Bridging Disciplines to Form a New One: The Emergence of Forensic Genetic Genealogy

Forensic Genetic Genealogy (FGG) has fast become a popular tool in criminal investigations since it first emerged in 2018. FGG is a novel investigatory tool that has been applied to hundreds of unresolved cold cases in the United States to generate investigative leads and identify unknown individual...
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Autor*in:	Claire L. Glynn [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2022

Schlagwörter:	Forensic Genetic Genealogy forensic genetics DNA Single Nucleotide Polymorphisms forensic science investigations

Übergeordnetes Werk:	In: Genes - MDPI AG, 2010, 13(2022), 8, p 1381
Übergeordnetes Werk:	volume:13 ; year:2022 ; number:8, p 1381

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc

DOI / URN:	10.3390/genes13081381

Katalog-ID:	DOAJ03640814X

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author	Claire L. Glynn
spellingShingle	Claire L. Glynn misc QH426-470 misc Forensic Genetic Genealogy misc forensic genetics misc DNA misc Single Nucleotide Polymorphisms misc forensic science misc investigations misc Genetics Bridging Disciplines to Form a New One: The Emergence of Forensic Genetic Genealogy
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topic_title	QH426-470 Bridging Disciplines to Form a New One: The Emergence of Forensic Genetic Genealogy Forensic Genetic Genealogy forensic genetics DNA Single Nucleotide Polymorphisms forensic science investigations
topic	misc QH426-470 misc Forensic Genetic Genealogy misc forensic genetics misc DNA misc Single Nucleotide Polymorphisms misc forensic science misc investigations misc Genetics
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title	Bridging Disciplines to Form a New One: The Emergence of Forensic Genetic Genealogy
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title_auth	Bridging Disciplines to Form a New One: The Emergence of Forensic Genetic Genealogy
abstract	Forensic Genetic Genealogy (FGG) has fast become a popular tool in criminal investigations since it first emerged in 2018. FGG is a novel investigatory tool that has been applied to hundreds of unresolved cold cases in the United States to generate investigative leads and identify unknown individuals. Consumer DNA testing and the public’s increased curiosity about their own DNA and genetic ancestry, have greatly contributed to the availability of human genetic data. Genetic genealogy has been a field of study/interest for many years as both amateur and professional genetic genealogists use consumer DNA data to explore genetic connections in family trees. FGG encompasses this knowledge by applying advanced sequencing technologies to forensic DNA evidence samples and by performing genetic genealogy methods and genealogical research, to produce possible identities of unknown perpetrators of violent crimes and unidentified human remains. This combination of forensic genetics, genetic genealogy, and genealogical research has formed a new subdiscipline within the forensic sciences. This paper will summarize the individual disciplines that led to the emergence of FGG, its practice in forensic investigations, and current/future considerations for its use.
abstractGer	Forensic Genetic Genealogy (FGG) has fast become a popular tool in criminal investigations since it first emerged in 2018. FGG is a novel investigatory tool that has been applied to hundreds of unresolved cold cases in the United States to generate investigative leads and identify unknown individuals. Consumer DNA testing and the public’s increased curiosity about their own DNA and genetic ancestry, have greatly contributed to the availability of human genetic data. Genetic genealogy has been a field of study/interest for many years as both amateur and professional genetic genealogists use consumer DNA data to explore genetic connections in family trees. FGG encompasses this knowledge by applying advanced sequencing technologies to forensic DNA evidence samples and by performing genetic genealogy methods and genealogical research, to produce possible identities of unknown perpetrators of violent crimes and unidentified human remains. This combination of forensic genetics, genetic genealogy, and genealogical research has formed a new subdiscipline within the forensic sciences. This paper will summarize the individual disciplines that led to the emergence of FGG, its practice in forensic investigations, and current/future considerations for its use.
abstract_unstemmed	Forensic Genetic Genealogy (FGG) has fast become a popular tool in criminal investigations since it first emerged in 2018. FGG is a novel investigatory tool that has been applied to hundreds of unresolved cold cases in the United States to generate investigative leads and identify unknown individuals. Consumer DNA testing and the public’s increased curiosity about their own DNA and genetic ancestry, have greatly contributed to the availability of human genetic data. Genetic genealogy has been a field of study/interest for many years as both amateur and professional genetic genealogists use consumer DNA data to explore genetic connections in family trees. FGG encompasses this knowledge by applying advanced sequencing technologies to forensic DNA evidence samples and by performing genetic genealogy methods and genealogical research, to produce possible identities of unknown perpetrators of violent crimes and unidentified human remains. This combination of forensic genetics, genetic genealogy, and genealogical research has formed a new subdiscipline within the forensic sciences. This paper will summarize the individual disciplines that led to the emergence of FGG, its practice in forensic investigations, and current/future considerations for its use.
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