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.     

Validation of reduced-scale reactions for the Quantifiler Human DNA kit

Accurate quantification of DNA samples is an important step in obtaining accurate and reproducible short tandem repeat (STR) profiles. Quantitative real-time-PCR has improved the speed and accuracy of DNA quantification over earlier methods, albeit at significantly greater cost per reaction. Here, the performance of reduced volume (10 microL) DNA quantification assays using the Quantifiler Human DNA Quantification Kit was evaluated using commercial standards and single source biological stains (e.g., venous blood, saliva, and semen). In addition, casework-type samples including those subjected to environmental contaminants containing PCR inhibitors and samples having undergone extensive DNA degradation were also quantified. The concentration of DNA in various forensic samples ranged from 0 to 2.9 ng/microL depending on sample source and/or environmental insult. Compared to full-scale reactions, reduced volume assays displayed equivalent to improved amplification efficiency and sample-to-sample reproducibility (+/-0.01-0.17 C(T FAM)). Furthermore, the use of data from reduced-scale Quantifiler reactions facilitated the accurate determination of the amount of sample DNA extract needed to generate quality STR profiles. The use of 10 microL-scale Quantifiler reaction volumes has the practical benefit of increasing the effective number of reactions per kit by 250%; thereby reducing the cost per assay by 60% while consuming less sample. This is particularly advantageous in cases of consumptive testing.     

Comparison of five DNA quantification methods

Six commercial preparations of human genomic DNA were quantified using five quantification methods: UV spectrometry, SYBR-Green dye staining, slot blot hybridization with the probe D17Z1, Quantifiler™ Human DNA Quantification kit and RB1 rt-PCR. All methods measured higher DNA concentrations than expected based on the information by the manufacturers. UV spectrometry, SYBR-Green dye staining, slot blot and RB1 rt-PCR gave 39, 27, 11 and 12%, respectively, higher concentrations than expected based on the manufacturers’ information. The DNA preparations were quantified using the Quantifiler™ Human DNA Quantification kit in two experiments. The measured DNA concentrations with Quantifiler were 125 and 160% higher than expected based on the manufacturers’ information. When the Quantifiler™ human DNA standard (Raji cell line) was replaced by the commercial human DNA preparation G147A (Promega) to generate the DNA standard curve in the Quantifiler™ Human DNA Quantification kit, the DNA quantification results of the human DNA preparations were 31% higher than expected based on the manufacturers’ information. The results indicate a calibration problem with the Quantifiler™ human DNA standard for its use with the Quantifiler™ Human DNA Quantification kit. The possible reasons for the problem are discussed and a solution is suggested. The results emphasise the need for standard reference DNA material and standard methods for DNA quantification.     

Automated Quantifiler quantitative PCR setup, template normalization and PCR setup using HID EVOlution™ qPCR/STR setup on trace evidence samples

We have implemented and validated customized protocols for automated Quantifiler^® setup, template normalization and PCR setup using the Tecan HID EVOlution™ qPCR/STR setup. The protocols were validated for the Quantifiler^® human DNA quantification, AmpF?STR^® SGM Plus^® and SEfiler Plus™ PCR Amplification Kits (Applied Biosystems) according to EN/ISO 17025.     

Quantifiler Human DNA Quantification Kit (Applied Biosystems) as a screening kit for DNA profiling

This study investigates the connection between the results of DNA quantification with Quantifiler Human DNA Quantification Kit (AB) and DNA profiling. For this purpose the DNA concentration of 3.068 routine casework samples was determined and DNA profiling was carried out. For discussion, depending on the specific DNA concentration, the samples were divided into four groups (0–5, 5–10, 10–30 and more then 30 pg/μl DNA) and the obtained number of full or partial profiles and the negative typing results was listed. Moreover group 1 (0–5 pg/μl DNA) results were subdivided and analysed more precisely. Based on the amount of 4% positive typing results in group 1 we decided to analyse every sample with quantification results >0 pg/μl DNA. A real cut-off no longer exists. Only samples showing 0 pg/μl on each result were sorted out.     

Extraction of high quality DNA from biological materials and calcified tissues

Calcified tissues, such as bone and tooth, and some other sample types, such as those containing adhesive, present a challenge to standard extraction protocols. We have developed a lysis reagent, BTA™ lysis buffer, which is designed for use with PrepFiler™ Kit reagents. The BTA™ lysis buffer disrupts calcified tissue matrices and achieves effective extraction of DNA from pulverized bone and tooth samples. In addition, the BTA™ lysis buffer mildly but efficiently extracts DNA from challenging substrates like tape, chewing gum, and cigarette butts and, as with bone and tooth, DNA from these lysates is purified using established PrepFiler™ reagent extraction protocols.We successfully extracted DNA from powdered human bone samples, chewed gum and smoked cigarettes using BTA™ lysis buffer. Extraction yields for bone, gum and cigarette samples tested were consistent and reproducible. This extraction method efficiently removed potential PCR inhibitors from all samples tested, and C_T values for the internal PCR control of Quantifiler^® Human DNA Quantification Kit were consistent and within the normal range. The DNA extracted from these samples also provided conclusive profiles that were free of PCR artifacts when amplified using the AmpF?STR^® Identifiler^® PCR Amplification Kit. The protocol is easily adapted for automation.     

Automated PCR setup for forensic casework samples using the Normalization Wizard and PCR Setup robotic methods

Human genome, pharmaceutical and research laboratories have long enjoyed the application of robotics to performing repetitive laboratory tasks. However, the utilization of robotics in forensic laboratories for processing casework samples is relatively new and poses particular challenges. Since the quantity and quality (a mixture versus a single source sample, the level of degradation, the presence of PCR inhibitors) of the DNA contained within a casework sample is unknown, particular attention must be paid to procedural susceptibility to contamination, as well as DNA yield, especially as it pertains to samples with little biological material. The Virginia Department of Forensic Science (VDFS) has successfully automated forensic casework DNA extraction utilizing the DNA IQ(trade mark) System in conjunction with the Biomek 2000 Automation Workstation. Human DNA quantitation is also performed in a near complete automated fashion utilizing the AluQuant Human DNA Quantitation System and the Biomek 2000 Automation Workstation. Recently, the PCR setup for casework samples has been automated, employing the Biomek 2000 Automation Workstation and Normalization Wizard, Genetic Identity version, which utilizes the quantitation data, imported into the software, to create a customized automated method for DNA dilution, unique to that plate of DNA samples. The PCR Setup software method, used in conjunction with the Normalization Wizard method and written for the Biomek 2000, functions to mix the diluted DNA samples, transfer the PCR master mix, and transfer the diluted DNA samples to PCR amplification tubes. Once the process is complete, the DNA extracts, still on the deck of the robot in PCR amplification strip tubes, are transferred to pre-labeled 1.5 mL tubes for long-term storage using an automated method. The automation of these steps in the process of forensic DNA casework analysis has been accomplished by performing extensive optimization, validation and testing of the software methods.     

Assessing the performance of quantity and quality metrics using the QIAGEN Investigator® Quantiplex® pro RGQ kit

The Quantiplex® Pro RGQ kit quantifies DNA in a sample, supports the detection of mixtures and assesses the extent of DNA degradation based on relative ratios of amplified autosomal and male markers. Data show no significant difference in the accuracy and sensitivity of quantification between this and the Promega PowerQuant® System, both detecting the lowest amount of DNA tested, 4 pg. Laboratory controlled mixed male:female DNA samples together with mock sexual assault samples were quantified across a range of mixture ratios. Analysis software detected mixed DNA samples across all ratios for both quantification kits. Subsequent STR analysis using the Investigator® 24Plex QS Kit was able to corroborate mixture detection down to 1:25 male:female DNA ratios, past which point mixtures appeared identical to single-source female samples. Analysis software also detected laboratory degraded DNA samples, with data showing a positive trend between the Degradation Index (DI) and length of time of sonication. When used on ancient remains the assay was able to triage samples for further analysis, and STR profiles were concordant with DNA quantification results in all instances. STR analyses of laboratory-controlled sensitivity, mixture, and degradation studies supports the quality metric obtained from quantification. These data support the use of the Quantiplex® Pro RGQ kit for sample screening and quantification in forensic casework and ancient DNA studies.     

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.     

Forensic DNA laboratory automation – Principles and guidelines

There is a lack of clear guidelines for project managers, laboratory managers and forensic scientists on strategies for the automation of forensic DNA laboratory processes and operational implementation of new technologies. This is reflected in the failure rate of projects in the forensic DNA testing environment. We present a set of guidelines and concepts important for forensic laboratory automation. Some case studies from past projects are presented. These consist of partial (or modular) automation (n = 2) and full automated robotically integrated systems (n = 2).Technology Management principles and concepts are crucial to prevent failure of projects, e.g. early adoption of untried technologies, and organizational factors. The future of laboratory automation is modular until such time as new discontinuous technologies will replace the need of the traditional manual laboratory configuration in totality.     

A novel platform for the modular integration of forensic assay setup and medium- to high-throughput purification of nucleic acids

With its extraction and assay setup modules, the QIAsymphony^® provides a highly flexible solution for processing forensic samples in a medium- to high-throughput scale. We tested the sensitivity of extraction, precision of sample processing, and accuracy of automated assay setup of this integrated system. Results attest to QIAsymphony's ability to isolate DNA from a spectrum of common forensic samples and process these samples without cross-contamination. Furthermore, accurate assay setup for downstream applications, like PCR, make this system highly suited for enhancing laboratory workflow.     

Developmental validation of the quantifiler real-time PCR kits for the quantification of human nuclear DNA samples

The Quantifiler Human DNA Quantification Kit and the Quantifiler Y Human Male DNA Quantification Kit were designed for the quantification of human genomic DNA in forensic samples. The kits use a real-time PCR-based process to quantify, respectively, total human DNA or human male DNA only. We report the results of a developmental validation study that we performed with the Quantifiler Kits, following the official SWGDAM guidelines. The Quantifiler Kits were tested for performance criteria such as species specificity, sensitivity, stability, precision and accuracy, and in addition, were tested with forensic case-type samples and mixed (male:female) DNA samples. The Quantifiler Kit methods were highly specific for human DNA, and could detect as little as 32 picograms of DNA using 2 microL of sample per assay. The accuracy and precision of the Quantifiler Kit methods was comparable or superior to that of other quantification methods.     

The best possible result from the minimum available

In accordance with the Italian DNA legislation (DPR 7 April 2016, n. 87) a number of markers lower than seven are not considered usable for inclusion in the Italian forensic DNA database. For this reason, if the forensic DNA analysis performed in our laboratory do not provide acceptable results for a number greater than or equal to seven, the profile is not indicated in the final report. Thus, having indications about the possible success of an analysis before executing it, is a crucial point in the validation process of the accreditated method used in our laboratory.To achieve this goal, the quantification of extracts before typing plays a fundamental role. Especially when touched objects need to be examined tens or hundreds of nanograms may be present, but also very few or no cell can be present on the object. As such, quantification of every sample can ensure the maximum efficiency and prevent repeat analyses, over-amplified samples or completely useless examination.Quantifiler® Trio DNA quantification kit was validated in our laboratory according the guidelines approved by the ENFSI and always used before STR amplification of forensic casework DNA samples. Our attention has focused in particular on the definition of a minimum threshold at which it is useless to carry out DNA typing defining correlation of the negative results of the quantification by the absence of genetic profiles, as a result of DNA typing. Moreover, the validation of the Savant™ SPD131DDA SpeedVac™ Concentrator to get the maximum possible yield from DNA extracts was also investigated.     

DNA分析技术在法科学中的应用及展望

本综述对DNA指纹、PCR -VNTR、PCR -STR、PCR -mtDNA测序等技术的发展 ,以及其在法科学中的应用领域和发展前景作了系统的阐述。认为由于DNA分析技术所具有的特点 ,使之已成为现今法科学生物检材检验的主要手段之一。阐述了现阶段DNA分析技术已向标准化、自动化和高鉴别机率方向发展 ,以及建立DNA罪犯数据库的必要性和应用价值     

An analysis of single and multi-copy methods for DNA quantitation by real-time polymerase chain reaction

The goal of this paper was to examine and compare two different commercially available approaches to the determination of the relative quantities of autosomal and Y chromosomal DNA using real-time PCR. One, Quantifiler^® Duo, utilizes a TaqMan^® assay with single copy probes for both autosomal human and Y quantification. The other method, Plexor HY^® utilizes a primer quenching assay with multi-copy probes for its quantification of autosomal human and Y chromosomal DNA. To test these approaches we have utilized the NIST Human DNA Quantitation Standard Reference Material 2372, a set of three different NIST human DNA quantification standards, to examine the precision, accuracy and sensitivity of the real-time PCR assays. We also examined data from both systems utilizing casework samples. The results show that both systems produced linear estimates for DNA quantity over a broad range of input DNA. However we did observe some apparent copy number effects when comparing the three different NIST standards which we attributed to issues with sequence variations in the different standards. Overall, the single copy approach provided better accuracy while the multi-copy approach produced better sensitivity. Thus the choice of which system to use should depend upon the goals of the user.     

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。     

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。     

Comparison of DNA yield after long-term storage of Second World War bone samples

Sample storage is of paramount importance in forensic genetics laboratories since only optimal storage enables successful recovery of DNA from old bones that contain very low amount of severely degraded DNA. When identification of missing persons from skeletal remains is completed, bone sample is routinely stored at -20 °C for long-term storage for retesting in future, if necessary. After molecular genetic analyses of Slovenian Second World War (WWII) victims, small fragments of femurs were stored at -20 °C. Reduction in DNA recovery has been observed in frozen liquid DNA extracts by some authors and the goal of our study was to explore how freezing of bone samples affects the preservation of DNA. To achieve this goal, the difference in DNA yield in extracts obtained from WWII bones analyzed in 2009 (data from published paper) and DNA yield in extracts obtained from the same bones (piece sampled next to the one used in 2009) taken out of the freezer after long-term storage on -20 °C for 10 years was examined, using the same extraction method and the same quantification kit. Up to 100 ng DNA/g of bone powder was obtained from 57 WWII femurs and up to 31 ng DNA/g of bone powder from the same femurs investigated after long-term storage in this study. 0,5 g of bone powder was decalcified using full demineralization extraction method. The DNA was purified in a Biorobot EZ1 device (Qiagen) and DNA quantity determined with the Human Quantifiler kit (TFS). Statistical analysis showed significant difference in DNA yield in extracts obtained from WWII bones in 2009 and extracts obtained from the same bones stored at -20 °C after 10 years. As reported for frozen liquid DNA extracts, reduction in recovery of DNA was confirmed for frozen bone samples as well.     

Automated DNA casework workflow: A retrospective study of the first implementation of FIDL at the Netherlands Forensic Institute

FIDL is a fast and automated DNA identification line which represents a series of software solutions automating the process from raw capillary electrophoresis data to reporting. This retrospective study provides insight in the numbers of cases, turnaround time, results compared to the standard workflow and the benefits automation has in a large volume workflow.     

Developmental Validation of the Quantifiler® Duo DNA Quantification Kit for Simultaneous Quantification of Total Human and Human Male DNA and Detection of PCR Inhibitors in Biological Samples*

Abstract: The Quantifiler^® Duo DNA Quantification kit enables simultaneous quantification of human DNA and human male DNA as well as detection of inhibitors of PCR in a single real-time PCR well. Pooled human male genomic DNA is used to generate standard curves for both human (ribonuclease P RNA component H1) and human male (sex determining region Y) specific targets. A shift in the cycle threshold (C_T) values for the internal positive control monitors the presence of PCR inhibitors in a sample. The assay is human specific and exhibits a high dynamic range from 0.023 to 50 ng/μL. In addition, the multiplex assay can detect as little as 25 pg/μL of human male DNA in the presence of a 1000-fold excess of human female DNA. The multiplex assay provides assessment of the DNA extract and guidance for the selection of the appropriate AmpFℓSTR^® Amplification Kit to obtain interpretable short tandem repeat profiles.