{"title":"Who threw that stone? A study on DNA transfer","authors":"Aileen Sorg, Colin Charles Tièche, Martin Zieger","doi":"10.1016/j.fsigen.2024.103165","DOIUrl":null,"url":null,"abstract":"<div><div>Contact or touch DNA traces from stones account for around 5 % of all crime scene-related swab samples analysed in our department. These traces are often used to identify perpetrators in cases such as burglary, when a stone is used as a tool to break a window or in cases of property damage during riots. Provided that a DNA profile can be obtained in such a case, questions may arise in court regarding the possibilities of DNA transfer onto the stone. Was the subject's DNA indeed transferred onto the stone while it was being used for the crime, or was it already present as background DNA? Alternatively, could it have been transferred by other means, such as by handing over the stone to someone else who then threw it, or by touching it during an attempt to prevent someone else from throwing it? This study focused on two scenarios: experiments involving different participants throwing various stones and a handover scenario where one person touched the stone and another person threw it. We observed that the amount of DNA transferred/detected on the stone is mainly dependent on the individual handling it rather than on the properties of the stone itself or on the order in which the stones are thrown. In the handover scenario, the person who first touched the stone was found to be the main contributor to the trace as often as the person who eventually threw the stone. Our findings therefore confirm that no conclusions can be drawn about the way of interaction with the stones based solely on the obtained DNA profiles.</div></div>","PeriodicalId":50435,"journal":{"name":"Forensic Science International-Genetics","volume":"74 ","pages":"Article 103165"},"PeriodicalIF":3.2000,"publicationDate":"2024-10-21","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Forensic Science International-Genetics","FirstCategoryId":"3","ListUrlMain":"https://www.sciencedirect.com/science/article/pii/S1872497324001613","RegionNum":2,"RegionCategory":"医学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q2","JCRName":"GENETICS & HEREDITY","Score":null,"Total":0}
引用次数: 0
Abstract
Contact or touch DNA traces from stones account for around 5 % of all crime scene-related swab samples analysed in our department. These traces are often used to identify perpetrators in cases such as burglary, when a stone is used as a tool to break a window or in cases of property damage during riots. Provided that a DNA profile can be obtained in such a case, questions may arise in court regarding the possibilities of DNA transfer onto the stone. Was the subject's DNA indeed transferred onto the stone while it was being used for the crime, or was it already present as background DNA? Alternatively, could it have been transferred by other means, such as by handing over the stone to someone else who then threw it, or by touching it during an attempt to prevent someone else from throwing it? This study focused on two scenarios: experiments involving different participants throwing various stones and a handover scenario where one person touched the stone and another person threw it. We observed that the amount of DNA transferred/detected on the stone is mainly dependent on the individual handling it rather than on the properties of the stone itself or on the order in which the stones are thrown. In the handover scenario, the person who first touched the stone was found to be the main contributor to the trace as often as the person who eventually threw the stone. Our findings therefore confirm that no conclusions can be drawn about the way of interaction with the stones based solely on the obtained DNA profiles.
在我们部门分析的所有与犯罪现场有关的拭子样本中,来自石头的接触或触摸 DNA 痕迹约占 5%。在入室盗窃、用石块砸窗或骚乱中的财产损失等案件中,这些痕迹通常被用来识别犯罪者。在这种情况下,如果能够获得 DNA 图谱,那么在法庭上就可能会出现 DNA 是否转移到石头上的问题。当事人的 DNA 确实是在石头被用于犯罪时转移到石头上的,还是已经作为背景 DNA 存在?或者,DNA 是通过其他方式转移的,例如将石头交给他人,然后由他人投掷石头,或者在试图阻止他人投掷石头的过程中接触到石头?本研究主要关注两种情况:不同参与者投掷各种石块的实验,以及一个人接触石块、另一个人投掷石块的交接情景。我们观察到,石头上转移/检测到的 DNA 数量主要取决于处理石头的人,而不是石头本身的特性或扔石头的顺序。在交接过程中,我们发现最先接触石头的人与最终投掷石头的人一样,都是造成痕迹的主要因素。因此,我们的研究结果证实,不能仅凭所获得的 DNA 图谱就对与石头的互动方式得出结论。
期刊介绍:
Forensic Science International: Genetics is the premier journal in the field of Forensic Genetics. This branch of Forensic Science can be defined as the application of genetics to human and non-human material (in the sense of a science with the purpose of studying inherited characteristics for the analysis of inter- and intra-specific variations in populations) for the resolution of legal conflicts.
The scope of the journal includes:
Forensic applications of human polymorphism.
Testing of paternity and other family relationships, immigration cases, typing of biological stains and tissues from criminal casework, identification of human remains by DNA testing methodologies.
Description of human polymorphisms of forensic interest, with special interest in DNA polymorphisms.
Autosomal DNA polymorphisms, mini- and microsatellites (or short tandem repeats, STRs), single nucleotide polymorphisms (SNPs), X and Y chromosome polymorphisms, mtDNA polymorphisms, and any other type of DNA variation with potential forensic applications.
Non-human DNA polymorphisms for crime scene investigation.
Population genetics of human polymorphisms of forensic interest.
Population data, especially from DNA polymorphisms of interest for the solution of forensic problems.
DNA typing methodologies and strategies.
Biostatistical methods in forensic genetics.
Evaluation of DNA evidence in forensic problems (such as paternity or immigration cases, criminal casework, identification), classical and new statistical approaches.
Standards in forensic genetics.
Recommendations of regulatory bodies concerning methods, markers, interpretation or strategies or proposals for procedural or technical standards.
Quality control.
Quality control and quality assurance strategies, proficiency testing for DNA typing methodologies.
Criminal DNA databases.
Technical, legal and statistical issues.
General ethical and legal issues related to forensic genetics.
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