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使用每种体液至少 5 个 mRNA 标志物进行 mRNA 谱分析,并采用新型评分方法对体液进行鉴定。

mRNA profiling using a minimum of five mRNA markers per body fluid and a novel scoring method for body fluid identification.

机构信息

Orchid Cellmark Ltd., Unit 16 Blacklands Way, Abingdon Business Park, Abingdon OX14 1DY, UK.

出版信息

Int J Legal Med. 2013 Jul;127(4):707-21. doi: 10.1007/s00414-012-0794-3. Epub 2012 Dec 20.

DOI:10.1007/s00414-012-0794-3
PMID:23254458
Abstract

Messenger RNA (mRNA) expression varies among cell types; therefore, analyses for the presence of particular mRNAs can be used to identify biological fluids in forensic samples. For this work, several novel markers were characterized for saliva, cervicovaginal fluid (CVF), blood, and menstrual blood (MB). The new markers were used in combination with previously described markers to develop four multiplex polymerase chain reaction assays. These multiplexes incorporate two housekeeping and a minimum of five markers for each of the following forensically relevant body fluids: semen, saliva, CVF, blood, and MB. A large number of samples (>200) were analyzed to determine specificity of each marker. The majority of the markers were detected at low frequencies in non-target body fluids. Because markers were not specific to their respective target body fluids, a scoring system was developed to minimize the chances of misidentification of a sample due to marker expression in a non-target body fluid. Each marker was given a numerical value related to its "correct" (target body fluid) versus "incorrect" (non-target body fluid) expression in samples of known origin. For each of the five body fluids, the marker values of those mRNA markers that were present in a sample were added to produce a body fluid score. Threshold scores were then determined for the identification of each body fluid. Although this study highlights the complexity of body fluid identification, particularly in differentiating blood and MB, the use of threshold scores allowed for reliable body fluid identification in the samples tested.

摘要

信使 RNA(mRNA)在细胞类型之间的表达存在差异;因此,分析特定的 mRNAs 的存在可以用于鉴定法医样本中的生物液体。为此,我们对唾液、宫颈阴道液(CVF)、血液和月经血(MB)中的几种新标记物进行了特征描述。新标记物与先前描述的标记物结合使用,开发了四种多重聚合酶链反应测定法。这些多重测定法包含两个管家基因和以下每个法医学相关体液的至少五个标记物:精液、唾液、CVF、血液和 MB。分析了大量 (>200) 样本以确定每个标记物的特异性。大多数标记物在非目标体液中的检测频率较低。由于标记物不是其各自目标体液的特异性标记物,因此开发了一种评分系统,以最大程度地减少由于非目标体液中标记物表达而导致样品误识别的可能性。每个标记物都被赋予一个与其在已知来源样本中的“正确”(目标体液)与“错误”(非目标体液)表达相关的数值。对于五种体液中的每一种,都会对存在于样本中的那些 mRNA 标记物的标记物值进行求和,以产生体液评分。然后确定每个体液的识别阈值分数。尽管本研究强调了体液识别的复杂性,尤其是在区分血液和 MB 方面,但使用阈值分数允许对测试样本进行可靠的体液识别。

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2
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3
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4
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