Optimization of recovery of human DNA from envelope flaps using DNA IQ™ System for STR genotyping

An optimized protocol based on the DNA IQ™ System has been tested for the extraction of DNA from envelope flaps. DNA is extracted directly without the need for opening and swabbing the flaps. The method is repeatable with <10% R.S.D. (relative standard deviation). The results of a systematic study show that it is an equilibrium extraction, and a small sample volume as well as high lysis buffer content in sample contribute to high extraction efficiency. The extracted DNA requires no further purification steps following its extraction with the DNA IQ™ System. Complete but skewed 15-locus short tandem repeat (STR) profiles, which is typical of degraded of DNA, have been generated from the DNA extracted from 6 to 9 years old casework envelope samples.     

Developmental Validation of the PrepFiler™ Forensic DNA Extraction Kit for Extraction of Genomic DNA from Biological Samples*

Abstract: The PrepFiler? Forensic DNA Extraction Kit enables isolation of genomic DNA from a variety of biological samples. The kit facilitates reversible binding of DNA with magnetic particles resulting in high DNA recovery from samples with very low and high quantities of biological materials: 0.1 and 40 μL of human blood (donor 2) provided 14 and 2883 ng of DNA, respectively. Following the revised SWGDAM guidelines, performance of the developed method was investigated using different sample types including saliva on swabs, semen stains on cotton fabric, samples exposed to environment, samples with polymerase chain reaction (PCR) inhibitors, blood stains (on denim, cotton cloth, and FTA^® paper), and touch evidence‐type samples. DNA yields for all samples tested were equal or better than those obtained by both phenol–chloroform extraction and commercial kits tested. DNA obtained from these samples was free of detectable PCR inhibitors. Short tandem repeat profiles were complete, conclusive, and devoid of PCR artifacts.     

Validation of a DNA IQ™-based extraction method for TECAN robotic liquid handling workstations for processing casework

A semi-automated DNA extraction process for casework samples based on the Promega DNA IQ™ system was optimized and validated on TECAN Genesis 150/8 and Freedom EVO robotic liquid handling stations configured with fixed tips and a TECAN TE-Shake™ unit. The use of an orbital shaker during the extraction process promoted efficiency with respect to DNA capture, magnetic bead/DNA complex washes and DNA elution. Validation studies determined the reliability and limitations of this shaker-based process. Reproducibility with regards to DNA yields for the tested robotic workstations proved to be excellent and not significantly different than that offered by the manual phenol/chloroform extraction. DNA extraction of animal:human blood mixtures contaminated with soil demonstrated that a human profile was detectable even in the presence of abundant animal blood. For exhibits containing small amounts of biological material, concordance studies confirmed that DNA yields for this shaker-based extraction process are equivalent or greater to those observed with phenol/chloroform extraction as well as our original validated automated magnetic bead percolation-based extraction process. Our data further supports the increasing use of robotics for the processing of casework samples.     

Mitochondrial DNA Validation in a State Laboratory*,†

Abstract: Because of the inception of the FBI Regional mitochondrial DNA (mtDNA) laboratories, many do not see establishing state/local mtDNA processing laboratories as a priority. Yet there is a long‐term need for mtDNA processing that will exceed the capabilities of the FBI Regional mtDNA laboratories and the few other laboratories that are currently processing mtDNA, and that need can be fulfilled by state/local laboratories. Thus, the DNA Unit of the Delaware Office of the Chief Medical Examiner (OCME‐DNA Unit) completed validation of in‐house mtDNA testing in January 2007. The validation plan for mtDNA processing included the following sections: preliminary research, sensitivity and contamination studies, ExoSAP‐IT^® optimization, BigDye^® optimization, sequencing and 310 optimization, sample preparation and extraction optimization, heteroplasmy, mixtures, and reproducibility. All sections of the validation were successfully completed, and mtDNA processing of skeletal remains, teeth, and hairs, as well as blood and buccal reference samples was adopted by the OCME‐DNA Unit.     

AutoMate Express™ forensic DNA extraction system for the extraction of genomic DNA from biological samples

Abstract: The AutoMate Express? Forensic DNA Extraction System was developed for automatic isolation of DNA from a variety of forensic biological samples. The performance of the system was investigated using a wide range of biological samples. Depending on the sample type, either PrepFiler? lysis buffer or PrepFiler BTA? lysis buffer was used to lyse the samples. After lysis and removal of the substrate using LySep? column, the lysate in the sample tubes were loaded onto AutoMate Express? instrument and DNA was extracted using one of the two instrument extraction protocols. Our study showed that DNA was recovered from as little as 0.025 μL of blood. DNA extracted from casework‐type samples was free of detectable PCR inhibitors and the short tandem repeat profiles were complete, conclusive, and devoid of any PCR artifacts. The system also showed consistent performance from day‐to‐day operation.     

Validation of Reduced Reagent Volumes in the Implementation of the Quantifiler® Trio Quantification Kit

The Quantifiler^® Trio Quantification Kit has been developed to quantify the total amount of amplifiable and human male DNA in samples and to estimate the extent of DNA degradation. To minimize the cost of DNA quantification, we evaluated kit performance using a reduced volume of reagents (1/10‐volume) using DNA samples of varying types and concentrations. Our results demonstrated concordance between the manufacturer's method and the low‐volume method for DNA quantification, DNA degradation index estimation, and human male DNA quantification. We confirmed the practical utility of the low‐volume method with 109 casework samples by evaluating short tandem repeat (STR) profiling success with respect to DNA quantity and quality. We also defined a cutoff value for DNA quantity to ensure reliable STR results. Using a reduced volume of reagents, 10 times more reactions per kit are possible; accordingly, this method reduces the cost of DNA quantification, while maintaining performance.     

Application of the BioMek 2000 Laboratory Automation Workstation and the DNA IQ System to the extraction of forensic casework samples

Robotic systems are commonly utilized for the extraction of database samples. However, the application of robotic extraction to forensic casework samples is a more daunting task. Such a system must be versatile enough to accommodate a wide range of samples that may contain greatly varying amounts of DNA, but it must also pose no more risk of contamination than the manual DNA extraction methods. This study demonstrates that the BioMek 2000 Laboratory Automation Workstation, used in combination with the DNA IQ System, is versatile enough to accommodate the wide range of samples typically encountered by a crime laboratory. The use of a silica coated paramagnetic resin, as with the DNA IQ System, facilitates the adaptation of an open well, hands off, robotic system to the extraction of casework samples since no filtration or centrifugation steps are needed. Moreover, the DNA remains tightly coupled to the silica coated paramagnetic resin for the entire process until the elution step. A short pre-extraction incubation step is necessary prior to loading samples onto the robot and it is at this step that most modifications are made to accommodate the different sample types and substrates commonly encountered with forensic evidentiary samples. Sexual assault (mixed stain) samples, cigarette butts, blood stains, buccal swabs, and various tissue samples were successfully extracted with the BioMek 2000 Laboratory Automation Workstation and the DNA IQ System, with no evidence of contamination throughout the extensive validation studies reported here.     

法医物证DNA自动化检验技术体系的研究

目的建立自动化工作站同步提取不同种类涉案法医生物检材DNA的新方法。方法选用TECAN Freedom EVO100．4、75—2型自动化提取、加样工作站,采用磁珠法及Chelex-100法对各类涉案生物检材进行DNA提取、PCR扩增、毛细管电泳检测其STR分型,进行比较测试。在“全国公安机关DNA数据库应用系统”中建立并应用实验室信息管理系统（LIMS）模拟实施规范化DNA检案。结果1552份各类检材,采用工作站-磁珠法提取DNA效果最佳,STR检测成功率为95％,工作站-Chelex法为88％;二者分别与其手工提取法比较,成功率无明显差异。92个样本同期检测,自动化工作站较手工操作DNA检案时间可缩减1．25倍。结论工作站域珠法提取涉案检材DNA,可获得满意的STR分型结果。应用LIMS管控,可有效防控污染,明显提高检案效率及鉴定质量。     

Detection of microRNAs in DNA Extractions for Forensic Biological Source Identification

Molecular‐based approaches for biological source identification are of great interest in the forensic community because of a lack of sensitivity and specificity in current methods. MicroRNAs (miRNAs) have been considered due to their robust nature and tissue specificity; however, analysis requires a separate RNA extraction, requiring an additional step in the forensic analysis workflow. The purpose of this study was to evaluate miRNA detection in blood, semen, and saliva using DNA extraction methods commonly utilized for forensic casework. RT‐qPCR analysis revealed that the tested miRNAs were consistently detectable across most tested DNA extraction methods, but detection was significantly reduced compared to RNA extracts in some biological fluids. DNase treatment was not necessary to achieve miRNA‐specific results. A previously developed miRNA panel for forensic body fluid identification was evaluated using DNA extracts, and largely demonstrated concordance with results from samples deriving from RNA extracts of semen, blood, and saliva.     

全血中DNA6种提取方法的比较

目的 比较经典有机法、改良有机法、常规Chelex-100法、IQ法、Qiagen法及SP法6种方法在提取DNA纯度和得率上的差异.方法 收集10名健康志愿者的静脉全血各5mL,分别采用6种方法提取基因组DNA,通过紫外分光光度仪和荧光定量分析技术检测产物的纯度和浓度,计算得率,并使用统计软件对结果进行分析.结果 常规Chelex-100法所得DNA的纯度明显低于其他方法,而另外5种方法所得DNA纯度的差异不具有统计学意义.改良有机法得率最低,IQ法得率最高.统计结果表明试剂盒方法抽提全血DNA的得率明显高于经典有机法、常规Chelex-100法和改良有机法,其差异具有统计学意义.结论 与有机法和常规Chelex-100法相比,高质量试剂盒类方法更有利于法医学检材的DNA抽提.     

Microchip-based cell lysis and DNA extraction from sperm cells for application to forensic analysis

The current backlog of casework is among the most significant challenges facing crime laboratories at this time. While the development of next-generation microchip-based technology for expedited forensic casework analysis offers one solution to this problem, this will require the adaptation of manual, large-volume, benchtop chemistry to small volume microfluidic devices. Analysis of evidentiary materials from rape kits where semen or sperm cells are commonly found represents a unique set of challenges for on-chip cell lysis and DNA extraction that must be addressed for successful application. The work presented here details the development of a microdevice capable of DNA extraction directly from sperm cells for application to the analysis of sexual assault evidence. A variety of chemical lysing agents are assessed for inclusion in the extraction protocol and a method for DNA purification from sperm cells is described. Suitability of the extracted DNA for short tandem repeat (STR) analysis is assessed and genetic profiles shown. Finally, on-chip cell lysis methods are evaluated, with results from fluorescence visualization of cell rupture and DNA extraction from an integrated cell lysis and purification with subsequent STR amplification presented. A method for on-chip cell lysis and DNA purification is described, with considerations toward inclusion in an integrated microdevice capable of both differential cell sorting and DNA extraction. The results of this work demonstrate the feasibility of incorporating microchip-based cell lysis and DNA extraction into forensic casework analysis.     

Validation of a DNA Quantitation Method on the Biomek® 3000

Abstract: Laboratory automation has the ability to increase the throughput and efficiency of laboratory processes to keep pace with current backlogs and requests for analysis. This paper addresses the specific studies employed to properly evaluate an automated method for DNA quantitation setup using Applied Biosystems Quantifiler? Human DNA Quantification kit on a Biomek^® 3000. The calibration of robotic pipetting as well as comparison with manually performed steps confirmed the accuracy of the automated methods used. Reproducibility studies evaluated differences between robotic and manually prepared human DNA standard curves. Additional studies examined DNA samples of known quantities, extract storage formats, sensitivity, and an assessment of contamination. The Biomek^® 3000 not only demonstrated reproducibility and accuracy that equaled or surpassed the manual method but also revealed a contamination‐free method to replace the multiple pipetting steps required during quantitation setup.     

Qiagen's Investigator™ Quantiplex Kit as a Predictor of STR Amplification Success from Low‐Yield DNA Samples,

Qiagen's Investigator? Quantiplex kit, a total human DNA quantitation kit, has a 200‐base pair internal control, fast cycling time, and scorpion molecules containing a covalently linked primer, probe, fluorophore, and quencher. The Investigator? Quantiplex kit was evaluated to investigate a value under which complete short tandem repeat (STR) failure was consistently obtained. Buccal swabs were extracted using the Qiagen QIAamp^® DNA Blood Mini Kit, quantified with the Investigator? Quantiplex kit using a tested half‐volume reaction, amplified with the ABI AmpFlSTR^® Identifiler kit, separated on the 3100Avant Genetic Analyzer, and data analyzed with GeneMapper^® ID v.3.2. While undetected samples were unlikely to produce sufficient data for statistical calculations or CODIS upload (2.00 alleles and 0.82 complete loci on average), data may be useful for exclusionary purposes. Thus, the Investigator? Quantiplex kit may be useful for predicting STR success. These findings are comparable with previously reported data from the Quantifiler? Human kit.     

Chelex法和两种磁珠法提取接触DNA效果的比较

目的比较Chelex法、DNA IQ磁珠法、EQ国产磁珠法对接触DNA的提取效果。方法将稀释为10ng、100ng的标准品DNA,分别采用Chelex法、DNA IQ磁珠法、EQ国产磁珠法处理;对30例烟蒂和30例牙刷分别采用Chelex法、DNA IQ磁珠法和EQ国产磁珠法提取DNA,然后进行PCR定量和STR检测。结果Chelex法对DNA的提取无损失,DNA IQ磁珠法、EQ国产磁珠法对DNA的提取均有不同程度的损失;烟蒂、牙刷等检材采用Chelex法提取的接触DNA量和IPC CT值显著高于IQ磁珠法、EQ国产磁珠法,但STR检验成功率却低于IQ磁珠法、EQ国产磁珠法。2种磁珠法提取的DNA量、IPC CT值和STR检验成功率无显著性差异。结论污染轻、杂质少的接触DNA检材,用Chelex法提取最为方便快捷;IQ磁珠法、EQ国产磁珠法更适合污染接触DNA检材的提取及自动化操作。     

4种固相颗粒吸附法提取滤纸血痕DNA效果的比较

目的探讨4种固相颗粒吸附法提取滤纸血痕样本DNA的效果。方法含有1μL静脉血的滤纸血痕180份,分为4组,每组45份。分别采用4种固相颗粒吸附法(DNAIQ~(TM)系统、D盾超敏DNA提取试剂盒、超高效硅珠纯化DNA提取试剂盒和常规的硅珠法)对上述样本进行DNA提取,对比各组DNA溶液的浓度及STR分型检验结果。结果 D盾超敏DNA提取试剂盒[(3.764±1.790)μg/mL]、超高效硅珠纯化DNA提取试剂盒(3.634±1.112)及常规硅珠法(3.350±1.250)提取到DNA溶液的浓度无统计学差异(P0.05),但均高于DNA IQ~(TM)系统(1.864±1.207)(P0.001);D盾超敏DNA提取试剂盒、超高效硅珠纯化DNA提取试剂盒及常规硅珠法样本图谱峰高大于DNA IQ~(TM)系统(P0.001),超高效硅珠纯化DNA提取试剂盒和常规硅珠法样本图谱峰高大于D盾超敏DNA提取试剂盒(P0.01)。结论 D盾超敏DNA提取试剂盒、超高效硅珠纯化DNA提取试剂盒及常规硅珠法对于滤纸血痕的DNA提取效率高于DNA IQ~(TM)系统;超高效硅珠纯化DNA提取试剂盒和常规硅珠提取到的DNA溶液可能具有更高的质量。     

PE‐Swab Direct STR Amplification of Forensic Touch DNA Samples

The PE‐Swab direct STR amplification workflow was developed to process low‐level “touch DNA” samples. In this workflow, a forensic sample is first collected on a 4‐mm PE‐Swab (a novel sample collection device); two 2‐mm punches containing collected samples are then generated from the PE‐Swab and directly amplified for STR typing. Compared to the conventional STR workflow, which involves DNA extraction, purification, and elution volume reduction, the PE‐Swab direct STR amplification workflow does not require sample preparation and takes <60 sec before a touch sample is ready for STR amplification. Because there is no DNA loss due to sample preparation, the PE‐Swab workflow is more sensitive than the conventional STR workflow. The average peak height per sample obtained by the PE‐swab workflow is 3 times higher than that from the conventional workflow with both low‐level single source and two‐contributor mixture samples tested in this study.     

磁珠法自动化纯化现场检材DNA方法研究

目的利用TE-MAGS在TECAN工作站上结合磁珠试剂盒,建立自动化工作站批量纯化现场检材DNA的方法,并探讨其在法医物证检案中的应用。方法灵敏度测试:标准品使用0.1ng/μL 9947A,用200μL TES稀释制备DNA总量0.1ng~1ng共10种的标准样品,采用本文方法提取纯化,使用IdentifilerTM试剂盒扩增,用3130XL型测序仪检测,Gene Mapper ID-X分析,分析STR图谱质量;纯化能力测试:在1ng总量的标准样品中加入腐殖酸、血红素,采用本文方法提取纯化、扩增检测,分析STR图谱质量;实际案件应用对比:收集304份现场检材,分别采用本方法和硅珠法进行提取纯化,经扩增检测,统计对比两种提取纯化方法 STR分型成功率。结果灵敏度测试:0.1ng~0.2ng总量标准样品提取的DNA模板,扩增后可检测到部分基因座STR图谱,0.3ng~1ng总量标准样品提取的DNA模板,扩增后可以得到完整的STR图谱;纯化能力测试:对混合有一定浓度的腐殖酸、血红素的标准样品的提取产物检测图谱未见明显抑制;实际案件应用对比测试:304份现场检材工作站磁珠法检出成功率(50%)高于硅珠法(40.8%)。结论本文所建立的方法缓冲范围较大,回收率高,纯化能力强,提取产物STR分型成功率高,适合现场检材批量化DNA检验。     

应用自动化工作站提取常见生物样本DNA

目的建立使用自动化工作站提取法医案件生物样本DNA的方法。方法选用Biomek 3000自动化工作站,采用DNA IQTM系统及Chelex法对法医案件中常见生物样本进行DNA提取,荧光定量技术进行定量,PCR扩增16个STR基因座并与手工提取方法比较。结果与手工提取方法进行比较,选用自动化工作站结合使用DNAIQTM系统及Chelex法提取DNA可获得满意的STR检验结果。结论自动化工作站可用于法医案件中常见生物样本的DNA提取。     

A Powder-free DNA Extraction Workflow for Skeletal Samples

The processing of skeletal material poses several challenges for forensic laboratories. Current methods can be laborious, time-consuming, require dedicated equipment, and are vulnerable to contamination. In this study, various sample mass (1 × 50 mg, 3 × 50 mg, and 1 × 150 mg chip(s)) and incubation times (2, 4, and 16 h) were tested using the PrepFiler^® BTA™ Forensic DNA Extraction Kit to digest whole bone chips in lieu of powdering. The most effective method was then applied to bones and tooth fragments collected from contemporary human cadavers exposed to various environmental conditions using an automated platform. Over a third of the samples tested generated full DNA profiles without having to powder the bone/tooth fragment or further alter the manufacturer's protocol. However, for most samples resulting in incomplete STR profiles due to low amounts of DNA, slightly better results were achieved with powdered tissue. Overall, this work demonstrates the potential use of a faster, nonpowdering DNA extraction method for processing skeletal samples as an effective first-pass screening tool.