Abstract
Over the last few years, advances in massively parallel sequencing technologies (also referred to next generation sequencing) and bioinformatics analysis tools have boosted our knowledge on the human microbiome. Such insights have brought new perspectives and possibilities to apply human microbiome analysis in many areas, particularly in medicine. In the forensic field, the use of microbial DNA obtained from human materials is still in its infancy but has been suggested as a potential alternative in situations when other human (non-microbial) approaches present limitations. More specifically, DNA analysis of a wide variety of microorganisms that live in and on the human body offers promises to answer various forensically relevant questions, such as post-mortem interval estimation, individual identification, and tissue/body fluid identification, among others. However, human microbiome analysis currently faces significant challenges that need to be considered and overcome via future forensically oriented human microbiome research to provide the necessary solutions. In this perspective article, we discuss the most relevant biological, technical and data-related issues and propose future solutions that will pave the way towards the integration of human microbiome analysis in the forensic toolkit.
Highlights
A great variety of microorganisms live in and on the human body, including bacteria, archaea, lower and higher eukaryotes and viruses, collectively referred to as the human microbiota [1,2]
We provide an overview on the most important biological, technical and data-related issues current forensic human microbiome analysis is facing and propose future solutions how dedicated forensically-motivated and other related research can pave the way towards the integration of the human microbiome in the forensic toolkit
Information on the time when a stain was deposited at a crime scene can help police to assess alibis of known suspects and witnesses or provide an investigative lead to search for the right suspect. This forensic application had not been investigated in a microbiome context until recently when it has been shown that DNA- and RNA-based time dependent changes occur in the microbial composition of human bio logical traces [56,57]
Summary
A great variety of microorganisms live in and on the human body, including bacteria, archaea, lower and higher eukaryotes and viruses, collectively referred to as the human microbiota [1,2]. In the mid 2000’s, advances in massively parallel sequencing (MPS, referred to as generation sequencing, NGS) and bioinformatics analysis tools started to allow for population-level surveys of the human microbiome from different body parts. These include the Human Microbiome Project (HMP) Consortium in the USA [7,8] and the Metagenomics of the Human Intestinal Tract (MetaHIT) Project in the European Union [9]. We provide an overview on the most important biological, technical and data-related issues current forensic human microbiome analysis is facing and propose future solutions how dedicated forensically-motivated and other related research can pave the way towards the integration of the human microbiome in the forensic toolkit
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