinformatic removal of NUMT‐associated variants in mitotiling next‐generation sequencing data from whole blood samples

Ring, J.; Sturk-Andreaggi, Kimberly; Peck, Michelle A.; Marshall, Charla

doi:10.1002/elps.201800135

Cited by 34 publications

(39 citation statements)

References 41 publications

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“…However, these analyses have been largely manual, which is not suitable to a production environment. As bioinformatic approaches (for example, [58]) and particularly software packages with filtering capabilities (e.g. Converge™ Software -compatible with Thermo Fisher assays only, Thermo Fisher Scientific) continue to become available, and as the efficacy of such filters is clearly established via rigorous testing and validation, it is possible that analysis parameters can be refined and assay sensitivity improved even further.…”

Section: Discussionmentioning

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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Section: Discussionmentioning

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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“…In non-forensic applications numt sequences could interfere with correct reporting of mitochondrial DNA variants [46]. However, in the analysis of casework samples where low-level minor components are of particular interest [39], numt sequences could become visible, requiring removal [47], or may be falsely interpreted as heteroplasmies or mixtures.…”

Section: Discussionmentioning

confidence: 99%

Mitigating the effects of reference sequence bias in single-multiplex massively parallel sequencing of the mitochondrial DNA control region

Huszar

Wetton

Jobling

2019

Forensic Science International: Genetics

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Highlights mtDNA control region of 101 diverse samples amplified in a single reaction as 10 overlapping amplicons and sequenced via MPS. Primers create reference bias, compromising ability to call variants or heteroplasmy in primer-binding regions. Bioinformatic selection of overarching reads bypasses effects of proprietary primers and mitigates bias. Data processing permits accurate calling of variants, and heteroplasmies down to 5% level.

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“…Supplemental haplotype analyses of the SA Ion BAM files were performed using a custom IGV mtDNA tool (variant caller v1.01b) that was developed specifically for Ion sequencing of the Precision ID mtDNA Panels [42,61]. Median read depth was determined for each amplicon, and a 20X minimum read depth threshold was used for variant detection.…”

Section: Ngs Data Analysismentioning

confidence: 99%

“…These low-level variants can be attributed to incomplete removal of SA PCR primers, Ion-associated indel errors [34], and/or sequences from nuclear mtDNA segments (NUMTs). NUMTs are more likely to be co-amplified using SA PCR compared to LR PCR due to the large number of primers and small amplicons that may target homologous pseudogenes in the nuclear genome [44,61]. The IGV mtDNA tool analyses eased interpretation of the SA Ion data by automatically trimming the SA PCR primers and filtering NUMT-associated variants.…”

Section: Profile Generation and Concordancementioning

confidence: 99%