Gabriela Repiská

Fragmentation of DNA affects the accuracy of the DNA quantitation by the commonly used methods

BackgroundSpecific applications and modern technologies, like non-invasive prenatal testing, non-invasive cancer diagnostic and next generation sequencing, are currently in the focus of researchers worldwide. These have common characteristics in use of highly fragmented DNA molecules for analysis. Hence, for the performance of molecular methods, DNA concentration is a crucial parameter; we compared the influence of different levels of DNA fragmentation on the accuracy of DNA concentration measurements.ResultsIn our comparison, the performance of the currently most commonly used methods for DNA concentration measurement (spectrophotometric, fluorometric and qPCR based) were tested on artificially fragmented DNA samples. In our comparison, unfragmented and three specifically fragmented DNA samples were used.According to our results, the level of fragmentation did not influence the accuracy of spectrophotometric measurements of DNA concentration, while other methods, fluorometric as well as qPCR-based, were significantly influenced and a decrease in measured concentration was observed with more intensive DNA fragmentation.ConclusionsOur study has confirmed that the level of fragmentation of DNA has significant impact on accuracy of DNA concentration measurement with two of three mostly used methods (PicoGreen and qPCR). Only spectrophotometric measurement was not influenced by the level of fragmentation, but sensitivity of this method was lowest among the three tested. Therefore if it is possible the DNA quantification should be performed with use of equally fragmented control DNA.

Selection of the optimal manual method of cell free fetal DNA isolation from maternal plasma

Abstract Background: The cell free fetal DNA (cffDNA) present in plasma of pregnant women represents an important alternative source of DNA for non-invasive prenatal diagnosis. Due to the low quantity and increased fragmentation of cffDNA, the choice of DNA extraction method is a crucial step for downstream analyses. Methods: In our study, the three spin column-based kits for isolation of cffDNA [DNA Blood Mini Kit (DBM), DSP Virus Kit (DSP) and Circulating Nucleic Acid (CNA) Kit] were compared. Original and optimized protocol were used in comparison and applied in the two phases of the study. Results: A statistically significant difference in performance of the kits was determined based on the comparison of genomic equivalents per mL (GEq/mL) values (p<0.0001). The GEq/mL of isolated DNA was significantly higher using CNA and DSP Kits than DBM Kit. The CNA Kit and DSP Kit did not significantly differ in the GEq/mL values, although all tested samples isolated with CNA Kit showed higher values. Conclusions: According to our results the commonly used DBM Kit could be successfully replaced with CNA or DSP Kits. The replacement could be beneficial in qualitative as well quantitative tests (e.g., gender determination, aneuploidy detection) when the isolation yield limits subsequent analyses. However, there is an important decision to be made when switching DBM Kit for DSP or CNA Kits. The price of DBM Kit is two and six times lower than DSP and CNA Kits, respectively.

Prevalence and persistence of male DNA identified in mixed saliva samples after intense kissing

Identification of foreign biological material by genetic profiling is widely used in forensic DNA testing in different cases of sexual violence, sexual abuse or sexual harassment. In all these kinds of sexual assaults, the perpetrator could constrain the victim to kissing. The value of the victims saliva taken after such an assault has not been investigated in the past with currently widely used molecular methods of extremely high sensitivity (e.g. qPCR) and specificity (e.g. multiplex Y-STR PCR). In our study, 12 voluntary pairs were tested at various intervals after intense kissing and saliva samples were taken from the women to assess the presence of male DNA. Sensitivity-focused assays based on the SRY (single-copy gene) and DYS (multi-copy gene) sequence motifs confirmed the presence of male DNA in female saliva after 10 and even 60min after kissing, respectively. For specificity, standard multiplex Y-STR PCR profiling was performed and male DNA was found in female saliva samples, as the entire Y-STR profile, even after 30min in one sample. Our study confirms that foreign DNA tends to persist for a restricted period of time in the victims mouth, can be isolated from saliva after prompt collection and can be used as a valuable source of evidence.

Utilization of benchtop next generation sequencing platforms ion torrent PGM and miseq in noninvasive prenatal testing for chromosome 21 trisomy and testing of impact of in silico and physical size selection on its analytical performance

Objectives The aims of this study were to test the utility of benchtop NGS platforms for NIPT for trisomy 21 using previously published z score calculation methods and to optimize the sample preparation and data analysis with use of in silico and physical size selection methods. Methods Samples from 130 pregnant women were analyzed by whole genome sequencing on benchtop NGS systems Ion Torrent PGM and MiSeq. The targeted yield of 3 million raw reads on each platform was used for z score calculation. The impact of in silico and physical size selection on analytical performance of the test was studied. Results Using a z score value of 3 as the cut-off, 98.11% - 100% (104-106/106) specificity and 100% (24/24) sensitivity and 99.06% - 100% (105-106/106) specificity and 100% (24/24) sensitivity were observed for Ion Torrent PGM and MiSeq, respectively. After in silico based size selection both platforms reached 100% specificity and sensitivity. Following the physical size selection z scores of tested trisomic samples increased significantly—p = 0.0141 and p = 0.025 for Ion Torrent PGM and MiSeq, respectively. Conclusions Noninvasive prenatal testing for chromosome 21 trisomy with the utilization of benchtop NGS systems led to results equivalent to previously published studies performed on high-to-ultrahigh throughput NGS systems. The in silico size selection led to higher specificity of the test. Physical size selection performed on isolated DNA led to significant increase in z scores. The observed results could represent a basis for increasing of cost effectiveness of the test and thus help with its penetration worldwide.

Selection of an optimal method for co-isolation of circulating DNA and miRNA from the plasma of pregnant women

Abstract Background: Circulating nucleic acids acquired non-invasively have been confirmed as useful biomarkers in cancer and prenatal medicine. The most important molecules in the field of circulating nucleic acids research are circulating DNA and miRNA. In this study, the possibility of co-isolation of total circulating DNA, cell-free fetal DNA and miRNA from the plasma of pregnant women was tested, and the yields of co-isolated circulating nucleic acids using two commercial kits and three protocols were compared. Methods: Cell-free fetal DNA and miRNA from the plasma of pregnant women carrying male fetuses were co-isolated with the miRCURY™ RNA Isolation Kit according to the original protocol and the QIAamp Circulating Nucleic Acid Kit (CNA kit) according to the manufacturer’s protocol for DNA isolation and miRNA isolation. For comparison of DNA isolation, the AR and DYS14 gene-based assays were used for the detection and quantification of total circulating and cell-free fetal DNA. For miRNA detection and quantification, the miR-16 and miR-451 assays were used. Results: Two different protocols for isolation using the CNA kit did not significantly differ in the yields of isolated tcDNA and cffDNA; however, the amount of isolated cffDNA using the miRCURY™ RNA Isolation Kit was significantly less (p<0.05, F=4.776). There was a statistically significant difference for miRNA isolation (p<0.0001, F=859 for miR-16 and p<0.0001, F=854.4 for miR-451), with the highest amount of isolated miRNA obtained using the miRCURY™ RNA Isolation Kit. Conclusions: All three methods used in our study were successful in the co-isolation of tcDNA, cffDNA and miRNA from the same sample. The best combined results were obtained with the miRCURY™ RNA Isolation Kit.

Association between genetic variability of neuronal nitric oxide synthase and sensorimotor gating in humans

Research increasingly suggests that nitric oxide (NO) plays a role in the pathogenesis of schizophrenia. One important line of evidence comes from genetic studies, which have repeatedly detected an association between the neuronal isoform of nitric oxide synthase (nNOS or NOS1) and schizophrenia. However, the pathogenetic pathways linking nNOS, NO, and the disorder remain poorly understood. A deficit in sensorimotor gating is considered to importantly contribute to core schizophrenia symptoms such as psychotic disorganization and thought disturbance. We selected three candidate nNOS polymorphisms (Ex1f-VNTR, rs6490121 and rs41279104), associated with schizophrenia and cognition in previous studies, and tested their association with the efficiency of sensorimotor gating in healthy human adults. We found that risk variants of Ex1f-VNTR and rs6490121 (but not rs41279104) were associated with a weaker prepulse inhibition (PPI) of the acoustic startle reflex, a standard measure of sensorimotor gating. Furthermore, the effect of presence of risk variants in Ex1f-VNTR and rs6490121 was additive: PPI linearly decreased with increasing number of risk alleles, being highest in participants with no risk allele, while lowest in individuals who carry three risk alleles. Our findings indicate that NO is involved in the regulation of sensorimotor gating, and highlight one possible pathogenetic mechanism for NO playing a role in the development of schizophrenia psychosis.

Effect of different DNA concentration methods on performance of non-invasive fetal y-chromosomal short tandem repeat profiling from maternal plasma.

Background: The accuracy and reliability of detection of free fetal DNA in plasma of pregnant women can be significantly improved by increasing the overall DNA concentration following the isolation from maternal plasma. The aim of our study was to compare DNA concentration methods on samples with free fetal DNA. Materials and Methods: DNA isolated from plasma samples of pregnant women carrying a male fetus were concentrated by 3 different methods: vacuum concentration, centrifugal filters and spin columns. Their performance was evaluated using PCR-based Y-chromosomal short tandem repeat (Y-STR) genotyping of the fetus. Results: A statistically significant difference was found between the 3 tested methods (F = 15.57, p < 0.0001). Using vacuum concentration 85.3% of paternally inherited Y-STR alleles were correctly identified. A significantly smaller proportion of alleles was correctly identified in samples concentrated by centrifugal filters and spin columns - 75.9 and 66.5%, respectively. Discussion: The highest proportion of paternally inherited Y-STR alleles was found in samples concentrated with the use of vacuum concentration. This concentration procedure does not require further handling of the sample either, which is an advantage because it avoids potential sample contamination. On the other hand, when automation is considered, vacuum concentration is less suitable because of an uneven and unpredictable sample evaporation rate.

The Applicability of Autosomal Short Tandem Repeats Genotyping for Minor Contributor DNA Profiling from Mixed Saliva Samples

Objective: In our previous study focused on Y-chromosome sequence identification and genotyping we revealed the possibility of male minor fraction identification and genotyping in mixed salivary samples obtained from females 60 and 30 minutes after intense kissing. The aim of this study was to test the applicability of an autosomal STR (aSTR) profiling kit for male fraction detection and genotyping on salivary samples obtained from females 1 – 60 minutes after intense kissing. Methods: The aSTR typing was performed on DNA samples originated from buccal swab and saliva samples collected from 12 heterosexual pairs before and after 2 minutes of intense kissing, respectively. The success of minor contributor allele identification was quantified as the ratio between Counts of Identified Obligatory Alleles and Counts of Potentially Identifiable Obligatory Alleles. For the estimation of proportion of minor contributor DNA the Y/X Amelogenin peak height ratio was used. Results: In samples collected immediately after kissing has stopped the Amelogenin Y/X signal ratio varied between 0 and 63%. The ratio was associated with aSTR profiling success as in samples with higher than 7% Y/X ratio more than 80% of minor contributor male alleles were identified. In one sample collected 5 minutes after kissing expected male signal was detected with Y/X ratio reaching 15% and 77% of obligatory male alleles were identified. In comparison of previously and currently utilized methods for minor contributor male DNA detection and identification the concordance in their performance was recorded. Conclusion: We confirmed that in salivary mixtures, female saliva DNA analysis with use of aSTR genotyping kit is possible, but with limited effectiveness. The male admixture was detected with aSTR genotyping kit in salivary samples collected up to 5 minutes after intense kissing.