Your search keyword '"Allen, Marie"' showing total 14 results

1. Forensic prediction of sex, age, height, body mass index, hip-to-waist ratio, smoking status and lipid lowering drugs using epigenetic markers and plasma proteins

Author

Llobet, Mònica Ortega, Johansson, Åsa, Gyllensten, Ulf, Allen, Marie, and Enroth, Stefan

Published

2023

2. Mitochondrial DNA analysis of a Viking age mass grave in Sweden

Author

Buś, Magdalena M., Lembring, Maria, Kjellström, Anna, Strobl, Christina, Zimmermann, Bettina, Parson, Walther, and Allen, Marie

Published

2019

3. Evaluation of the precision ID whole MtDNA genome panel for forensic analyses

Author

Strobl, Christina, Eduardoff, Mayra, Bus, Magdalena M., Allen, Marie, and Parson, Walther

Published

2018

4. Impact of the sequencing method on the detection and interpretation of mitochondrial DNA length heteroplasmy

Author

Sturk-Andreaggi, Kimberly, Parson, Walther, Allen, Marie, and Marshall, Charla

Published

2020

5. Comparison of DNA polymerases for improved forensic analysis of challenging samples

Author

Nilsson, Martina, Grånemo, Joakim, Buś, Magdalena M., Havsjö, Mikael, and Allen, Marie

Published

2016

6. Virulence and genomic diversity among clinical isolates of ST1 (BI/NAP1/027) Clostridioides difficile.

Author

Dong, Qiwen, Lin, Huaiying, Allen, Marie-Maude, Garneau, Julian R., Sia, Jonathan K., Smith, Rita C., Haro, Fidel, McMillen, Tracy, Pope, Rosemary L., Metcalfe, Carolyn, Burgo, Victoria, Woodson, Che, Dylla, Nicholas, Kohout, Claire, Sundararajan, Anitha, Snitkin, Evan S., Young, Vincent B., Fortier, Louis-Charles, Kamboj, Mini, and Pamer, Eric G.

Abstract

Clostridioides difficile produces toxins that damage the colonic epithelium, causing colitis. Variation in disease severity is poorly understood and has been attributed to host factors and virulence differences between C. difficile strains. We test 23 epidemic ST1 C. difficile clinical isolates for their virulence in mice. All isolates encode a complete Tcd pathogenicity locus and achieve similar colonization densities. However, disease severity varies from lethal to avirulent infections. Genomic analysis of avirulent isolates reveals a 69-bp deletion in the cdtR gene, which encodes a response regulator for binary toxin expression. Deleting the 69-bp sequence in virulent R20291 strain renders it avirulent in mice with reduced toxin gene transcription. Our study demonstrates that a natural deletion within cdtR attenuates virulence in the epidemic ST1 C. difficile isolates without reducing colonization and persistence. Distinguishing strains on the basis of cdtR may enhance the specificity of diagnostic tests for C. difficile colitis. [Display omitted] • Clinical ST1 C. difficile isolates with identical PaLoc can differ remarkably in virulence • Two avirulent C. difficile isolates remain avirulent in immune-deficient and germ-free mice • Avirulent C. difficile isolates contain a deletion in the regulatory gene for binary toxin • CdtR regulates Tcd and CDT toxins, thus broadly impacting the virulence of C. difficile Dong et al. show that clinical ST1 C. difficile isolates with identical pathogenicity loci have variable virulence in mice. A natural deletion within the regulatory gene (cdtR) for binary toxin attenuates virulence in epidemic ST1 C. difficile isolates without reducing colonization and persistence. [ABSTRACT FROM AUTHOR]

Published

2023

7. The DNA‐Buster: The evaluation of an alternative DNA recovery approach.

Author

Währer, Jonathan, Kehm, Sabrina, Allen, Marie, Brauer, Linnéa, Eidam, Oliver, Seiberle, Ilona, Kron, Sarah, Scheurer, Eva, and Schulz, Iris

Subjects

DNA fingerprinting, DNA

Abstract

Touch DNA recovery techniques can have limitations, as their effectiveness depends on the substrate on which the DNA of a person of interest can be found. In this study, an in-house dry-vacuuming device, the DNA-Buster, was compared to traditional methods for its DNA recovery performance from items typically examined in forensic casework. The aim was to evaluate whether this dry-vacuuming approach can recover DNA efficiently, potentially complementing the well-established recovery strategies. For this, the performances of swabbing, taping, wet- (M-Vac®) and dry-vacuuming (DNA-Buster) were investigated quantitatively and qualitatively for touch DNA deposited on carpet, cotton sweater, stone, tile and wood. For the sweater, both vacuuming methods outperformed the other collection tools quantitatively. While the highest DNA amounts for the carpet were yielded by swabbing and taping, dry-vacuuming was equally good in reaching full DNA profiles, whereas less complete profiles were observed for the M-Vac®. For stone and tile, swabbing was optimal, whereas dry-vacuuming clearly underperformed for these substrates. Taping was the best recovery method for wood. Despite applying single donor DNA after thoroughly cleaning the items, undesired DNA mixtures were detected for all recovery techniques and all substrates. The overall research findings show first that the novel dry-vacuuming method is suited for DNA recovery from textiles. Secondly, they indicate that more attention should be paid to the substrate-collection dependency to ensure best practices in recovering genetic material in a precise, confident and targeted manner from the variety of forensic casework material. • An alternative dry vacuuming device for collecting of forensic evidence is evaluated. • Wet and dry vacuuming yielded the highest DNA amounts for cotton sweater. • For the carpet, swabbing, taping and dry vacuuming yielded the most complete STR profiles. • For stone and tile, swabbing showed best STR profiles, while vacuuming underperformed. • The highest DNA recovery for wood was taping. [ABSTRACT FROM AUTHOR]

Published

2023

8. Forensic analysis of autosomal STR markers using Pyrosequencing.

Author

Divne, Anna-Maria, Edlund, Hanna, and Allen, Marie

Subjects

FORENSIC genetics, REPEATED sequence (Genetics), NUCLEOTIDE sequence, GENETIC markers, LOCUS (Genetics), GENETIC polymorphisms, ALLELES, HUMAN population genetics

Abstract

Abstract: Short tandem repeats (STRs) are highly variable, and therefore routinely used in forensic investigations for a DNA-based individual identification. The routine assay is commonly performed by size separation using capillary electrophoresis, but alternative technologies can also be used. In this study, a Pyrosequencing assay was developed for analysis of STR markers useful in forensic DNA analysis. The assay was evaluated for 10 different STR loci (CSF1PO, TH01, TPOX, D3S1358, D5S818, D7S820, D8S1179, D13S317, D16S539 and Penta E) and a total of 114 Swedish individuals were genotyped. This genotyping strategy reveal the actual sequence and variant alleles were seen at several loci, providing additional information compared to fragment size analysis. At the D13S317 locus a T/A SNP located in the last repeat unit was observed in 92% of the genotypes. Moreover, an upstream flanking SNP at locus D7S820, a SNP within the repeats at D3S1358 and D8S1179 and a deletion in the flanking region at locus D5S818 were observed. The Pyrosequencing method was first developed for SNP typing and sequencing of shorter DNA fragments but the method also provides an alternative method for STR analysis of less complex repeats. This assay is suitable for investigation of new markers, a rapid compilation of population data and for confirmation of variant and new alleles. [Copyright &y& Elsevier]

Published

2010

9. Y chromosomal STR analysis using Pyrosequencing technology.

Author

Edlund, Hanna and Allen, Marie

Subjects

FORENSIC genetics, CHROMOSOME polymorphism, Y chromosome, IDENTIFICATION, GENETIC markers, POLYMERASE chain reaction

Abstract

Abstract: Analysis of Y chromosome STR markers has proven to be useful in forensic cases where the samples contain a mixture of DNA from several individuals. STR markers are commonly genotyped based on length separation of PCR products. In this study we evaluated if Pyrosequencing can be used as an alternative method for determining Y-STR variants. In total 70 unrelated Swedish males were typed for the Y chromosomal markers (DYS19, DYS389 I-II, DYS390, DYS391, DYS392, DYS393 and DYS438) using Pyrosequencing. Using the 8 markers, 57 unique haplotypes were observed with a discrimination capacity of 0.81. At four loci, the Pyrosequencing analysis revealed sequence variants. The sequence variants were found in the DYS389 II, DYS390, DYS391, and DYS393 loci in frequencies between 1.43% and 14.3%. Pyrosequencing has here been shown to be a useful tool for typing Y chromosomal STRs and the method can provide a complement to conventional forensic Y STR analyses. Moreover, the Pyrosequencing method can be used to rapidly evaluate novel markers. [Copyright &y& Elsevier]

Published

2009

10. Evaluation of mitochondrial DNA coding region assays for increased discrimination in forensic analysis.

Author

Nilsson, Martina, Andréasson-Jansson, Hanna, Ingman, Max, and Allen, Marie

Subjects

MITOCHONDRIAL DNA, FIRE assay, FORENSIC medicine, CAUCASIAN race, CRIMINAL investigation, FORENSIC sciences

Abstract

Abstract: There is an increasing trend to use mitochondrial DNA (mtDNA) analysis in criminal investigations where only limited amounts of DNA are available. However, analysis of the mtDNA control region has the drawback of low discrimination power, due to the lack of recombination that results from uniparental (maternal) inheritance. As a strategy to increase discrimination, a number of typing assays detecting variation in the mitochondrial coding region have been developed. In this study, several of these assays are evaluated for their discriminatory capacity using data obtained from 495 complete Caucasian mtDNA sequences. In order to add a local geographic perspective to this evaluation, we have also sequenced and analysed the entire mtDNA from 20 individuals of Swedish origin. We find that the coding region assays are very useful for resolving sequences with identical HVI/HVII regions. The best-performing coding region assay was able to discriminate 46% of the resolvable sequences, compared to 20–30% for the other coding region assays we evaluated. [Copyright &y& Elsevier]

Published

2008

11. Forensic mitochondrial coding region analysis for increased discrimination using pyrosequencing technology.

Author

Andréasson, Hanna, Nilsson, Martina, Styrman, Hanna, Pettersson, Ulf, and Allen, Marie

Subjects

MITOCHONDRIAL DNA, DNA fingerprinting, FORENSIC genetics techniques, FORENSIC sciences, NUCLEOTIDE analysis

Abstract

Abstract: Analysis of mitochondrial DNA (mtDNA) is very useful when nuclear DNA analysis fails due to degradation or insufficient amounts of DNA in forensic analysis. However, mtDNA analysis has a lower discrimination power compared to what can be obtained by nuclear DNA (nDNA) analysis, potentially resulting in multiple individuals showing identical mtDNA types in the HVI/HVII region. In this study, the increase in discrimination by analysis of mitochondrial coding regions has been evaluated for identical or similar HVI/HVII sequences. A pyrosequencing-based system for coding region analysis, comprising 17 pyrosequencing reactions performed on 15 PCR fragments, was utilised. This assay was evaluated in 135 samples, resulting in an average read length of 81 nucleotides in the pyrosequencing analysis. In the sample set, a total of 52 coding region SNPs were identified, of which 18 were singletons. In a group of 60 samples with 0 or 1 control region difference from the revised Cambridge reference sequence (rCRS), only 12 samples could not be resolved by at least two differences using the pyrosequencing assay. Thus, the use of this pyrosequencing-based coding region assay has the potential to substantially increase the discriminatory power of mtDNA analysis. [Copyright &y& Elsevier]

Published

2007

12. A DNA microarray system for forensic SNP analysis

Author

Divne, Anna-Maria and Allen, Marie

Subjects

*DNA, *GENES, *ASSIMILATION (Sociology), *DEOXYRIBOSE

Abstract

Abstract: Forensic DNA analysis is routinely performed using polymorphic short tandem repeat (STR) markers. However, for degraded or minute DNA samples, analysis of autosomal single nucleotide polymorphisms (SNPs) in short fragments might be more successful. Furthermore, sequencing of mitochondrial DNA (mtDNA) is often performed on highly degraded or scarce samples due to the high copy number of mtDNA in each cell. Due to the increasing number of complete mtDNA genome sequences available, the limited discrimination power of an mtDNA analysis, may be increased by analysis of coding region polymorphisms in addition to the non-coding variation. Since sequence analysis of the coding region would require more material than generally present in forensic samples, an alternative SNP analysis approach is required. We have developed a one-colour microarray-based SNP detection system for limited forensic materials. The method is based on minisequencing in solution prior to hybridisation to universal tag-arrays. In a first outline of a forensic chip, a combination of 12 nuclear and 21 mitochondrial SNP markers are analysed simultaneously. The mitochondrial markers on the chip are polymorphisms within the hypervariable region as well as in the coding region. Even though the number of markers in the current system is limited, it can easily be extended to yield a greater power of discrimination. When fully developed, microarray analysis provides a promising system for efficient sensitive SNP analysis of forensic samples in the future. [Copyright &y& Elsevier]

Published

2005

13. SNP typing using molecular inversion probes.

Author

Edlund, Hanna and Allen, Marie

Subjects

CHROMOSOME polymorphism, MOLECULAR probes, NUCLEIC acid analysis, DNA fingerprinting, POLYMERASE chain reaction, FORENSIC genetics

Abstract

Abstract: Single nucleotide polymorphism (SNP) typing will be useful in forensic analysis but is limited by the multiplexing capacity of multiple targets in the PCR. A strategy to circumvent this problem can be to use molecular inversion probes (MIPs). MIPs are linear oligonucleotides 70–100 nt in length, with end-segments that are complementary to a target sequence. In this study, 10 SNPs were selected for SNP detection performed by pyrosequencing. The high-multiplexing capacity of MIPs makes this technology very useful for large scale SNP genotyping, but may also be useful for DNA typing in forensic investigations. [Copyright &y& Elsevier]

Published

2008

14. A study of genetic polymorphisms in mitochondrial DNA hypervariable regions I and II of the five major ethnic groups and Vedda population in Sri Lanka.

Author

Ranasinghe, Ruwandi, Tennekoon, Kamani H., Karunanayake, Eric H., Lembring, Maria, and Allen, Marie

Subjects

*ETHNIC groups, *FORENSIC anthropology, *GENOMES, *POLYMERASE chain reaction, *DEMOGRAPHIC characteristics

Abstract

Diversity of the hypervariable regions (HV) I and II of the mitochondrial genome was studied in maternally unrelated Sri Lankans ( N = 202) from six ethnic groups (i.e.: Sinhalese, Sri Lankan Tamil, Muslim, Malay, Indian Tamil and Vedda). DNA was extracted from blood and buccal swabs and HVI and HVII regions were PCR amplified and sequenced. Resulting sequences were aligned and edited between 16024–16365 and 73–340 regions and compared with revised Cambridge reference sequences (rCRS). One hundred and thirty-five unique haplotypes and 22 shared haplotypes were observed. A total of 145 polymorphic sites and 158 polymorphisms were observed. Hypervariable region I showed a higher polymorphic variation than hypervariable region II. Nucleotide diversities were quite low and similar for all ethnicities apart from a slightly higher value for Indian Tamils and a much lower value for the Vedda population compared to the other groups. When the total population was considered South Asian (Indian) haplogroups were predominant, but there were differences in the distribution of phylo-geographical haplogroups between ethnic groups. Sinhalese, Sri Lankan Tamil and Vedda populations had a considerable presence of West Eurasian haplogroups. About 2/3rd of the Vedda population comprised of macro-haplogroup N or its subclades R and U, whereas macro-haplogroup M was predominant in all other populations. The Vedda population clustered separately from other groups and Sri Lankan Tamils showed a closer genetic affiliation to Sinhalese than to Indian Tamils. Thus this study provides useful information for forensic analysis and anthropological studies of Sri Lankans. [ABSTRACT FROM AUTHOR]

Published

2015