RNA-Approached technology applications in forensic genetics

Novel Forensic Research Pub Date : 1900-01-01 DOI:10.5455/nofor.2022.06.01

E. Yukseloglu

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Abstract

Ribonucleic acid (RNA) is a nucleic acid which is structurally different from DNA. DNA is the most used and approved nucleic acid in routine applications in forensic caseworks. In this article, giving an information about which RNA types are chosen for which forensic applications is aimed. RNA technologies are developing in the concept of forensic genetics and they can be adapted into routine case works in the case of well conditions are supplied. Both coding and non-coding RNAs are investigated for forensic purposes and most examined ones are messenger RNAs, and microRNAs. There are some researches on circular RNAs and piwi-interacting RNAs but they are in low number when compared with first two RNA types. Forensic studies based on RNA technologies are body fluid identification, post mortem interval determination, determination of stain age, estimation of an individual’s age and sex, identification of organ tissues, wound age estimation, and determination of drug abuse. Lastly, different RNA based technologies can be used in these studies and some of them are micro-array, Nano-String technology, real time PCR, end point PCR, high resolution melt (HRM) analysis and next generation sequencing (NGS) technology.

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rna技术在法医遗传学中的应用

核糖核酸(RNA)是一种在结构上不同于DNA的核酸。DNA是法医案件中最常用和最被认可的核酸。在这篇文章中，给出了一个信息，哪些RNA类型被选择用于哪些法医应用的目标。RNA技术是在法医遗传学的概念下发展起来的，在有条件的情况下，可以应用到日常的案件工作中。编码rna和非编码rna都是为了法医目的而研究的，大多数研究的是信使rna和微rna。环状RNA和piwi相互作用RNA有一些研究，但与前两种RNA相比数量较少。基于RNA技术的法医研究包括体液鉴定、死后间隔测定、染色年龄测定、个人年龄和性别估计、器官组织鉴定、伤口年龄估计和药物滥用确定。最后，不同的RNA技术可用于这些研究，其中一些是微阵列技术，纳米链技术，实时PCR，终点PCR，高分辨率熔融(HRM)分析和下一代测序(NGS)技术。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Novel Forensic Research

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