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13 results on '"Sorçaburu‐Cigliero, Solange"'

4. Performance of the ForenSeqTM DNA Signature Prep kit on highly degraded samples

Author

Fattorini, Paolo, Previderé, Carlo, Carboni, Ilaria, Marrubini, Giorgio, Sorçaburu Cigliero, Solange, Grignani, Pierangela, Bertoglio, Barbara, Vatta, Paolo, Ricci, Ugo, Fattorini, Paolo, Previderé, Carlo, Carboni, Ilaria, Marrubini, Giorgio, Sorçaburu Cigliero, Solange, Grignani, Pierangela, Bertoglio, Barbara, Vatta, Paolo, and Ricci, Ugo

Subjects
DNA degradation, Next generation sequencing, Forensic genetics, DNA degradation, Forensic genetics , Next generation sequencing
Abstract

Next generation sequencing (NGS) is the emerging technology in forensic genomics laboratories. It offers higher resolution to address most problems of human identification, greater efficiency and potential ability to interrogate very challenging forensic casework samples. In this study, a trial set of DNA samples was artificially degraded by progressive aqueous hydrolysis, and analyzed together with the corresponding unmodified DNA sample and control sample 2800 M, to test the performance and reliability of the ForenSeqTM DNA Signature Prep kit using the MiSeq Sequencer (Illumina). The results of replicate tests performed on the unmodified sample (1.0 ng) and on scalar dilutions (1.0, 0.5 and 0.1 ng) of the reference sample 2800 M showed the robustness and the reliability of the NGS approach even from sub-optimal amounts of high quality DNA. The degraded samples showed a very limited number of reads/sample, from 2.9–10.2 folds lower than the ones reported for the less concentrated 2800 M DNA dilution (0.1 ng). In addition, it was impossible to assign up to 78.2% of the genotypes in the degraded samples as the software identified the corresponding loci as “low coverage” ( 50x). Amplification artifacts such as allelic imbalances, allele drop outs and a single allele drop in were also scored in the degraded samples. However, the ForenSeqTM DNA Sequencing kit, on the Illumina MiSeq, was able to generate data which led to the correct typing of 5.1–44.8% and 10.9–58.7% of 58 of the STRs and 92 SNPs, respectively. In all trial samples, the SNP markers showed higher chances to be typed correctly compared to the STRs. This NGS approach showed very promising results in terms of ability to recover genetic information from heavily degraded DNA samples for which the conventional PCR/CE approach gave no results. The frequency of genetic mistyping was very low, reaching the value of 1.4% for only one of the degraded samples. However, these results suggest that further validation studies and a definition of interpretation criteria for NGS data are needed before implementation of this technique in forensic genetics.

Published
2017
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5. Prolonged DNA hydrolysis in water: A study on DNA stability

Author

Fattorini, Paolo, primary, Marrubini, Giorgio, additional, Bonin, Serena, additional, Bertoglio, Barbara, additional, Grignani, Pierangela, additional, Recchia, Elisa, additional, Pitacco, Paola, additional, Procopio, Francesca, additional, Cantoni, Carolina, additional, Pajnič, Irena Zupanič, additional, Sorçaburu-Cigliero, Solange, additional, and Previdere`, Carlo, additional

Published
2018
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8. The molecular characterization of a depurinated trial DNA sample can be a model to understand the reliability of the results in forensic genetics

Author

Fattorini, Paolo, primary, Previderè, Carlo, additional, Sorçaburu‐Cigliero, Solange, additional, Marrubini, Giorgio, additional, Alù, Milena, additional, Barbaro, Anna M., additional, Carnevali, Eugenia, additional, Carracedo, Angel, additional, Casarino, Lucia, additional, Consoloni, Lara, additional, Corato, Silvia, additional, Domenici, Ranieri, additional, Fabbri, Matteo, additional, Giardina, Emiliano, additional, Grignani, Pierangela, additional, Baldassarra, Stefania Lonero, additional, Moratti, Marco, additional, Nicolin, Vanessa, additional, Pelotti, Susi, additional, Piccinini, Andrea, additional, Pitacco, Paola, additional, Plizza, Laura, additional, Resta, Nicoletta, additional, Ricci, Ugo, additional, Robino, Carlo, additional, Salvaderi, Luca, additional, Scarnicci, Francesca, additional, Schneider, Peter M., additional, Seidita, Gregorio, additional, Trizzino, Lucia, additional, Turchi, Chiara, additional, Turrina, Stefania, additional, Vatta, Paolo, additional, Vecchiotti, Carla, additional, Verzeletti, Andrea, additional, and De Stefano, Francesco, additional

Published
2014
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12. The molecular characterization of a depurinated trial DNA sample can be a model to understand the reliability of the results in forensic genetics

Author

Gregorio Seidita, Peter M. Schneider, Paola Pitacco, Silvia Corato, Eugenia Carnevali, Carla Vecchiotti, Pierangela Grignani, Solange Sorçaburu-Cigliero, Milena Alù, Anna Barbaro, Stefania Turrina, Andrea Verzeletti, Francesco De Stefano, Francesca Scarnicci, Laura Plizza, Stefania Lonero Baldassarra, Matteo Fabbri, Angel Carracedo, Carlo Previderè, Ranieri Domenici, Nicoletta Resta, Paolo Vatta, L. Casarino, Chiara Turchi, Lara Consoloni, Lucia Trizzino, Carlo Robino, Ugo Ricci, Vanessa Nicolin, Paolo Fattorini, Marco Moratti, Giorgio Marrubini, Luca Salvaderi, Emiliano Giardina, Susi Pelotti, Andrea Piccinini, Fattorini, Paolo, Previderè, Carlo, Sorçaburu-Cigliero, Solange, Marrubini, Giorgio, Alù, Milena, Barbaro, Anna M., Carnevali, Eugenia, Carracedo, Angel, Casarino, Lucia, Consoloni, Lara, Corato, Silvia, Domenici, Ranieri, Fabbri, Matteo, Giardina, Emiliano, Grignani, Pierangela, Baldassarra, Stefania Lonero, Moratti, Marco, Nicolin, Vanessa, Pelotti, Susi, Piccinini, Andrea, Pitacco, Paola, Plizza, Laura, Resta, Nicoletta, Ricci, Ugo, Robino, Carlo, Salvaderi, Luca, Scarnicci, Francesca, Schneider, Peter M., Seidita, Gregorio, Trizzino, Lucia, Turchi, Chiara, Turrina, Stefania, Vatta, Paolo, Vecchiotti, Carla, Verzeletti, Andrea, De Stefano, Francesco, Previderè, C, Sorçaburu Cigliero, S, Marrubini, G, Alù, M, Barbaro, Am, Carnevali, E, Carracedo, A, Casarino, L, Consoloni, L, Corato, S, Domenici, R, Fabbri, M, Giardina, E, Grignani, P, Baldassarra, Sl, Moratti, M, Pelotti, S, Piccinini, A, Pitacco, P, Plizza, L, Resta, N, Ricci, U, Robino, C, Salvaderi, L, Scarnicci, F, Schneider, Pm, Seidita, G, Trizzino, L, Turchi, C, Turrina, S, Vatta, P, Vecchiotti, C, Verzeletti, A, De Stefano, F., Fattorini, P., Previderè, C., Sorçaburu-Cigliero, S., Marrubini, G., Alù, M., Barbaro, A., Carnevali, E., Carracedo, A., Casarino, L., Consoloni, L., Corato, S., Domenici, R., Fabbri, M., Giardina, E., Grignani, P., Baldassarra, S., Moratti, M., Nicolin, V., Pelotti, S., Piccinini, A., Pitacco, P., Plizza, L., Resta, N., Ricci, U., Robino, C., Salvaderi, L., Scarnicci, F., Schneider, P., Seidita, G., Trizzino, L., Turchi, C., Turrina, S., Vatta, P., Vecchiotti, C., and Verzeletti, A.

Subjects
DNA depurination, Forensic genetics, PCR fidelity, STR typing, Biochemistry, Clinical Biochemistry, Genotyping Techniques, DNA damage, Sample (material), Reproducibility of Result, Biology, Polymerase Chain Reaction, NO, Analytical Chemistry, law.invention, forensic genetics, Settore MED/43 - Medicina Legale, law, Settore BIO/13 - Biologia Applicata, Genotype, Humans, Polymerase chain reaction, Protocol (science), Genetics, Medicine (all), Reproducibility of Results, Forensic genetic, DNA, Amplicon, DNA Fingerprinting, Settore BIO/18 - Genetica, DNA depurination, Forensic genetics, PCR fidelity, STR typing, DNA profiling, Settore MED/03 - Genetica Medica, Microsatellite Repeat, Genotyping Technique, Microsatellite Repeats, Human
Abstract

The role of DNA damage in PCR processivity/fidelity is a relevant topic in molecular investigation of aged/forensic samples. In order to reproduce one of the most common lesions occurring in postmortem tissues, a new protocol based on aqueous hydrolysis of the DNA was developed in vitro. Twenty-five forensic laboratories were then provided with 3.0 μg of a trial sample (TS) exhibiting, in mean, the loss of 1 base of 20, and a molecular weight below 300 bp. Each participating laboratory could freely choose any combination of methods, leading to the quantification and to the definition of the STR profile of the TS, through the documentation of each step of the analytical approaches selected. The results of the TS quantification by qPCR showed significant differences in the amount of DNA recorded by the participating laboratories using different commercial kits. These data show that only DNA quantification "relative" to the used kit (probe) is possible, being the "absolute" amount of DNA inversely related to the length of the target region (r(2) = 0.891). In addition, our results indicate that the absence of a shared stable and certified reference quantitative standard is also likely involved. STR profiling was carried out selecting five different commercial kits and amplifying the TS for a total number of 212 multiplex PCRs, thus representing an interesting overview of the different analytical protocols used by the participating laboratories. Nine laboratories decided to characterize the TS using a single kit, with a number of amplifications varying from 2 to 12, obtaining only partial STR profiles. Most of the participants determined partial or full profiles using a combination of two or more kits, and a number of amplifications varying from 2 to 27. The performance of each laboratory was described in terms of number of correctly characterized loci, dropped-out markers, unreliable genotypes, and incorrect results. The incidence of unreliable and incorrect genotypes was found to be higher for participants carrying out a limited number of amplifications, insufficient to define the correct genotypes from damaged DNA samples such as the TS. Finally, from a dataset containing about 4500 amplicons, the frequency of PCR artifacts (allele dropout, allele drop-in, and allelic imbalance) was calculated for each kit showing that the new chemistry of the kits is not able to overcome the concern of template-related factors. The results of this collaborative exercise emphasize the advantages of using a standardized degraded DNA sample in the definition of which analytical parameters are critical for the outcome of the STR profiles.

Published
2014

13. Performance of the ForenSeq TM DNA Signature Prep kit on highly degraded samples.

Author

Fattorini P, Previderé C, Carboni I, Marrubini G, Sorçaburu-Cigliero S, Grignani P, Bertoglio B, Vatta P, and Ricci U

Subjects
DNA Fingerprinting standards, Electrophoresis, Capillary, Forensic Genetics standards, Genotype, Humans, Hydrolysis, Reproducibility of Results, Sequence Analysis, DNA standards, DNA Fingerprinting methods, Forensic Genetics methods, Reagent Kits, Diagnostic standards, Sequence Analysis, DNA methods
Abstract

Next generation sequencing (NGS) is the emerging technology in forensic genomics laboratories. It offers higher resolution to address most problems of human identification, greater efficiency and potential ability to interrogate very challenging forensic casework samples. In this study, a trial set of DNA samples was artificially degraded by progressive aqueous hydrolysis, and analyzed together with the corresponding unmodified DNA sample and control sample 2800 M, to test the performance and reliability of the ForenSeq TM DNA Signature Prep kit using the MiSeq Sequencer (Illumina). The results of replicate tests performed on the unmodified sample (1.0 ng) and on scalar dilutions (1.0, 0.5 and 0.1 ng) of the reference sample 2800 M showed the robustness and the reliability of the NGS approach even from sub-optimal amounts of high quality DNA. The degraded samples showed a very limited number of reads/sample, from 2.9-10.2 folds lower than the ones reported for the less concentrated 2800 M DNA dilution (0.1 ng). In addition, it was impossible to assign up to 78.2% of the genotypes in the degraded samples as the software identified the corresponding loci as "low coverage" (< 50x). Amplification artifacts such as allelic imbalances, allele drop outs and a single allele drop in were also scored in the degraded samples. However, the ForenSeq TM DNA Sequencing kit, on the Illumina MiSeq, was able to generate data which led to the correct typing of 5.1-44.8% and 10.9-58.7% of 58 of the STRs and 92 SNPs, respectively. In all trial samples, the SNP markers showed higher chances to be typed correctly compared to the STRs. This NGS approach showed very promising results in terms of ability to recover genetic information from heavily degraded DNA samples for which the conventional PCR/CE approach gave no results. The frequency of genetic mistyping was very low, reaching the value of 1.4% for only one of the degraded samples. However, these results suggest that further validation studies and a definition of interpretation criteria for NGS data are needed before implementation of this technique in forensic genetics., (© 2017 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2017
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