Mitochondrial DNA control region typing from highly degraded skeletal remains by single‐multiplex next‐generation sequencing

Vinueza‐Espinosa, Diana C.; Cuesta‐Aguirre, Daniel R.; Malgosa, Assumpció; Santos, Cristina

doi:10.1002/elps.202200052

Cited by 3 publications

(3 citation statements)

References 44 publications

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“…Forensic anthropology is a discipline that uses methods of physical anthropology to assist law enforcement in the investigation of crimes and other legal cases. These include sex and age estimation methods to identify individuals as well as techniques to identify trauma and taphonomic markers [5,6]. In particular, in our cases reported, these forensic activities were carried out for human remains found outdoors that were partially or totally decomposed or skeletonized [7].…”

Section: Discussionmentioning

confidence: 99%

The Fascinating World of Forensic Sciences: Multidisciplinary Approaches in Human Remains and the Role of Forensic Pathology in Calabrian Experience

Gualtieri,

Sacco,

Galassi

et al. 2024

Cureus

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Section: Discussionmentioning

confidence: 99%

The Fascinating World of Forensic Sciences: Multidisciplinary Approaches in Human Remains and the Role of Forensic Pathology in Calabrian Experience

Gualtieri,

Sacco,

Galassi

et al. 2024

Cureus

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“…The non-coding region, or control region (CR), plays a crucial role in mitochondrial DNA replication and transcription. The hypervariable regions (HV-I, HV-II, and HV-III) within the CR have a higher mutation rate than coding regions [18][19][20]. Consequently, the discriminative power of HV-polymorphisms has been exploited for maternal lineage tracing, population studies, and forensics [18][19][20].…”

Section: Introductionmentioning

confidence: 99%

“…Today, next-generation sequencing (NGS) has revolutionized the field of mtDNA haplotyping. NGS enables rapid and cost-effective sequencing of the mitogenome, allowing for the identification of single-nucleotide polymorphisms (SNP), insertions, deletions, and structural variants, providing a comprehensive view of mtDNA diversity [18][19][20]. Over the last decade, the number of bioinformatics tools developed for mtDNA haplotyping has also increased [23].…”

Section: Introductionmentioning

confidence: 99%

A Customized Human Mitochondrial DNA Database (hMITO DB v1.0) for Rapid Sequence Analysis, Haplotyping and Geo-Mapping

Shen-Gunther,

Gunther,

Cai

et al. 2023

IJMS

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The field of mitochondrial genomics has advanced rapidly and has revolutionized disciplines such as molecular anthropology, population genetics, and medical genetics/oncogenetics. However, mtDNA next-generation sequencing (NGS) analysis for matrilineal haplotyping and phylogeographic inference remains hindered by the lack of a consolidated mitogenome database and an efficient bioinformatics pipeline. To address this, we developed a customized human mitogenome database (hMITO DB) embedded in a CLC Genomics workflow for read mapping, variant analysis, haplotyping, and geo-mapping. The database was constructed from 4286 mitogenomes. The macro-haplogroup (A to Z) distribution and representative phylogenetic tree were found to be consistent with published literature. The hMITO DB automated workflow was tested using mtDNA-NGS sequences derived from Pap smears and cervical cancer cell lines. The auto-generated read mapping, variants track, and table of haplotypes and geo-origins were completed in 15 min for 47 samples. The mtDNA workflow proved to be a rapid, efficient, and accurate means of sequence analysis for translational mitogenomics.

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A Customized Human Mitochondrial DNA Database (hMITO DB v1.0) for Rapid Sequence Analysis, Haplotyping and Geo-Mapping to Advance Translational Mitogenomics

Shen-Gunther¹,

Gunther²,

Cai³

et al. 2023

Preprint

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The field of mitochondrial genomics has advanced rapidly and revolutionized disciplines from molecular anthropology, population genetics, to medical/oncogenetics. However, mtDNA next-generation sequencing (NGS) analysis for matrilineal haplotyping and phylogeographic inference remains hindered by the lack of a consolidated, mitogenome database and efficient bioinformatics pipeline. To address this, we developed a customized human mitogenome database (hMITO DB) embedded in a CLC Genomics workflow for read mapping, variant analysis, haplotyping, and geo-mapping. The database was constructed from 4,286 mitogenomes. The macro-haplogroup (A to Z) distribution and representative phylogenetic tree were found consistent with published literature. The hMITO DB automated workflow was tested using mtDNA-NGS sequences derived from Pap smears and cervical cancer cell lines. The auto-generated read mapping, variants track, and table of haplotypes and geo-origins were completed in 15 min for 47 samples. The mtDNA workflow proved to be a rapid, efficient and accurate means of sequence analysis for translational mitogenomics.

show abstract

Mitochondrial DNA control region typing from highly degraded skeletal remains by single‐multiplex next‐generation sequencing

Cited by 3 publications

References 44 publications

The Fascinating World of Forensic Sciences: Multidisciplinary Approaches in Human Remains and the Role of Forensic Pathology in Calabrian Experience

The Fascinating World of Forensic Sciences: Multidisciplinary Approaches in Human Remains and the Role of Forensic Pathology in Calabrian Experience

A Customized Human Mitochondrial DNA Database (hMITO DB v1.0) for Rapid Sequence Analysis, Haplotyping and Geo-Mapping

A Customized Human Mitochondrial DNA Database (hMITO DB v1.0) for Rapid Sequence Analysis, Haplotyping and Geo-Mapping to Advance Translational Mitogenomics

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