Sudhir K. Sinha

Quantitative intra-short interspersed element PCR for species-specific DNA identification

We have designed and evaluated four assays based upon PCR amplification of short interspersed elements (SINEs) for species-specific detection and quantitation of bovine, porcine, chicken, and ruminant DNA. The need for these types of approaches has increased drastically in response to the bovine spongiform encephalopathy epidemic. Using SYBR Green-based detection, the minimum effective quantitation levels were 0.1, 0.01, 5, and 1 pg of starting DNA template using our bovine, porcine, chicken, and ruminant species-specific SINE-based PCR assays, respectively. Background cross-amplification with DNA templates derived from 14 other species was negligible. Species specificity of the PCR amplicons was further demonstrated by the ability of the assays to accurately detect trace quantities of species-specific DNA from mixed (complex) sources. Bovine DNA was detected at 0.005% (0.5 pg), porcine DNA was detected at 0.0005% (0.05 pg), and chicken DNA was detected at 0.05% (5 pg) in a 10-ng mixture of bovine, porcine, and chicken DNA templates. We also tested six commercially purchased meat products using these assays. The SINE-based PCR methods we report here are species-specific, are highly sensitive, and will improve the detection limits for DNA sequences derived from these species.

Y-chromosome STR system, Y-PLEX 12, for forensic casework: Development and validation

The Y-PLEX 12 system, developed for use in human identification, enables simultaneous amplification of eleven polymorphic short tandem repeat (STR) loci, namely DYS392, DYS390, DYS385 a/b, DYS393, DYS389I, DYS391, DYS389II, DYS 19, DYS439 and DYS438, residing on the Y chromosome and Amelogenin. Amelogenin provides results for gender identification and serves as internal control for PCR. The validation studies were performed according to the DNA Advisory Boards (DAB) Quality Assurance Standards. The minimal sensitivity of the Y-PLEX 12 system was 0.1 ng of male DNA. The mean stutter values ranged between 3.76-15.72%. A full male profile was observed in mixture samples containing 0.5 ng of male DNA and up to 400 ng of female DNA. Amelogenin did not adversely affect the amplification of Y-STRs in mixture samples containing male and female DNA. The primers for the Y-STR loci present in Y-PLEX 12 are specific for human DNA and some higher primates. None of the primate samples tested provided a complete profile at all 11 Y-STR loci amplified with the Y-PLEX 12 system. Y-PLEX 12 is a sensitive, valid, reliable, and robust multiplex system for forensic analysis, and it can be used in human forensic and male lineage identification cases.

Development and Validation of a Multiplexed Y-Chromosome STR Genotyping System, Y-PLEX ™ 6, for Forensic Casework

A Y-chromosome multiplex polymerase chain reaction (PCR) amplification kit, known as Y-PLEX 6, has been developed for use in human identification. The Y-PLEX 6 kit enables simultaneous amplification of six polymorphic short tandem repeat (STR) loci located on the non-recombinant region of the human Y-chromosome. These loci are: DYS393, DYS19, DYS38911, DYS390, DYS391, and DYS385. Our studies show that as little as 0.2 ng of template DNA can be used for analysis. The specificity of the amplification reaction enabled analysis of male DNA in a male:female DNA mixture at a ratio of 1:125. Among the six Y-STR loci, the maximum mean stutter percentage was 11.9 for allele at DYS38911 locus. Attempts at amplification of DNA from various animal sources revealed that the Y-PLEX 6 primers are human specific. Details of the development of the kit, generation and description of the allelic ladders, and validation of the multiplex PCR are presented. In addition, Y-STR allele and haplotype frequencies in three populations have been investigated. The data indicate that results obtained using the Y-PLEX 6 kit are robust, sensitive, and reliable and can be used in human forensic and male lineage identification cases.

Typing of eight short tandem repeat (STR) loci in a Saudi Arabian population.

Allele frequency data for eight short tandem repeat (STR) loci, HUMF13A01, HUMFESFPS, HUMF13B, HUMLPL, HUMCSF1PO, HUMTPOX, HUMTHO1 and HUMvWA, were obtained for unrelated individuals in a Saudi Arabian population. All loci, except F13B (P = 0.037) and LPL (P = 0.035), meet Hardy-Weinberg expectations, based on the exact test. The most informative locus is HUMvWA (PD = 0.936) and the least discriminating is the HUMTPOX locus (PD = 0.820). There was only one observation of a departure from expectation from pairwise locus comparisons. These data can be used for estimating the frequency of STR profiles in a Saudi Arabian population.

INNULs: A Novel Design Amplification Strategy for Retrotransposable Elements for Studying Population Variation

Objectives: Retrotransposable elements (REs), consisting of long interspersed nuclear elements (LINEs) and short interspersed nuclear elements (SINEs), are a group of markers that can be useful for human identity testing. Until now, however, due to the inherent size difference (up to 6 kb in some instances) associated with insertion and null alleles (or INNULs), the use of REs for facilitated population studies has not been sought or practical. The size of the insertion elements (from a few hundred to several thousand bp) has proven to limit their utility as a marker because of the inefficient amplicon yield with PCR. A novel primer design now facilitates INNUL marker testing. A preliminary panel of single-locus markers was developed to evaluate the potential of typing these insertion elements. Nine INNULs (5 Alu and 4 LINEs) were typed in three major North American populations and analyzed for population genetic features. In addition, the variation of each marker among the sample populations provides insight of its potential use as individual identification or ancestral marker. Methods: INNUL markers were developed into fluorescently labeled single-loci PCR. Nine markers were developed with amplicons that were less than 180 bp in length, and, depending on the locus amplicons of the INNULs, alleles varied in size from 50 to 1 bp. This allele size is noteworthy because the insertion alleles of the 9 loci range in size from 297 to 6,195 bp. The allele distribution of the INNULs was assessed and analyzed in three major North American populations. Results: Upon observation of the distribution of the alleles in three major North American populations, the markers generally met Hardy-Weinberg expectations, and there was little evidence of detectable levels of linkage disequilibrium. Due to varying distributions of the alleles in the major population groups tested, some of the markers might be better suited for use as an individual identification marker, while others are better suited for bio-ancestral studies. Conclusions: Using the primer design strategy described in our work, SINEs and (for the first time, to our knowledge) LINEs can be utilized as markers for studying population genetic variation that is more amenable to the limitations of the PCR technique. This study lays the foundation for future work of developing a multiplex panel of INNUL markers that can be used as a single-tube assay for human identity testing utilizing small amplicons (<180 bp), which could be useful for ancient or degraded forensic DNA samples.

Development and validation of InnoQuant® HY, a system for quantitation and quality assessment of total human and male DNA using high copy targets

The development and validation of InnoQuant® HY, a real-time PCR system containing four DNA targets-two RE autosomal targets of different sizes, male specific targets, and an internal positive control target-are described herein. The ratio of the two autosomal targets provides a Degradation Index, or a quantitative value of a samples degradation state. The male specific targets are multi-copy targets located on the Y chromosome, which provides information about a samples male DNA composition. The experimental results demonstrate InnoQuant HY as a robust qPCR method producing accurate DNA quantitation results even at low dynamic ranges, with reproducibility among population groups. The system is human specific with low level higher primate cross reactivity and is able to consistently and reproducibly detect sub-picogram concentrations of human and human male DNA. The use of high copy number Alu and SVA (>1000 copies per genome) retrotransposable elements as the two autosomal targets significantly enhances both sensitivity and reproducibility of determination of DNA quantitation as well as DNA degradation in forensic samples. The inclusion of a sensitive multi-copy Y-chromosome specific target provides accurate quantitation of DNA from a male in challenging male-female mixtures (i.e. sexual assault samples). Even in the presence of a large excess of DNA from a female, accurate quantitation was achieved with a male to female ratio of 1:128,000. Population database studies reveal an average Short/Y target ratio of the quantification values across all four populations tested was 1.124±0.282, exhibiting the systems reproducibility across multiple populations. The results from InnoQuant HY provide a tool equipping a forensic analyst with crucial data about a samples DNA quantitation, male:female ratio, degradation state, and the presence or absence of PCR inhibitors. With the information gained from the InnoQuant HY kit, a more streamlined and efficient workflow can be created that minimizes unnecessary sample processing and retesting while maximizing recovery of probative DNA profiles from challenging biological evidence.

Detection and correction of a migration anomaly on a 310 genetic analyzer.

During STR analysis on the 310 Genetic Analyzer, retarded migration of GS500ROX size standards and alleles in some samples was observed. The contribution of reagents, capillary and performance optimized polymer POP 4 to the observed anomaly was experimentally eliminated. Variation in electrophoresis temperature between 55 degrees C and 65 degrees C did not alter the rate of migration of GX500ROX size standard and sample alleles. An eroded connector for the cathode mounted on the heat plate assembly caused the abnormal migration. Hence, it is important to verify the mobility of all fragments in the size standard for each sample to avoid any erroneous allele calls by the automated data analysis software.

Distribution of amplified fragment length polymorphism D1S80 alleles in a Saudi Arabian population.

Distribution of Amplified Fragment Length Polymorphism D1S80 Alleles in a Saudi Arabian Population

Distribution of HLA-DQA1, Polymarker, CSF1PO, vWA, TH01, TPOX, D16S539, D7S820, D13S317, and D5S818 Alleles in East Bengali and West Punjabi Populations from Indo-Pak Subcontinent

Blood samples were collected from 115 individuals residing in the Pakistani state of West Punjab and 81 Bengali individuals residing in the state of East Bengal, India. These samples were analyzed for the loci HLA-DQA1, PM (LDLR, GYPA, HBGG, D7S8, and GC) and eight short tandem repeats: CSF1PO, TPOX, THO1, vWA, D16S539, D7S820, D13S317, and D5S818. Departures from Hardy-Weinberg (HWE) were observed in Punjabi population at LDLR, THO1, D13S317, D5S818, and D16S539 and at CSF1PO and THO1 in Bengali population.

Distribution of HLA-DQA1 and amplitype PM locus alleles in a Saudi Arabian population sample.

Blood samples were collected in EDTA coated vacutainers from 207 unrelated patients who visited the King Khaled University Hospital and Security Force Hospital in Riyadh, Saudi Arabia. Blood saturated cotton swatches were prepared from these samples and dried at room temperature. DNA was extracted from the swatches by organic extraction (phenol/chloroform/isoamyl alcohol) followed by ethanol precipitation (1). The quantity of DNA was determined using the Quantiblot kit.