Your search keyword '"Albarrán C"' showing total 6 results

1. Analysis of body fluid mixtures by mtDNA sequencing: An inter-laboratory study of the GEP-ISFG working group.

Author

Montesino M, Salas A, Crespillo M, Albarrán C, Alonso A, Alvarez-Iglesias V, Cano JA, Carvalho M, Corach D, Cruz C, Di Lonardo A, Espinheira R, Farfán MJ, Filippini S, García-Hirschfeld J, Hernández A, Lima G, López-Cubría CM, López-Soto M, Pagano S, Paredes M, Pinheiro MF, Rodríguez-Monge AM, Sala A, Sóñora S, Sumita DR, Vide MC, Whittle MR, Zurita A, and Prieto L

Subjects

Blood, Cell Count, Chromosomes, Human, Y, Clinical Laboratory Techniques, Female, Haplotypes, Humans, Male, Polymerase Chain Reaction, Quality Control, Saliva, Semen, Spermatozoa cytology, Tandem Repeat Sequences, Vasectomy, DNA Fingerprinting, DNA, Mitochondrial genetics, Sequence Analysis, DNA

Abstract

The mitochondrial DNA (mtDNA) working group of the GEP-ISFG (Spanish and Portuguese Group of the International Society for Forensic Genetics) carried out an inter-laboratory exercise consisting of the analysis of mtDNA sequencing patterns in mixed stains (saliva/semen and blood/semen). Mixtures were prepared with saliva or blood from a female donor and three different semen dilutions (pure, 1:10 and 1:20) in order to simulate forensic casework. All labs extracted the DNA by preferential lysis and amplified and sequenced the first mtDNA hypervariable region (HVS-I). Autosomal and Y-STR markers were also analysed in order to compare nuclear and mitochondrial results from the same DNA extracts. A mixed stain prepared using semen from a vasectomized individual was also analysed. The results were reasonably consistent among labs for the first fractions but not for the second ones, for which some laboratories reported contamination problems. In the first fractions, both the female and male haplotypes were generally detected in those samples prepared with undiluted semen. In contrast, most of the mixtures prepared with diluted semen only yielded the female haplotype, suggesting that the mtDNA copy number per cell is smaller in semen than in saliva or blood. Although the detection level of the male component decreased in accordance with the degree of semen dilution, it was found that the loss of signal was not consistently uniform throughout each electropherogram. Moreover, differences between mixtures prepared from different donors and different body fluids were also observed. We conclude that the particular characteristics of each mixed stain can deeply influence the interpretation of the mtDNA evidence in forensic mixtures (leading in some cases to false exclusions). In this sense, the implementation of preliminary tests with the aim of identifying the fluids involved in the mixture is an essential tool. In addition, in order to prevent incorrect conclusions in the interpretation of electropherograms we strongly recommend: (i) the use of additional sequencing primers to confirm the sequencing results and (ii) interpreting the results to the light of the phylogenetic perspective.

Published

2007

2. Challenges of DNA profiling in mass disaster investigations.

Author

Alonso A, Martin P, Albarrán C, Garcia P, Fernandez de Simon L, Jesús Iturralde M, Fernández-Rodriguez A, Atienza I, Capilla J, García-Hirschfeld J, Martinez P, Vallejo G, García O, García E, Real P, Alvarez D, León A, and Sancho M

Subjects

Humans, Spain, DNA Fingerprinting methods, Disasters, Forensic Anthropology methods

Abstract

In cases of mass disaster, there is often a need for managing, analyzing, and comparing large numbers of biological samples and DNA profiles. This requires the use of laboratory information management systems for large-scale sample logging and tracking, coupled with bioinformatic tools for DNA database searching according to different matching algorithms, and for the evaluation of the significance of each match by likelihood ratio calculations. There are many different interrelated factors and circumstances involved in each specific mass disaster scenario that may challenge the final DNA identification goal, such as: the number of victims, the mechanisms of body destruction, the extent of body fragmentation, the rate of DNA degradation, the body accessibility for sample collection, or the type of DNA reference samples availability. In this paper, we examine the different steps of the DNA identification analysis (DNA sampling, DNA analysis and technology, DNA database searching, and concordance and kinship analysis) reviewing the "lessons learned" and the scientific progress made in some mass disaster cases described in the scientific literature. We will put special emphasis on the valuable scientific feedback that genetic forensic community has received from the collaborative efforts of several public and private USA forensic laboratories in assisting with the more critical areas of the World Trade Center (WTC) mass fatality of September 11, 2001. The main challenges in identifying the victims of the recent South Asian Tsunami disaster, which has produced the steepest death count rise in history, will also be considered. We also present data from two recent mass fatality cases that involved Spanish victims: the Madrid terrorist attack of March 11, 2004, and the Yakolev-42 aircraft accident in Trabzon, Turkey, of May 26, 2003.

Published

2005

3. Mitochondrial DNA error prophylaxis: assessing the causes of errors in the GEP'02-03 proficiency testing trial.

Author

Salas A, Prieto L, Montesino M, Albarrán C, Arroyo E, Paredes-Herrera MR, Di Lonardo AM, Doutremepuich C, Fernández-Fernández I, de la Vega AG, Alves C, López CM, López-Soto M, Lorente JA, Picornell A, Espinheira RM, Hernández A, Palacio AM, Espinoza M, Yunis JJ, Pérez-Lezaun A, Pestano JJ, Carril JC, Corach D, Vide MC, Alvarez-Iglesias V, Pinheiro MF, Whittle MR, Brehm A, and Gómez J

Subjects

Blood Stains, Female, Hair metabolism, Humans, Male, Phylogeny, Quality Control, Sequence Analysis, DNA standards, Clinical Laboratory Techniques standards, DNA Fingerprinting standards, DNA, Mitochondrial analysis, Paternity

Abstract

We report the results of the Spanish and Portuguese working group (GEP) of the International Society for Forensic Genetics (ISFG) Collaborative Exercise 2002-2003 on mitochondrial DNA (mtDNA) analysis. Six different samples were submitted to the participating laboratories: four blood stains (M1-M2-M3-M4), one mixture blood sample (M5), and two hair shaft fragments (M6). Most of the labs reported consensus results for the blood stains, slightly improving the results of previous collaborative exercises. Although hair shaft analysis is still carried out by a small number of laboratories, this analysis yielded a high rate of success. On the contrary, the analysis of the mixture blood stain (M5) yielded a lower rate of success; in spite of this, the whole results on M5 typing demonstrated the suitability of mtDNA analysis in mixture samples. We have found that edition errors are among the most common mistakes reported by the different labs. In addition, we have detected contamination events as well as other minor problems, i.e. lack of standarization in nomenclature for punctual and length heteroplasmies, and indels. In the present edition of the GEP-ISFG exercise we have paid special attention to the visual phylogenetic inspection for detecting common sequencing errors.

Published

2005

4. Real-time PCR designs to estimate nuclear and mitochondrial DNA copy number in forensic and ancient DNA studies.

Author

Alonso A, Martín P, Albarrán C, García P, García O, de Simón LF, García-Hirschfeld J, Sancho M, de La Rúa C, and Fernández-Piqueras J

Subjects

Amelogenin, Animals, Cell Nucleus genetics, Dental Enamel Proteins genetics, Female, Forensic Anthropology methods, Hominidae genetics, Humans, Male, Sex Determination Analysis, Tandem Repeat Sequences, Tooth Germ, DNA analysis, DNA Fingerprinting methods, Gene Dosage, Polymerase Chain Reaction methods

Abstract

We explore different designs to estimate both nuclear and mitochondrial human DNA (mtDNA) content based on the detection of the 5' nuclease activity of the Taq DNA polymerase using fluorogenic probes and a real-time quantitative PCR detection system. Human mtDNA quantification was accomplished by monitoring the real-time progress of the PCR-amplification of two different fragment sizes (113 and 287 bp) within the hypervariable region I (HV1) of the mtDNA control region, using two fluorogenic probes to specifically determine the mtDNA copy of each fragment size category. This mtDNA real-time PCR design has been used to assess the mtDNA preservation (copy number and degradation state) of DNA samples retrieved from 500 to 1500 years old human remains that showed low copy number and highly degraded mtDNA. The quantification of nuclear DNA was achieved by real-time PCR of a segment of the X-Y homologous amelogenin (AMG) gene that allowed the simultaneous estimation of a Y-specific fragment (AMGY: 112 bp) and a X-specific fragment (AMGX: 106 bp) making possible not only haploid or diploid DNA quantitation but also sex determination. The AMG real-time PCR design has been used to quantify a set of 57 DNA samples from 4-5 years old forensic bone remains with improved sensitivity compared with the slot-blot hybridization method. The potential utility of this technology to improve the quality of some PCR-based forensic and ancient DNA studies (microsatellite typing and mtDNA sequencing) is discussed.

Published

2004

5. Specific quantification of human genomes from low copy number DNA samples in forensic and ancient DNA studies.

Author

Alonso A, Martin P, Albarrán C, García P, Primorac D, García O, Fernández de Simón L, García-Hirschfeld J, Sancho M, and Fernández-Piqueras J

Subjects

Amelogenin, Complementarity Determining Regions, DNA, Mitochondrial genetics, Dental Enamel Proteins genetics, Humans, Polymerase Chain Reaction methods, Sequence Analysis, DNA, Sex Determination Analysis methods, Tandem Repeat Sequences, DNA Fingerprinting methods, Forensic Anthropology methods

Abstract

We reviewed the current methodologies used for human DNA quantitation in forensic and ancient DNA studies, including sensitive hybridization methods based on the detection of nuclear alpha-satellite repetitive DNA regions or more recently developed fluorogenic real-time polymerase chain reaction (PCR) designs for the detection of both nuclear and mitochondrial DNA regions. Special emphasis has been put on the applicability of recently described different real-time PCR designs targeting different fragments of the HV1 mtDNA control region, and a segment of the X-Y homologous amelogenin gene. The importance of these quantitative assays is to ensure the consistency of low copy number DNA typing (STR profiling and mtDNA sequencing).

Published

2003

6. DNA typing from skeletal remains: evaluation of multiplex and megaplex STR systems on DNA isolated from bone and teeth samples.

Author

Alonso A, Andelinović S, Martín P, Sutlović D, Erceg I, Huffine E, de Simón LF, Albarrán C, Definis-Gojanović M, Fernández-Rodriguez A, García P, Drmić I, Rezić B, Kuret S, Sancho M, and Primorac D

Subjects

Bosnia and Herzegovina, Computer Communication Networks, Female, Fluorescent Dyes, Humans, Male, Polymerase Chain Reaction methods, Sensitivity and Specificity, Tandem Repeat Sequences, Bone and Bones chemistry, DNA analysis, DNA Fingerprinting methods, Forensic Anthropology methods, Forensic Dentistry methods, Tooth chemistry

Abstract

Aim: To evaluate the performance of three multiplex short tandem repeat (STR) systems (AmpflSTR Profiler, AmpflSTR Profiler Plus, and AmpflSTR COfiler), and a megaplex STR system (PowerPlex 16) on DNA extracted from the skeletal remains. By performing a microbial DNA challenge study, we also evaluated the influence of microbial DNA on human DNA typing., Methods: A subset of 86 DNA extracts isolated from 8-50 years old bone and teeth samples, corresponding to 20 identification cases from mass graves in Croatia and Bosnia and Herzegovina, and to 4 paternity cases involving deceased parents in Spain, were analyzed by the above systems., Results: Bone samples with no detectable human DNA (tested with Quantiblot), as well as teeth samples with detectable human DNA, were successfully amplified. Surprisingly, even in highly degraded samples, PowerPlex 16 offered very robust amplification for the both Penta E and Penta D markers. We observed a few non-specific extra peaks of 202 and 308 base pairs, which appeared to match 16S rRNA of the Pseudomonas halodenitrificans., Conclusion: AmpflSTR Profiler Kit, AmpflSTR Profiler Plus Kit, the AmpflSTR COfiler Kit, and the PowerPlex 16 system are very sensitive multiplex STR amplification systems, which can be successfully used to obtain a multilocus STR profile from old teeth and bone samples with minimal amounts (pg) of human DNA or even with no detectable human DNA.

Published

2001