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- Forensic genetic analysis of South Portuguese population with the six dye Powerplex® Fusion 6CPublication . Vieira Da Silva, Cláudia; Afonso Costa, Heloísa; Porto, Maria João; Cunha, E; Corte Real, F.; Amorim, AntónioAs an improvement in efficiency and in Human Discrimination Power, the new six dye multiplex kit PowerPlex® Fusion 6C System, by Promega, available for human identification can co-amplify 27 loci, in a single reaction, have been introduced in the last years with great success. This kit allows the amplification and detection of autosomal loci included in the expanded Combined DNA Index System CODIS, plus the loci Penta D, PENTA E and SE33 as well as Amelogenin for gender determination. Furthermore, this kit includes three Y –STRs (DYS391, DYS576 and DYS570), allowing allelic attribution in a total of 27 loci. This genetic markers extension satisfies not only CODIS but also European Standard Set recommendations. Thinking about continuous human migration movements, especially in a very cosmopolitan region like Lisbon and south of Portugal, and also, in keeping population studies and actualized STR databases we decided to update our previous studies. Our sample is composed of 600 unrelated individuals, from paternity testing with laboratory identity anonymised. DNA was extracted by Prep-n-go BufferTM(Thermo-Fisher Scientific). PCR amplification was performed with PowerPlex® Fusion 6C System, according to manufacturer’s guidelines. Fragment analysis was carried out in an Applied Biosystems® 3500 Genetic Analyser. Electrophoresis results were analysed with GeneMapper® ID-X v1.4. Allele frequencies and population statistics, including Hardy-Weinberg equilibrium p-values from exact test probabilities and forensic parameters were calculated with adequate software. In conclusion, our population information was updated in order to apply most recent data in our casework weight of evidence.
- Investigação de parentesco biológico: a importância de marcadores adicionais em casos de especial complexidadePublication . Rodrigues, Diogo; Vieira Da Silva, Cláudia; Carvalho, Mónica; Afonso Costa, Heloísa; Sampaio, Lisa; Cunha, E; Corte Real, F.; Amorim, AntónioA grande maioria das perícias de investigação de parentesco biológico realizadas pelo Instituto Nacional de Medicina Legal e Ciências Forenses (INMLCF) têm inicio com a ordem do Tribunal para realização da mesma. O mais frequente é o Tribunal dar ordem para nos serem presentes, como intervenientes, um trio constituído por um suposto pai, uma mãe e um(a) filho(a), havendo, no entanto, variações quanto ao número ou tipo de intervenientes, o que pode resultar em maior dificuldade em apresentar resultados com a robustez desejada. Em qualquer dos casos, genericamente, as conclusões possíveis de um estudo de parentesco biológico e mais concretamente de um estudo de paternidade são a exclusão ou não exclusão de paternidade relativamente ao suposto pai em estudo. A conclusão pela não exclusão é sempre acompanhada pela valorização estatística dos resultados, designadamente através do cálculo e apresentação do Índice de Parentesco (IP) e da Probabilidade de Parentesco (W). No caso de uma perícia de investigação de parentesco em que nos seja presente unicamente um filho biológico do suposto pai e um suposto filho biológico, sem possibilidade de estudo das amostras das respetivas mães biológicas nem da amostra biológica do suposto pai, e nos é pedido o estudo sobre a possibilidade de ambos serem filhos biológicos do mesmo pai, a impossibilidade de exclusão da paternidade pode estar associada a valores calculados de IP que podem ser pouco robustos. O ensaio Investigator® HDplex permite o estudo de marcadores genéticos adicionais aos habitualmente estudados na rotina pericial do INMLCF.
- The role of DNA concentrations in forensic casework results : regression models applicationPublication . Vieira Da Silva, Cláudia; Amorim, António; Afonso Costa, Heloísa; Porto, Maria João; Corte Real, F.; Antunes, MariliaIn forensic DNA typing, short tandem repeats (STRs) are the most frequently genotyped markers in order to distinguish between individuals and to relate them to a crime or to exonerate the innocent. In recent years, new controversies have arisen with the advent of more sensitive techniques, allowing profiles to be recovered from minimum amounts of DNA, hence, bringing challenges to weight of evidence evaluation for forensic DNA profiles obtained from low template DNA samples. Introduction of interpretation models, or even new weight of evidence software should be accompanied by a measure of uncertainty that is part of any biological analysis. Specially, due to stochastic effects, the reliability of the obtained profiles might differ between machinery, workflow and also PCR settings in use in different laboratories. In this work we try to understand the relation between Peak Area, DNA concentration and also size marker, using adequate regression models. Buccal swabs from 180 individuals, with unknown identity, were selected for this study. DNA was extracted with prep-n-go™ buffer and quantified using Quantifiler® Trio DNA Quantification kit in a 7500 Real-Time PCR System (Applied Biosystems). STR amplification was performed with Powerplex Fusion 6C amplification kit (Promega). Amplified PCR products were separated and detected in an Applied Biosystems® 3500 Genetic Analyzer using manufacturer’s conditions. Electrophoresis results were analysed with GeneMapper® ID-X v1.4. Statistical analysis was performed with R Studio. Our results allow having an important overview about the relation between DNA concentrations, peak area, and size of the studied genetic markers.