DNA Based Methods in Intelligence - Moving Towards Metagenomics

Gabriella Mason-Buck; Eran Elhaik; Alexandra Graf; Jake Robinson; Ewelina Pośpiech; Manuela Oliveira; Josef Moser; Patrick K. H. Lee; Dedan Githae; David Ballard; Tae-Hyuk Ahn; Yana Bromberg; Carlos S. Casimiro-Soriguer; Eliza Dhungel; Jolanta Kawulok; Carlos Loucera; Feargal Ryan; Alejandro R. Walker; Chengsheng Zhu; Christopher E. Mason; António Amorim; Denise Syndercombe Court; Wojciech Branicki; Paweł P. Łabaj

DNA Based Methods in Intelligence - Moving Towards Metagenomics

Gabriella Mason-Buck, Eran Elhaik, Alexandra Graf, Jake Robinson, Ewelina Pośpiech, Manuela Oliveira, Josef Moser, Patrick K. H. Lee, Dedan Githae, David Ballard, Tae-Hyuk Ahn, Yana Bromberg, Carlos S. Casimiro-Soriguer, Eliza Dhungel, Jolanta Kawulok, Carlos Loucera, Feargal Ryan, Alejandro R. Walker, Chengsheng Zhu, Christopher E. MasonAntónio Amorim, Denise Syndercombe Court, Wojciech Branicki, Paweł P. Łabaj

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Abstract

Advancements in DNA methods and biotechnology have enabled forensic scientists to explore the DNA evidence found as part of a criminal investigation on a much more comprehensive and predictive level. This has led to a rise in research into DNA intelligence tools such as phenotypic prediction (ie, eye and hair colour) and inference of biogeographical ancestry. Both of which can be applied to gain further insights about a scene or sample in question. Although microorganisms have played a role in forensics for decades, investigations were focused on the pathogenicity aspect, mainly to determine the cause and time of death. Recent progress in studying the human microbiome has implicated the potential use of this data in forensics. Since each individual, place, or item has its own microbial pattern, a new suite of tools are now available to be exploited in criminal investigations. Although there is much interest and potential for these emerging metagenomic and microbial forensic tools, best practices and reference ranges need to be established before they are implemented. Here, we discuss existing DNA intelligence tools applied to forensic science, the application of microbial forensics and metagenomics along with the challenges and concerns that future developments entail.

Original language	English
Publisher	Preprints.org
Number of pages	33
Publication status	Submitted - 12 Feb 2020
Externally published	Yes

Publication series

Name	Preprints

Keywords

Forensic science
DNA
Microbial forensics
Metagenomics

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Submitted manuscriptSubmitted manuscript, 649 KBLicence: CC BY

https://www.preprints.org/manuscript/202002.0158/v1Licence: CC BY

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Mason-Buck, G., Elhaik, E., Graf, A., Robinson, J., Pośpiech, E., Oliveira, M., Moser, J., Lee, P. K. H., Githae, D., Ballard, D., Ahn, T.-H., Bromberg, Y., Casimiro-Soriguer, C. S., Dhungel, E., Kawulok, J., Loucera, C., Ryan, F., Walker, A. R., Zhu, C., ... Łabaj, P. P. (2020). DNA Based Methods in Intelligence - Moving Towards Metagenomics. (Preprints). Preprints.org. https://www.preprints.org/manuscript/202002.0158/v1

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title = "DNA Based Methods in Intelligence - Moving Towards Metagenomics",

abstract = "Advancements in DNA methods and biotechnology have enabled forensic scientists to explore the DNA evidence found as part of a criminal investigation on a much more comprehensive and predictive level. This has led to a rise in research into DNA intelligence tools such as phenotypic prediction (ie, eye and hair colour) and inference of biogeographical ancestry. Both of which can be applied to gain further insights about a scene or sample in question. Although microorganisms have played a role in forensics for decades, investigations were focused on the pathogenicity aspect, mainly to determine the cause and time of death. Recent progress in studying the human microbiome has implicated the potential use of this data in forensics. Since each individual, place, or item has its own microbial pattern, a new suite of tools are now available to be exploited in criminal investigations. Although there is much interest and potential for these emerging metagenomic and microbial forensic tools, best practices and reference ranges need to be established before they are implemented. Here, we discuss existing DNA intelligence tools applied to forensic science, the application of microbial forensics and metagenomics along with the challenges and concerns that future developments entail.",

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author = "Gabriella Mason-Buck and Eran Elhaik and Alexandra Graf and Jake Robinson and Ewelina Po{\'s}piech and Manuela Oliveira and Josef Moser and Lee, {Patrick K. H.} and Dedan Githae and David Ballard and Tae-Hyuk Ahn and Yana Bromberg and Casimiro-Soriguer, {Carlos S.} and Eliza Dhungel and Jolanta Kawulok and Carlos Loucera and Feargal Ryan and Walker, {Alejandro R.} and Chengsheng Zhu and Mason, {Christopher E.} and Ant{\'o}nio Amorim and {Syndercombe Court}, Denise and Wojciech Branicki and {\L}abaj, {Pawe{\l} P.}",

year = "2020",

month = feb,

day = "12",

language = "English",

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Mason-Buck, G, Elhaik, E, Graf, A, Robinson, J, Pośpiech, E, Oliveira, M, Moser, J, Lee, PKH, Githae, D, Ballard, D, Ahn, T-H, Bromberg, Y, Casimiro-Soriguer, CS, Dhungel, E, Kawulok, J, Loucera, C, Ryan, F, Walker, AR, Zhu, C, Mason, CE, Amorim, A, Syndercombe Court, D, Branicki, W & Łabaj, PP 2020 'DNA Based Methods in Intelligence - Moving Towards Metagenomics' Preprints, Preprints.org. <https://www.preprints.org/manuscript/202002.0158/v1>

TY - UNPB

T1 - DNA Based Methods in Intelligence - Moving Towards Metagenomics

AU - Mason-Buck, Gabriella

AU - Elhaik, Eran

AU - Graf, Alexandra

AU - Robinson, Jake

AU - Pośpiech, Ewelina

AU - Oliveira, Manuela

AU - Moser, Josef

AU - Lee, Patrick K. H.

AU - Githae, Dedan

AU - Ballard, David

AU - Ahn, Tae-Hyuk

AU - Bromberg, Yana

AU - Casimiro-Soriguer, Carlos S.

AU - Dhungel, Eliza

AU - Kawulok, Jolanta

AU - Loucera, Carlos

AU - Ryan, Feargal

AU - Walker, Alejandro R.

AU - Zhu, Chengsheng

AU - Mason, Christopher E.

AU - Amorim, António

AU - Syndercombe Court, Denise

AU - Branicki, Wojciech

AU - Łabaj, Paweł P.

PY - 2020/2/12

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N2 - Advancements in DNA methods and biotechnology have enabled forensic scientists to explore the DNA evidence found as part of a criminal investigation on a much more comprehensive and predictive level. This has led to a rise in research into DNA intelligence tools such as phenotypic prediction (ie, eye and hair colour) and inference of biogeographical ancestry. Both of which can be applied to gain further insights about a scene or sample in question. Although microorganisms have played a role in forensics for decades, investigations were focused on the pathogenicity aspect, mainly to determine the cause and time of death. Recent progress in studying the human microbiome has implicated the potential use of this data in forensics. Since each individual, place, or item has its own microbial pattern, a new suite of tools are now available to be exploited in criminal investigations. Although there is much interest and potential for these emerging metagenomic and microbial forensic tools, best practices and reference ranges need to be established before they are implemented. Here, we discuss existing DNA intelligence tools applied to forensic science, the application of microbial forensics and metagenomics along with the challenges and concerns that future developments entail.

AB - Advancements in DNA methods and biotechnology have enabled forensic scientists to explore the DNA evidence found as part of a criminal investigation on a much more comprehensive and predictive level. This has led to a rise in research into DNA intelligence tools such as phenotypic prediction (ie, eye and hair colour) and inference of biogeographical ancestry. Both of which can be applied to gain further insights about a scene or sample in question. Although microorganisms have played a role in forensics for decades, investigations were focused on the pathogenicity aspect, mainly to determine the cause and time of death. Recent progress in studying the human microbiome has implicated the potential use of this data in forensics. Since each individual, place, or item has its own microbial pattern, a new suite of tools are now available to be exploited in criminal investigations. Although there is much interest and potential for these emerging metagenomic and microbial forensic tools, best practices and reference ranges need to be established before they are implemented. Here, we discuss existing DNA intelligence tools applied to forensic science, the application of microbial forensics and metagenomics along with the challenges and concerns that future developments entail.

KW - Forensic science

KW - DNA

KW - Microbial forensics

KW - Metagenomics

M3 - Preprint

T3 - Preprints

BT - DNA Based Methods in Intelligence - Moving Towards Metagenomics

PB - Preprints.org

ER -

DNA Based Methods in Intelligence - Moving Towards Metagenomics

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