RESUMEN
Identification of human remains using genetic methods is an important task of forensic science. DNA markers are proving essential in the identification of unknown human remains. However, environmental factors can lead to poor preservation of DNA, including in bone material. The aim of this study was therefore to compare two methods of DNA isolation from bone material: the traditional organic method and the new protocol using the EZ2 Connect instrument. The study involved three types of bone material, namely molars/premolars, petrous parts of the temporal bone and femurs, all with an estimated PMI of 70-80 years. Importantly, the biological material was obtained from three different environments, categorized as preserving, neutral and degrading, based on basic physico-chemical tests and the potential impact on the bone. The results obtained show that the DNA was best preserved in the petrous bone, followed by the teeth, and the femur. DNA extraction using the EZ2 Connect instrument with a new protocol gave slightly better results for the petrous bone, comparable results for the teeth and worse results for the femur compared to the organic method. Several protocol modifications were tested and optimal conditions for DNA isolation were proposed for the EZ2 protocol. Furthermore, the use of an automated method facilitated the effective accumulation of isolates and increased the chances of successful identification of unknown human remains.
Asunto(s)
ADN , Humanos , ADN/aislamiento & purificación , ADN/genética , Dermatoglifia del ADN , Fémur/química , Reacción en Cadena de la Polimerasa , Repeticiones de Microsatélite , Hueso Petroso , Huesos/química , Hueso Temporal , Diente/químicaRESUMEN
We applied the RFLP approach to identify the cytoplasmic genotypes of selected onion breeding materials from Poland. For this purpose, mitochondrial DNA from cytoplasmic male-sterile (CMS) and male-fertile onions were hybridized with the probes for the following mitochondrial genes: atpA, atp6, atp9, cob, cox1, nad3, nad4 and nad6. S-, T- or C-cytoplasm was represented in each analyzed sterile accession. Some new polymorphisms shared by S- and C-cytoplasmic onions were identified. We also used currently available PCR markers to test if cytoplasmic heterogenity occurs within onion inbreds. A fraction of the plants bearing S-cytoplasm were found within two male-fertile lines, but such plants were not detected in the open-pollinated cultivars Sochaczewska, Wolska and Zytawska. Both the RFLP and PCR approaches gave some proof of existing mitochondrial heteroplasmy in onions