Your search keyword '"Michael D. Coble"' showing total 115 results

51. The mitochondrial landscape of African Americans: An examination of more than 2500 control region haplotypes from 22 U.S. locations

Author

Jessica L. Saunier, Rebecca S. Just, Melissa Scheible, Thomas J. Parsons, Walther Parson, Jodi A. Irwin, Michael D. Coble, and Kimberly Sturk-Andreaggi

Subjects

0301 basic medicine, Forensic Genetics, Mitochondrial DNA, Population, DNA, Mitochondrial, Haplogroup, Pathology and Forensic Medicine, 03 medical and health sciences, 0302 clinical medicine, Genetic variation, Databases, Genetic, Genetics, Humans, East Asia, 030216 legal & forensic medicine, education, Genetic diversity, education.field_of_study, Haplotype, Genetic Variation, United States, Mitochondria, Black or African American, 030104 developmental biology, Geography, Genetics, Population, Haplotypes, Evolutionary biology, GenBank

Abstract

The mitochondrial DNA (mtDNA) control region (16024-576) was Sanger-sequenced for a total of 2563 self-identified African Americans, using automated processing techniques and data review standards exceeding guidelines for forensic applications. Genetic diversity ranged from 0.9952 to 0.9998 in 22 population samples from 20 different states. Haplogroups of African ancestry, found in 82.48% of individuals overall, were most concentrated in the Southeast U.S. and decreased to the north and west. West African and West Central African haplotypes were well-represented in the population samples, especially in the southern U.S. states, while East African haplogroups were observed in low-frequency clusters in a handful of locations across the country. East Asian, Native American, and West Eurasian admixture was present in 3.16%, 2.93%, and 11.43% of samples, respectively. While some geographic substructure was detected across the population samples as clines in admixture frequencies, 20 of the 22 population samples were found to be statistically indistinguishable by pairwise comparisons and AMOVA calculations. Datasets from Hawaii and Idaho, however, were clear outliers. Overall, these more than 2500 control region sequences represent the most comprehensive regional sampling of African American mtDNA diversity to date, and are suitable for use in a forensic mtDNA database. The population data are made available via EMPOP (www.empop.org) and GenBank.

Published

2015

52. Worked Mixture Example

Author

Michael D. Coble

Subjects

medicine.anatomical_structure, Computer science, medicine, Calculus, Appendix

Published

2015

53. Analysis of artificially degraded DNA using STRs and SNPs—results of a collaborative European (EDNAP) exercise

Author

Helle Smidt Mogensen, M. Briōn, Denise Syndercombe-Court, Jodi A. Irwin, J. N. Butler, Angel Carracedo, Klaus Bender, H. Schmitter, Thomas J. Parsons, E. Ramos-Luis, L.A. Dixon, E. Petkovski, Paula Sánchez-Diz, A.E. Dobbins, Peter M. Vallone, Peter Gill, Walther Parson, Burkhard Berger, H.K. Pulker, Beate Stradmann-Bellinghausen, Kristian Nielsen, Niels Morling, Rebecca S. Just, Odile Loreille, Michael D. Coble, Juan J. Sanchez, and Petra Grubwieser

Subjects

Forensic Genetics, Genetics, Analysis of Variance, Genotype, DNA Degradation, Necrotic, Single-nucleotide polymorphism, Amplicon, Biology, DNA Fingerprinting, Polymerase Chain Reaction, Polymorphism, Single Nucleotide, Pathology and Forensic Medicine, Europe, Blood, DNA profiling, Tandem Repeat Sequences, Genetic marker, Humans, Microsatellite, Multiplex, Degraded dna, Mini strs, Saliva, Law

Abstract

Recently, there has been much debate about what kinds of genetic markers should be implemented as new core loci that constitute national DNA databases. The choices lie between conventional STRs, ranging in size from 100 to 450 bp; mini-STRs, with amplicon sizes less than 200 bp; and single nucleotide polymorphisms (SNPs). There is general agreement by the European DNA Profiling Group (EDNAP) and the European Network of Forensic Science Institutes (ENFSI) that the reason to implement new markers is to increase the chance of amplifying highly degraded DNA rather than to increase the discriminating power of the current techniques. A collaborative study between nine European and US laboratories was organised under the auspices of EDNAP. Each laboratory was supplied with a SNP multiplex kit (Foren-SNPs) provided by the Forensic Science Service, two mini-STR kits provided by the National Institute of Standards and Technology (NIST) and a set of degraded DNA stains (blood and saliva). Laboratories tested all three multiplex kits, along with their own existing DNA profiling technique, on the same sets of degraded samples. Results were collated and analysed and, in general, mini-STR systems were shown to be the most effective. Accordingly, the EDNAP and ENFSI working groups have recommended that existing STR loci are reengineered to provide smaller amplicons, and the adoption of three new European core loci has been agreed.

Published

2006

54. Setting standards and developing technology to aid the human identity testing community

Author

J. N. Butler, Peter M. Vallone, Margaret C. Kline, Janette W. Redman, David L. Duewer, Carolyn R. Hill, Michael D. Coble, and Amy E. Decker

Subjects

African american, Forensic dna, Geography, NIST, Library science, Reference population, General Medicine, Justice (ethics), Human identity, Degraded dna, Data science, Project team

Abstract

Our project team at the U.S. National Institute of Standards and Technology (NIST) is funded by the National Institute of Justice (NIJ) to conduct research that benefits the human identity testing community and to create tools that enable forensic DNA laboratories to be more effective in analyzing DNA. We certify standard reference materials, conduct interlaboratory studies, produce new assays to enable improved recovery of information from degraded DNA, evaluate new loci for potential future use in human identity applications, and generate standard information and training materials that are made available on the NIST STRBase website: http://www.cstl.nist.gov/biotech/strbase/ . New genetic markers and assays involving STR and SNP loci are examined in a U.S. reference population data set involving approximately 660 samples that are of Caucasian, Hispanic, and African American origin. Efforts to improve STR and SNP typing resources and assays for the community are described.

Published

2006

55. Effective strategies for forensic analysis in the mitochondrial DNA coding region

Author

Brion C. Smith, Toni M. Diegoli, Rebecca S. Just, Thomas J. Parsons, Peter M. Vallone, and Michael D. Coble

Subjects

Genetics, Mitochondrial DNA, Single-nucleotide polymorphism, Sequence Analysis, DNA, Variation (game tree), Computational biology, Biology, Complementarity Determining Regions, DNA Fingerprinting, DNA, Mitochondrial, Polymerase Chain Reaction, Polymorphism, Single Nucleotide, Pathology and Forensic Medicine, Variable (computer science), DNA profiling, Humans, Coding region, Sequence (medicine)

Abstract

Recently, it has been recognized that accessing information in the mtDNA coding region can provide additional forensic discrimination with respect to the standard typing of the D-loop region, augmenting the sometimes rather limited forensic power of mtDNA testing. Here, we discuss considerations relating to maximally effective approaches for recovering additional discrimination in the coding region, bearing in mind that (1) DNA quality and quantity in typical mtDNA casework usually restrict the amount of additional sequence that can be obtained, and (2) the need for additional discrimination primarily arises when common HV1/HV2 types are encountered. Most investigators have sought additional discrimination by sequencing short segments of coding region that are thought to be particularly variable. Unfortunately, efforts in this regard have generally failed to appreciate that most variation in the coding region is redundant with information already present in HV1/HV2 and have therefore overvalued the potential of this approach for providing additional discrimination. An alternative single nucleotide polymorphism-based approach [Int J Legal Med 118:137-146, 2004] has been to identify specific bases that provide resolution in specific common HV1/HV2 types (and related sequences). We investigate several highly relevant data sets wherein the latter approach performs appreciably better than sequencing selected short portions of the coding region. This is true even when only synonymous variation is targeted to minimize the potential for problems arising from discovery of mutations that have reportedly been related to disease.

Published

2005

56. Characterization of New MiniSTR Loci to Aid Analysis of Degraded DNA

Author

Michael D. Coble and John M. Butler

Subjects

Genetics, education.field_of_study, Population, Amplicon, Biology, Molecular biology, Pathology and Forensic Medicine, law.invention, chemistry.chemical_compound, chemistry, law, Polymorphism (computer science), Str loci, Typing, Degraded dna, education, Polymerase chain reaction, DNA

Abstract

A number of studies have demonstrated that successful analysis of degraded DNA specimens from mass disasters or forensic evidence improves with smaller sized polymerase chain reaction (PCR) products. We have scanned the literature for new STR loci, unlinked from the CODIS markers, which can generate amplicons less than 125 bp in size and would therefore be helpful in testing degraded DNA samples. New PCR primers were designed and tested for the STR loci D1S1677, D2S441, D4S2364, D10S1248, D14S1434, and D22S1045, arranged into two miniSTR triplexes. All loci show a moderate degree of polymorphism among 474 U.S. population samples tested and were reliable and sensitive to at least 100 pg of DNA template under controlled laboratory conditions and pristine DNA samples. The utility of these new loci were confirmed in comparing the success of the miniSTR assays for typing degraded bone samples while partial profiles were observed with the majority of the samples using a commercial STR kit.

Published

2005

57. A multiplex allele-specific primer extension assay for forensically informative SNPs distributed throughout the mitochondrial genome

Author

Thomas J. Parsons, Peter M. Vallone, Michael D. Coble, John M. Butler, and Rebecca S. Just

Subjects

Genetics, Mitochondrial DNA, law, Multiplex polymerase chain reaction, Multiplex, Single-nucleotide polymorphism, Biology, Primer (molecular biology), Primer extension, Polymerase chain reaction, Heteroplasmy, Pathology and Forensic Medicine, law.invention

Abstract

The typing of single nucleotide polymorphisms (SNPs) located throughout the mitochondrial genome (mtGenome) can help resolve individuals with an identi- cal HV1/HV2 mitotype. A set of 11 SNPs selected for dis- tinguishing individuals of the most common Caucasian HV1/HV2 mitotype were incorporated in an allele spe- cific primer extension assay. The assay was optimized for multiplex detection of SNPs at positions 3010, 4793, 10211, 5004, 7028, 7202, 16519, 12858, 4580, 477 and 14470 in the mtGenome. Primers were designed to allow for simultaneous PCR amplification of 11 unique regions in the mtGenome and subsequent primer extension. By enzymatically incorporating fluorescently labeled dideoxy- nucleotides (ddNTPs) onto the 3' end of the extension primer, detection can be accomplished with a capillary- based electrophoresis (CE) platform common in most forensic laboratories. The electrophoretic mobility for the extension primers was compared in denaturing POP4 and POP6 CE running buffers. Empirical adjustment of exten- sion primer concentrations resulted in even signal inten- sity for the 11 loci probed. We demonstrate that the assay performs well for heteroplasmy and mixture detection, and for typical mtDNA casework samples with highly de- graded DNA.

Published

2004

58. Single nucleotide polymorphisms over the entire mtDNA genome that increase the power of forensic testing in Caucasians

Author

Jennifer E. O'Callaghan, Rebecca S. Just, Thomas J. Parsons, Ilona H. Letmanyi, Jodi A. Irwin, Michael D. Coble, and Christine Tara Peterson

Subjects

Genetics, Mitochondrial DNA, Genome, Human, Single-nucleotide polymorphism, Forensic Medicine, Biology, DNA, Mitochondrial, Polymorphism, Single Nucleotide, Genome, White People, Pathology and Forensic Medicine, Forensic science, Genetics, Population, Gene Frequency, Humans, SNP, Multiplex, Typing, Caucasian population

Abstract

We have sequenced the entire mtDNA genome (mtGenome) of 241 individuals who match 1 of 18 common European Caucasian HV1/HV2 types, to identify sites that permit additional forensic discrimination. We found that over the entire mtGenome even individuals with the same HV1/HV2 type rarely match. Restricting attention to sites that are neutral with respect to phenotypic expression, we have selected eight panels of single nucleotide polymorphism (SNP) sites that are useful for additional discrimination. These panels were selected to be suitable for multiplex SNP typing assays, with 7-11 sites per panel. The panels are specific for one or more of the common HV1/HV2 types (or closely related types), permitting a directed approach that conserves limiting case specimen extracts while providing a maximal chance for additional discrimination. Discrimination provided by the panels reduces the frequency of the most common type in the European Caucasian population from approximately 7% to approximately 2%, and the 18 common types we analyzed are resolved to 105 different types, 55 of which are seen only once.

Published

2004

59. A cautionary note on switching mitochondrial DNA reference sequences in forensic genetics

Author

Bertrand Ludes, Adriano Tagliabracci, Stijn Desmyter, Lourdes Prieto, Leonor Gusmão, Walther Parson, Michael D. Coble, Antonio Salas, Tomasz Grzybowski, Terry Melton, Tomasz Kupiec, Hwan Young Lee, Thomas J. Parsons, Heidi Pfeiffer, Mitchell M. Holland, Jodi A. Irwin, Carsten Hohoff, and Sabine Lutz-Bonengel

Subjects

Forensic Genetics, Genetics, Mitochondrial DNA, Sequence Analysis, DNA, Biology, DNA, Mitochondrial, Haplogroup, Pathology and Forensic Medicine, Phylogeography, Haplotypes, Reference Values, Terminology as Topic, Humans, Forensic genetics

Published

2012

60. Sequence variation of mitochondrial DNA control region in North Central Venezuela

Author

Michael D. Coble, Jessica L. Saunier, Alvaro Rodríguez-Larralde, D. Castro de Guerra, Claudio M. Bravi, Melissa Scheible, C. Figuera Pérez, and Jodi A. Irwin

Subjects

Mitochondrial DNA, HAPLOGROUPS, North central, Otras Ciencias Biológicas, Subclade, Biology, Venezuela, DNA, Mitochondrial, Haplogroup, Pathology and Forensic Medicine, Ciencias Biológicas, VENEZUELA, Haplotypes, Evolutionary biology, Genetics, Humans, MITOCHONDRIAL DNA, Sequence variation, CIENCIAS NATURALES Y EXACTAS

Abstract

Fil: Castro de Guerra, Dinorah Tibisay. Instituto Venezolano de Investigaciones Científicas; Venezuela Fil: Figuera Pérez, C.. Instituto Venezolano de Investigaciones Científicas; Venezuela Fil: Bravi, Claudio Marcelo. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - La Plata. Instituto Multidisciplinario de Biología Celular. Provincia de Buenos Aires. Gobernación. Comisión de Investigaciones Científicas. Instituto Multidisciplinario de Biología Celular. Universidad Nacional de La Plata. Instituto Multidisciplinario de Biología Celular; Argentina Fil: Saunier, J.. Armed Forces DNA Identification Laboratory; Estados Unidos Fil: Scheible, M.. Armed Forces DNA Identification Laboratory; Estados Unidos Fil: Irwin, J.. Armed Forces DNA Identification Laboratory; Estados Unidos Fil: Coble, M. D.. Armed Forces DNA Identification Laboratory; Estados Unidos Fil: Rodríguez Larralde, A.. Instituto Venezolano de Investigaciones Científicas; Venezuela

Published

2012

61. Allele frequency distribution of twelve X-chromosomal short tandem repeat markers in four U.S. population groups

Author

Toni M. Diegoli, Adrian Linacre, Michael D. Coble, Peter M. Vallone, and John M. Butler

Subjects

African american, Genetics, education.field_of_study, Allele distribution, Population, Microsatellite, Biology, education, Allele frequency, U s population, X chromosome, Pathology and Forensic Medicine

Abstract

A total of 853 samples from the four major U.S. population groups (African American, Asian, Caucasian, and Hispanic) were typed using the Qiagen ® Investigator Argus X-12 kit. Allele frequency distributions are reported here for each of the 12 X-STR markers (DXS10103, DXS8378, DXS7132, DXS10134, DXS10074, DXS10101, DXS10135, DXS7423, DXS10146, DXS10079, DXS10148, and HPRTB).

Published

2011

62. The mitochondrial DNA history of a former native American village in northern Uruguay

Author

Mónica, Sans, Pablo, Mones, Gonzalo, Figueiro, Isabel, Barreto, Josefina M B, Motti, Michael D, Coble, Claudio M, Bravi, and Pedro C, Hidalgo

Subjects

Genetics, Population, Haplotypes, Indians, South American, Black People, Genetic Variation, Humans, Uruguay, Sequence Analysis, DNA, DNA, Mitochondrial, White People

Abstract

In 1828, between 8,000 and 15,000 Indians from the Jesuit Missions were brought to Uruguay. There, they were settled in a village, presently named Bella Unión, in the northwest corner of the country. According to historic sources, the Indians abandoned the settlement shortly thereafter, with the village subsequently repopulated by "criollos" and immigrants from abroad. As a first approach to reconstruct the genetic history of the population, data about the living population genetic structure will be used. Based on the analysis of the maternal lineages of the inhabitants of Bella Unión, and of those from two nearby villages, we expect to partially answer what happened with the first and subsequent inhabitants.We analyzed the maternal lineages of the present inhabitants of Bella Unión and neighboring localities through the sequencing of the mitochondrial DNA control region.A total of 64.3%, 5.7%, and 30% of the mtDNAs were of Native, African, and West Eurasian origin, respectively. These figures are quite similar to that of the population of Tacuarembó, which is located in northeastern Uruguay. The four main Native American founding haplogroups were detected, with B2 being the most frequent, while some rare subhaplogroups (B2h, C1b2, D1f1) were also found. When compared with other Native American sequences, near- matches most consistently pointed to an Amazonian Indian origin which, when considered with historical evidence, suggested a probable Guaraní-Missionary-related origin.The data support the existence of a relationship between the historic and present inhabitants of the extreme northwest Uruguay, with a strong contribution of Native Americans to the mitochondrial DNA diversity observed there.

Published

2014

63. Mutation rates of 15 X chromosomal short tandem repeat markers

Author

Toni M. Diegoli, Michael D. Coble, Adrian Linacre, and Moses S. Schanfield

Subjects

Genetics, Genetic Markers, Male, Mutation rate, Chromosomes, Human, X, Racial Groups, Biology, Identity testing, Polymerase Chain Reaction, United States, Pathology and Forensic Medicine, law.invention, Meiosis, law, Genetic marker, Mutation (genetic algorithm), Mutation, Microsatellite, Humans, Female, Allele frequency, Polymerase chain reaction, X chromosome, Microsatellite Repeats

Abstract

Though allele frequency data for a variety of X chromosomal short tandem repeat (STR) markers in a range of populations have been reported, fewer studies of mutation rates in these same markers or populations are available. In order to address possible mismatches during kinship analysis due to mutation, a robust estimate of the rate of mutation must be established. Here, mutation rates in three US populations have been determined for a total of 15 markers (DXS6789, DXS9902, DXS7132, DXS7130, DXS6795, DXS10147, DXS8378, DXS7423, HPRTB, DXS101, DXS7424, GATA31E08, GATA172D05, GATA165B12, and DXS6803). Eighteen mutations over 20,625 meioses were observed, and the overall X STR mutation rate in this study was found to be 8.73 × 10(-4) (95 % CI, 5.2-13.8 × 10(-4)). A review of published mutation rate studies revealed similar findings in other global populations, and allowed the compilation of a combined dataset of 81,310 meioses which can be employed by the forensic community.

Published

2014

64. Comparison of the performance of different models for the interpretation of low level mixed DNA profiles

Author

Todd W, Bille, Steven M, Weitz, Michael D, Coble, John, Buckleton, and Jo-Anne, Bright

Subjects

Forensic Genetics, Male, Models, Genetic, Humans, Female, DNA, Sequence Analysis, DNA, DNA Fingerprinting

Abstract

DNA analyses from forensic casework samples commonly result in complex DNA profiles. Often, these profiles consist of multiple contributors and display multiple stochastic events such as peak height imbalance, allelic or locus drop-out, allelic drop-in, and excessive or indistinguishable stutter. This increased complexity has established a need for more sophisticated methods of DNA mixture interpretation. This study compares the effectiveness of statistical models in the interpretation of artificially created low template two person mixed DNA profiles at varying proportions and template quantities. Two binary models (combined probability of inclusion and random match probability), a semicontinuous (Lab retriever), and continuous model (STRmix™) were compared. Generally, as the sophistication of the models increases, the power of discrimination increases. Differences in discrimination often correlate to each model's ability to use observed data effectively. Binary models require static thresholds resulting in unused data and outliers that may lead to difficult or incorrect interpretation. Semicontinuous and continuous models eliminate the stochastic threshold, however Lab Retriever does not account for stochastic events beyond drop-out and drop-in leading to possible less effective use of the data. STRmix™ incorporates all stochastic events listed above into the calculation making the most effective use of the observed data.

Published

2014

65. The application of mtDNA SNPs to a forensic case

Author

Suzanne M. Barritt, Kimberly A. Sturk, Thomas J. Parsons, Rebecca S. Just, and Michael D. Coble

Subjects

Genetics, mtDNA control region, Mitochondrial DNA, SNP, Coding region, Single-nucleotide polymorphism, Multiplex, Biology, Pathology and Forensic Medicine, SNP genotyping, Hypervariable region

Abstract

A multiplex allele specific primer extension (ASPE) assay was optimized to type 11 single nucleotide polymorphisms (SNPs) in the control and coding regions of the mitochondrial genome. The SNPs provide additional discrimination when one of the most common W. European Caucasian hypervariable region types (HV types) is encountered. The SNP assay was applied in a nearly 40-year-old missing persons case involving highly degraded human remains in which four potential reference families matched the case sample across hypervariable regions 1 and 2 (HV1/HV2). The SNP assay identified two coding region positions (5250 and 12438) at which the case sample differed from one reference family. The exclusion eliminated the need for any further testing for comparison to those reference samples, and narrowed the focus to the remaining families.

Published

2008

66. Forensic application of the affymetrix human mitochondrial resequencing array

Author

J.P. Jakupciak, Michael D. Coble, and Peter M. Vallone

Subjects

Forensic Genetics, Genetics, Mitochondrial DNA, Microarray, Genome, Human, Reproducibility of Results, Sequence Analysis, DNA, Biology, DNA, Mitochondrial, Polymorphism, Single Nucleotide, Pathology and Forensic Medicine, Black or African American, genomic DNA, Humans, SNP, Microsatellite, Coding region, Pyrosequencing, Microsatellite Repeats, Oligonucleotide Array Sequence Analysis, Sequence (medicine)

Abstract

In the field of forensic DNA testing, sequencing regions of the mitochondrial genome is performed when insufficient genomic DNA is present for traditional autosomal short tandem repeat (STR) testing. Sequencing coding region polymorphisms in the mitochondrial genome can be useful for resolving individuals who have the identical HV1 and HV2 control region sequence. Various methods and strategies have been established to interrogate coding region polymorphisms. These range from SNP assays probing sites most likely to differentiate individuals based on their HV1/HV2 sequence to the use of mass spectrometry to pyrosequencing. Here we evaluate the potential of the Affymetrix GeneChip Mitochondrial Resequencing Array (version 2.0) for forensic applications.

Published

2007

67. The evaluation of an autosomal SNP 12-plex assay

Author

John M. Butler, Peter M. Vallone, Amy E. Decker, and Michael D. Coble

Subjects

Genetics, education.field_of_study, Population, SNP, Single-nucleotide polymorphism, General Medicine, Typing, Tag SNP, Biology, Amplicon, Molecular Inversion Probe, education, SNP genotyping

Abstract

SNPs have the potential to play a useful role in human identification testing. Small PCR amplicon sizes associated with SNP typing technologies make SNPs attractive for typing degraded DNA or other low copy number situations. SNP markers can be useful in combination with STRs for resolving complex paternity issues (e.g. incest), identifying victims of mass disasters where insufficient family references are available and possibly inferring population of origin. Important considerations for SNP markers are the larger number required to equal the discriminatory power compared to traditional STRs, their inability to resolve complex mixtures, issues related to databasing new loci and the availability of a standard analysis platform.

Published

2006

68. Characterization and performance of new MiniSTR loci for typing degraded samples

Author

J. N. Butler, Carolyn R. Hill, Peter M. Vallone, and Michael D. Coble

Subjects

Genetics, Variable number tandem repeat, Combined DNA Index System, Mitochondrial DNA, STR analysis, STR multiplex system, Microsatellite, Multiplex, General Medicine, Typing, Biology

Abstract

Forensic DNA analysts often perform short tandem repeat (STR) typing on highly degraded biological material and then turn to mitochondrial DNA testing if many or all of the STRs fail. The commercially available kits for multiplex amplification of the 13 CODIS (FBI's COmbined DNA Index System) STR loci usually exhibit allele or locus-dropout for larger sized loci with degraded DNA or samples containing PCR inhibitors. By moving PCR primers closer to the STR repeat region, we have demonstrated that it is possible to obtain fully concordant results to the commercial kits while improving successful analysis of degraded DNA with smaller PCR products or “miniSTRs.” However, many of the CODIS core loci have large allele ranges (e.g., D21S11 and FGA) that make it impossible to create small PCR products. We have examined a battery of new candidate STR loci that can be made less than 100 bp in size (in many cases), and would therefore be helpful in testing highly degraded DNA samples. A set of six non-CODIS markers has been characterized and published, and the performance of these markers on degraded materials such as aged bloodstains and shed hairs has been examined. Here we report on the status of 10 additional miniSTR markers unlinked from the CODIS STR markers.

Published

2006

69. Characterization of mtDNA SNP typing using quantitative real-time PCR with special emphasis on heteroplasmy detection and mixture ratio assessment

Author

Michael D. Coble, Thomas J. Parsons, Walther Parson, and Harald Niederstätter

Subjects

Genetics, Mitochondrial DNA, genomic DNA, TaqMan, SNP, Single-nucleotide polymorphism, General Medicine, Typing, Biology, Allele, Heteroplasmy

Abstract

Using a plasmid DNA model and total genomic DNA (gDNA) reference samples, we examined the performance and forensic utility of a quantitative allele-discriminatory real-time PCR assay relying on TaqMan probes targeting the mitochondrial single nucleotide polymorphism (mtSNP) 16519T/C. For allele-calling and allele proportion assessment we used absolute quantification of both alleles as well as relative quantification based on endpoint fluorescence.

Published

2006

70. Population genetic data for 15 X chromosomal short tandem repeat markers in three U.S. populations

Author

Adrian Linacre, Toni M. Diegoli, and Michael D. Coble

Subjects

Genetics, Linkage (software), Genetic Markers, education.field_of_study, Chromosomes, Human, X, Offspring, Population, Biology, Identity testing, Null allele, United States, Pathology and Forensic Medicine, Genetics, Population, Gene Frequency, Microsatellite, Humans, Allele, education, X chromosome, Microsatellite Repeats

Abstract

314 African American, 434 U.S. Caucasian, and 398 U.S. Hispanic individuals were typed at X STR markers DXS6795, DXS9902, DXS8378, DXS7132, DXS6803, DXS6789, DXS7424, DXS101, GATA172D05, DXS7130, GATA165B12, HPRTB, GATA31E08, DXS10147, DXS7423. High forensic efficiency parameter values confirm the potential usefulness of these markers in certain specific kinship situations involving female offspring as well as identity testing. Alleles previously unobserved in U.S. populations were noted in this study at 8 different markers. Additionally, null alleles and a triallelic pattern were observed and described. Pairwise comparisons indicated consistency with similar published populations at overlapping markers. These data represent a substantial increase in the quantity of U.S. X chromosomal short tandem repeat data available to the community.

Published

2013

71. Characterising the STR locus D6S1043 and examination of its effect on stutter rates

Author

John Buckleton, Michael D. Coble, Jo-Anne Bright, James M. Curran, Kate Stevenson, and Carolyn R. Hill

Subjects

Genetics, Heterozygote, Base Sequence, Locus (genetics), Amplicon, Biology, Polymerase Chain Reaction, Pathology and Forensic Medicine, law.invention, nervous system diseases, chemistry.chemical_compound, Forensic dna, chemistry, Tandem repeat, law, Microsatellite, Humans, Allele, Forensic biology, DNA, Polymerase chain reaction, Alleles, DNA Primers, Microsatellite Repeats

Abstract

The forensic analysis of DNA is most often undertaken by the amplification of short tandem repeats (STR) using the polymerase chain reaction (PCR). DNA amplification can result in production of the target allele amplicon and a by-product called stutter. Stutter is the result of the miscopy of the target allele and is typically one repeat smaller. Stutter is traditionally described as a ratio of stutter and allele height; stutter ratio (SR). The challenge to DNA profile interpretation is most serious whenever stutter products are of a similar height to the minor allelic peaks in a mixed DNA profile. An accurate assignment of peaks and the prediction of their height is important when objectively interpreting forensic DNA profiles. The longest uninterrupted stretch (LUS) of tandem repeats within the allele has previously been shown to be a good predictor of stutter ratio. LUS is determined by sequencing a range of observed alleles at a locus. The locus D6S1043 is a relatively new locus to appear in commercial forensic DNA testing kits. To date however, there has been no comprehensive report of sequencing of this locus. In this work, we sequence a sample of D6S1043 alleles to determine LUS values and investigate allele repeat number and LUS as explanatory variables for SR.

Published

2013

72. Toward increased utility of mtDNA in forensic identifications

Author

Jessica L. Saunier, Jodi A. Irwin, John M. Butler, Peter M. Vallone, Suzanne M. Barritt, Michael D. Coble, Jennifer E. O'Callaghan, Rebecca S. Just, and Thomas J. Parsons

Subjects

mtDNA control region, Genetics, Mitochondrial DNA, Racial Groups, Single-nucleotide polymorphism, Robotics, Sequence Analysis, DNA, Computational biology, Biology, Complementarity Determining Regions, DNA Fingerprinting, DNA, Mitochondrial, Polymorphism, Single Nucleotide, Genome, DNA sequencing, Pathology and Forensic Medicine, Hypervariable region, Humans, SNP, Electronic data, Databases, Nucleic Acid, Law

Abstract

The utility of mtDNA in forensic identifications is limited by its low power of discrimination and the absence of high quality mtDNA databases. Single nucleotide polymorphisms (SNPs) in the control region outside of hypervariable regions I and II (HVI/HVII), and in the coding region of the mtDNA genome, can provide additional discrimination in mtDNA testing. We have identified particularly useful SNP sites via high throughput sequencing of the entire mtDNA genome. We report here two cases in which an 11-plex SNP assay (panel “A”) targeting the most common HVI/HVII type successfully resolved two cases in which identifications could not be made on the basis of HVI/HVII sequencing. Additionally, we established a database of 286 samples for SNP panel “A” generated with robotic protocols. We have addressed the need for high quality mtDNA control region (CR) databases by developing robotic protocols for lab processing, and a carefully devised electronic data review process. A large-scale databasing effort targeting several populations underrepresented in current mtDNA databases is underway.

Published

2004

73. Haplotype data for 23 Y-chromosome markers in four U.S. population groups

Author

Michael D. Coble, John M. Butler, and Carolyn R. Hill

Subjects

Genetics, Genetic Markers, education.field_of_study, Chromosomes, Human, Y, Haplotype, Population, Biology, Y chromosome, Polymerase Chain Reaction, United States, Pathology and Forensic Medicine, Haplotypes, Population Groups, Population data, Humans, Y-STR, education, U s population

Abstract

The PowerPlex Y23 kit contains 23 Y-chromosomal loci including all 17 of the markers in the Yfiler Y-STR kit plus six additional markers: DYS481, DYS533, DYS549, DYS570, DYS576, and DYS643. We have typed 1032 unrelated population samples from four self-declared US groups: African Americans, Asians, Hispanics, and Western European Caucasians. An analysis of the population genetic parameters and the improvement of adding additional Y-STR markers to the dataset are described.

Published

2012

74. U.S. population data for 29 autosomal STR loci

Author

John M. Butler, David L. Duewer, Carolyn R. Hill, Michael D. Coble, and Margaret C. Kline

Subjects

Loss of heterozygosity, Genetics, Genetics, Population, STR multiplex system, Str markers, Str loci, Humans, Biology, U s population, United States, Pathology and Forensic Medicine, Microsatellite Repeats

Published

2012

75. Demographic expansions in South America: enlightening a complex scenario with genetic and linguistic data

Author

Francisco M. Salzano, Maria Cátira Bortolini, Tábita Hünemeier, Rafael Bisso-Machado, Virginia Ramallo, Michael D. Coble, and Claudio M. Bravi

Subjects

Male, Bantu languages, Biology, Collective memory, DNA, Mitochondrial, PHYLOGEOGRAPHY, Anthropology, Physical, Ciencias Biológicas, Evolution, Molecular, Genética y Herencia, AMAZON, Genetic variation, DEMOGRAPHY, CONTROL REGION, Humans, Control (linguistics), Spatial analysis, Language, Amazon rainforest, Indians, South American, Genetic Variation, NATIVE AMERICANS, South America, BRAZIL, Linguistics, Phylogeography, Genetics, Population, Anthropology, Genetic structure, Female, Anatomy, MITOCHONDRIAL DNA, HAPLOTYPES, Sequence Alignment, CIENCIAS NATURALES Y EXACTAS

Abstract

Native Americans are characterized by specific and unique patterns of genetic and cultural/linguistic diversities, and this information has been used to understand patterns of geographic dispersion, and the relationship between these peoples. Particularly interesting are the Tupi and Je speaker dispersions. At present, a large number of individuals speak languages of these two stocks; for instance, Tupi-Guarani is one of the official languages in Paraguay, Bolivia, and the Mercosul economic block. Although the Tupi expansion can be compared in importance to the Bantu migration in Africa, little is known about this event relative to others. Equal and even deeper gaps exist concerning the Je-speakers´ expansion. This study aims to elucidate some aspects of these successful expansions. To meet this purpose, we analyzed Native American mtDNA complete control region from nine different populations and included HVS-I sequences available in the literature, resulting in a total of 1,176 samples investigated. Evolutionary relationships were explored through median-joining networks and genetic/geographic/linguistic correlations with Mantel tests and spatial autocorrelation analyses. Both Tupi and Je showed general traces of ancient or more recent fission?fusion processes, but a very different pattern of demographic expansion. Tupi populations displayed a classical isolation-by-distance pattern, while Je groups presented an intricate and nonlinear mode of dispersion. We suggest that the collective memory and other cultural processes could be important factors influencing the fission?fusion events, which likely contributed to the genetic structure, evolution, and dispersion of Native American populations. Fil: Ramallo, Virginia. Universidade Federal Do Rio Grande Do Sul; Brasil. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina Fil: Bisso Machado, Rafael. Universidade Federal do Rio Grande do Sul; Brasil Fil: Bravi, Claudio Marcelo. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico la Plata. Instituto Multidisciplinario de Biología Celular (i); Argentina Fil: Coble, Michael. Armed Forces DNA Identification Laboratory; Estados Unidos Fil: Salzano, Francisco. Universidade Federal Do Rio Grande Do Sul; Brasil Fil: Hünemeier, Tabita. Universidade Federal Do Rio Grande Do Sul; Brasil Fil: Bortolini, Maria C.. Universidade Federal Do Rio Grande Do Sul; Brasil

Published

2012

76. Capillary electrophoresis of miniSTR markers to genotype highly degraded DNA samples

Author

Michael D, Coble

Subjects

Genetic Markers, Base Sequence, Genotype, Molecular Sequence Data, Statistics as Topic, Electrophoresis, Capillary, DNA, Polymerase Chain Reaction, Animals, Humans, Cattle, Alleles, DNA Primers, Microsatellite Repeats

Abstract

The amplification of short tandem repeat (STR) markers throughout the human nuclear DNA genome are used to associate crime scene evidence to the perpetrator's profile in criminal investigations. For highly challenged or compromised materials such as stains exposed to the elements, skeletal remains from missing persons cases, or fragmented and degraded samples from mass disasters, obtaining a full STR profile may be difficult if not impossible. With the introduction of short amplicon STR or "miniSTR" typing, it is possible to obtain STR genetic information from highly challenged samples without the need to sequence the hypervariable regions of the mitochondrial DNA (mtDNA) genome. Non-Combined DNA Index System (CODIS) STR markers have been developed to obtain information beyond the core CODIS loci. This chapter will focus on the steps necessary to prepare and use one of the non-CODIS (NC) multiplexes, NC01 (Coble and Butler 2005), for analysis on capillary electrophoresis instrumentation.

Published

2011

77. Mitochondrial control region variation in a Korean population sample

Author

Melissa Scheible, Jodi A. Irwin, Soon Hee Kim, Michael D. Coble, and Kimberly Sturk-Andreaggi

Subjects

Genetics, mtDNA control region, Genetic diversity, Mitochondrial DNA, Korean population, Haplotype, Genetic Variation, Sample (statistics), Sequence Analysis, DNA, Biology, DNA, Mitochondrial, Haplogroup, Pathology and Forensic Medicine, Variation (linguistics), Asian People, Haplotypes, Evolutionary biology, Republic of Korea, Humans

Abstract

Mitochondrial DNA (mtDNA) control region (16024-576) sequences were generated from 281 individuals from South Korea. Robotic liquid handling, a redundant sequencing strategy, and a series of quality control checks were implemented to ensure the high quality of the dataset. This population sample showed a low random match probability (0.25 %) and high genetic diversity (0.9933). The haplogroup breakdown was consistent with previous studies describing Korean mtDNA variation. The 224 unique haplotypes (33 shared) presented will supplement the data already publically available.

Published

2014

78. Autosomal SNP typing of forensic samples with the GenPlex™ HID System: results of a collaborative study

Author

Helle Smidt Mogensen, Antoinette A. Westen, F. Manohar, G. Axler-Diperte, C.R. Thacker, P. Hoff-Olsen, P. Kohler, S. Frisk Fredslund, M. L. Sonntag, Peter M. Schneider, Claus Børsting, K. Neureuther, Denise Syndercombe-Court, Olalla Maroñas, Anders J. Hansen, Cordula Haas, Melissa Scheible, Rixun Fang, Niels Morling, Z. M. Budimlija, Bertil Lindblom, Marcos F. Fondevila, Helena Nilsson, Amy E. Decker, Suzanne Gonzalez, Michael Stangegaard, Peter M. Vallone, Arthur J. Eisenberg, A. K. Kriegel, Michael D. Coble, Carmen Tomas, University of Zurich, and Tomas, C

Subjects

Genetics, Forensic Genetics, 340 Law, Reproducibility of Results, Single-nucleotide polymorphism, Locus (genetics), 610 Medicine & health, Biology, 10218 Institute of Legal Medicine, Polymorphism, Single Nucleotide, Pathology and Forensic Medicine, Discriminatory power, Forensic science, 2734 Pathology and Forensic Medicine, 1311 Genetics, SNP, Humans, Degraded dna, Typing, Cooperative Behavior, Microsatellite Repeats

Abstract

The GenPlex (TM) HID System (Applied Biosystems - AB) offers typing of 48 of the 52 SNPforID SNPs and amelogenin. Previous studies have shown a high reproducibility of the GenPlex (TM) HID System using 250500 pg DNA of good quality. An international exercise was performed by 14 laboratories (9 in Europe and 5 in the US) in order to test the robustness and reliability of the GenPlex (TM) HID System on forensic samples. Three samples with partly degraded DNA and 10 samples with low amounts of DNA were analyzed in duplicates using various amounts of DNA. In order to compare the performance of the GenPlex (TM) HID System with the most commonly used STR kits, 500 pg of partly degraded DNA from three samples was typed by the laboratories using one or more STR kits. The median SNP typing success rate was 92.3% with 500 pg of partly degraded DNA. Three of the fourteen laboratories counted for more than two thirds of the locus dropouts. The median percentage of discrepant results was 0.2% with 500 pg degraded DNA. An increasing percentage of locus dropouts and discrepant results were observed when lower amounts of DNA were used. Different success rates were observed for the various SNPs. The rs763869 SNP was the least successful. With the exception of the MiniFiler (TM) kit (AB), GenPlex (TM) HID performed better than five other tested STR kits. When partly degraded DNA was analyzed, GenPlex (TM) HID showed a very low mean mach probability, while all STR kits except MiniFiler (TM) had very limited discriminatory power.

Published

2010

79. Development and characterization of two mini-X chromosomal short tandem repeat multiplexes

Author

Michael D. Coble and Toni M. Diegoli

Subjects

Forensic Genetics, Male, Base pair, Population, Biology, Linkage Disequilibrium, Pathology and Forensic Medicine, chemistry.chemical_compound, Multiplex polymerase chain reaction, Genetics, Humans, education, X chromosome, Alleles, DNA Primers, education.field_of_study, Chromosomes, Human, X, Polymorphism, Genetic, Base Sequence, Amplicon, Molecular biology, STR analysis, chemistry, Microsatellite, Female, DNA, Microsatellite Repeats

Abstract

This study presents the development and characterization of two X chromosomal short tandem repeat (STR) multiplexes utilizing reduced-size amplicons (less than 200 base pairs) for identity and kinship testing with degraded DNA. Approximately 1360 samples across 4 U.S. population groups were typed for 15 X chromosomal STR markers: DXS6789, DXS7130, DXS9902, GATA31E08, DXS7424, GATA165B12, DXS101, DXS6795, GATA172D05, DXS10147, DXS8378, DXS7132, DXS6803, HPRTB, and DXS7423. A high degree of polymorphism was observed for each marker and both multiplexes were sensitive down to 200pg of pristine DNA. The two proposed multiplexes are suitable for forensic use, and show potential for improved analysis of compromised bone samples.

Published

2010

80. Population genetic data for 17 STR markers from Lebanon

Author

Jessica L. Saunier, Fouad Ayoub, Katharine M. Strouss, Myrna Medlej-Hashim, Eliane Chouery, André Mégarbané, Michael D. Coble, and Nadine Jalkh

Subjects

Genetics, Genetic Markers, education.field_of_study, Genotype, Str markers, Population, Genetic data, Genetic Variation, Biology, Polymerase Chain Reaction, Pathology and Forensic Medicine, Issues, ethics and legal aspects, Genetics, Population, Gene Frequency, Population study, Humans, Lebanon, education, Allele frequency, Microsatellite Repeats

Abstract

Seventeen autosomal STRs were analyzed (D2S1338, D3S1358, D5S818, D7S820, D8S1179, D13S317, D16S539, D18S51, D19S433, D21S11, CSF1PO, FGA, TH01, TPOX, vWA, Penta D, and Penta E) in the Lebanese population. A total of 192 unrelated individuals were genotyped for the 15 autosomal STRs in the Promega PowerPlex 16 STR kit. An additional 275 unrelated individuals were genotyped for the Applied Biosystems AmpFlSTR Identifiler and SGM+STR kits. Allele frequencies for the shared CODIS 13 loci among the three STR kits tested were not significantly different among individuals within the Lebanese population. Forensic and population genetic parameters for the 17 loci were calculated. We also compared the allele frequencies from this population with other populations in the same geographic vicinity.

Published

2010

81. WITHDRAWN: Development and Characterization of Two Mini-X Chromosomal Short Tandem Repeat Multiplexes

Author

Toni M, Diegoli and Michael D, Coble

Subjects

Genetics, Pathology and Forensic Medicine

Abstract

This article has been withdrawn at the request of the author(s) and/or editor. The Publisher apologizes for any inconvenience this may cause. The full Elsevier Policy on Article Withdrawal can be found at http://www.elsevier.com/locate/withdrawalpolicy.

Published

2010

82. Population study of fourteen X chromosomal short tandem repeat loci in a population from Bosnia and Herzegovina

Author

Damir Marjanović, Toni M. Diegoli, Lejla Kovacevic, Naris Pojskić, and Michael D. Coble

Subjects

Electrophoresis, Male, Linkage disequilibrium, Population, Biology, Polymerase Chain Reaction, X chromosomal STR, population study, bosnia and Herzegovina, Linkage Disequilibrium, Pathology and Forensic Medicine, law.invention, Gene Frequency, law, Genetics, Humans, education, Allele frequency, X chromosome, Polymerase chain reaction, Bosnia and Herzegovina, education.field_of_study, Chromosomes, Human, X, social sciences, DNA Fingerprinting, eye diseases, humanities, Genetics, Population, DNA profiling, Population study, Microsatellite, Female, geographic locations, Microsatellite Repeats

Abstract

X chromosomal short tandem repeat (STR) loci can be used in combination with autosomal STRs to solve cases of complex kinship. In order to properly apply STR results to forensic cases, population databases must be established to which comparisons can be made and the rarity of profiles determined. Here, a population from Bosnia and Herzegovina was studied to determine the appropriate forensic efficiency parameters with 14 widely used X chromosomal STR loci.

Published

2009

83. Assessing a novel room temperature DNA storage medium for forensic biological samples

Author

George Carmody, Ron M. Fourney, Bruce Budowle, Arthur J. Eisenberg, Kingsley O. Odigie, Arijana Pozder, Kimberly C. Clabaugh, Brie Silva, Russell W. Miller, Thomas J. Parsons, Odile Loreille, Taha Ahmad, Steven B. Lee, Cecelia A. Crouse, Michael D. Coble, Melissa Scheible, and Jesse Stevens

Subjects

Forensic Genetics, Chromatography, Sample (material), Temperature, Replicate, DNA, Biology, Pathology and Forensic Medicine, Specimen Handling, genomic DNA, chemistry.chemical_compound, Real-time polymerase chain reaction, chemistry, Agarose gel electrophoresis, Genetics, Microsatellite, Humans, Multiplex

Abstract

The ability to properly collect, analyze and preserve biological stains is important to preserving the integrity of forensic evidence. Stabilization of intact biological evidence in cells and the DNA extracts from them is particularly important since testing is generally not performed immediately following collection. Furthermore, retesting of stored DNA samples may be needed in casework for replicate testing, confirmation of results, and to accommodate future testing with new technologies. A novel room temperature DNA storage medium, SampleMatrix™ (SM; Biomatrica, Inc., San Diego, CA), was evaluated for stabilizing and protecting samples. Human genomic DNA samples at varying amounts (0.0625–200ng) were stored dry in SM for 1 day to 1 year under varying conditions that included a typical ambient laboratory environment and also through successive freeze–thaw cycles (3 cycles). In addition, spiking of 1–4× SM into samples prior to analysis was performed to determine any inhibitory effects of SM. Quantification of recovered DNA following storage was determined by quantitative PCR or by agarose gel electrophoresis, and evaluation of quantitative peak height results from multiplex short tandem repeat (STR) analyses were performed to assess the efficacy of SM for preserving DNA. Results indicate no substantial differences between the quality of samples stored frozen in liquid and those samples maintained dry at ambient temperatures protected in SM. For long-term storage and the storage of low concentration samples, SM provided a significant advantage over freezer storage through higher DNA recovery. No detectable inhibition of amplification was observed at the recommended SM concentration and complete profiles were obtained from genomic DNA samples even in the presence of higher than recommended concentrations of the SM storage medium. The ability to stabilize and protect DNA from degradation at ambient temperatures for extended time periods could have tremendous impact in simplifying and improving sample storage conditions and requirements. The current work focuses on forensics analysis; however this technology is applicable to all endeavors requiring storage of DNA.

Published

2009

84. Evaluation of Modified Yfiler™ Amplification Strategy for Compromised Samples

Author

Suzanne M. Barritt, Kimberly A. Sturk, Jodi A. Irwin, and Michael D. Coble

Subjects

Genetics, Forensic Genetics, Forensic Science, Chromosomes, Human, Y, General Medicine, DNA, Biology, Dna identification, Polymerase Chain Reaction, law.invention, chemistry.chemical_compound, chemistry, law, Y-chromosomal short tandem repeats (Y-STRs), degraded samples, low copy number, Microsatellite, Humans, Low copy number, Polymerase chain reaction, Forensic genetics, Alleles, Microsatellite Repeats

Abstract

To characterize the data produced using a modified amplification protocol for the AmpFlSTR Yfiler PCR Amplification Kit (Applied Biosystems) and explore the potential of Y-chromosomal short tandem repeat (Y-STR) recovery from severely degraded skeletal remains encountered at the Armed Forces DNA Identification Laboratory.Experiments were performed using two sets of Yfiler amplification parameters. One set of parameters reflected the manufacturer's recommendations. The second set of parameters included twice the recommended Taq concentration and 6 additional cycles. Recovery of authentic alleles and the incidence of drop-in alleles were assessed for 3 data sets: 8 different quantities of pristine DNA, 8 artificially-degraded samples, and 31 non-probative case samples.Samples tested with both protocols from all 3 data sets yielded twice as many authentic alleles under the modified parameters than under the standard parameters (62% vs 31%), with only a nominal associated increase in the occurrence of non-authentic alleles (1.36% of all alleles detected). When applied to a range of representative casework samples, the modified protocol leveraged 9 or more reproducible alleles from over half of the specimens tested.Reproducible and informative Y-STR profiles can be recovered from a broad range of degraded and inhibited skeletal remains extracts when a commercially available kit is employed under modified amplification parameters.

Published

2009

85. Mini-STRs

Author

Michael D. Coble and Rebecca S. Just

Published

2009

86. Homogeneity in mitochondrial DNA control region sequences in Swedish subpopulations

Author

Andreas O. Tillmar, Thomas Wallerström, Michael D. Coble, and Gunilla Holmlund

Subjects

Genetics, mtDNA control region, Male, Sweden, Mitochondrial DNA, education.field_of_study, Haplogroup H, Haplotype, Population, Small sample, Sequence Analysis, DNA, DNA Fingerprinting, DNA, Mitochondrial, Polymerase Chain Reaction, Haplogroup, Pathology and Forensic Medicine, Geography, Genetics, Population, DNA profiling, Haplotypes, Evolutionary biology, Reference Values, Humans, education, Databases, Nucleic Acid

Abstract

In order to promote mitochondrial DNA (mtDNA) testing in Sweden we have typed 296 Swedish males, which will serve as a Swedish mtDNA frequency database. The tested males were taken from seven geographically different regions representing the contemporary Swedish population. The complete mtDNA control region was typed and the Swedish population was shown to have high haplotype diversity with a random match probability of 0.5%. Almost 47% of the tested samples belonged to haplogroup H and further haplogroup comparison with worldwide populations clustered the Swedish mtDNA data together with other European populations. AMOVA analysis of the seven Swedish subregions displayed no significant maternal substructure in Sweden (F (ST) = 0.002). Our conclusion from this study is that the typed Swedish individuals serve as good representatives for a Swedish forensic mtDNA database. Some caution should, however, be taken for individuals from the northernmost part of Sweden (provinces of Norrbotten and Lapland) due to specific demographic conditions. Furthermore, our analysis of a small sample set of a Swedish Saami population confirmed earlier findings that the Swedish Saami population is an outlier among European populations.

Published

2008

87. The Phylogeny of the Four Pan-American MtDNA Haplogroups: Implications for Evolutionary and Disease Studies

Author

Scott R. Woodward, Alessandro Achilli, Hans-Jürgen Bandelt, Claudio M. Bravi, Ugo A. Perego, Antonio Torroni, Michael D. Coble, Antonio Salas, Qing-Peng Kong, and Universidade de Santiago de Compostela. Departamento de Ciencias Forenses, Anatomía Patolóxica, Xinecoloxía e Obstetricia, e Pediatría

Subjects

Mitochondrial DNA, Science, Population, mitochondrial DNA, Biology, mtDNA, Native Americans, DNA, Mitochondrial, Haplogroup, Evolution, Molecular, Native American haplogroups, Phylogenetics, Genetics and Genomics/Population Genetics, Ciencias Naturales, Humans, education, Ciencias Exactas, American Indian or Alaska Native, Phylogeny, Genetics, education.field_of_study, Multidisciplinary, Phylogenetic tree, Haplotype, Paleogenetics, Evolutionary Biology/Human Evolution, Haplotypes, Medicine, Americas, Research Article, Human mitochondrial DNA haplogroup

Abstract

Only a limited number of complete mitochondrial genome sequences belonging to Native American haplogroups were available until recently, which left America as the continent with the least of information about sequence variation of entire mitochondrial DNAs. In this study, a comprehensive overview of all available complete mitochondrial DNA (mtDNA) genomes of the four pan-American haplogroups A2, B2, C1, and D1 is provided by revising the information scattered throughout GenBank and the literature, and adding 14 novel mtDNA sequences. The phylogenies of haplogroups A2, B2, C1, and D1 reveal a large number of sub haplogroups but suggest that the ancestral Beringian population(s) contributed only six (successful) founder haplotypes to these haplogroups. The derived are overall starlike with coalescence times ranging from 18,000 to 21,000 years (with one exception) using the conventional calibration. The average of about 19,000 years somewhat contrast with the corresponding lower age of about 13,500 years that was recently proposed by employing a different calibration and estimation approach. Our estimate indicates a human entry and spread of the pan-American haplogroups into the Americas right after the peak of the Last Glacial Maximum and comfortably agrees with the undisputed ages of the earliest Paleoindians in South America. In addition, the phylogenetic approach also indicates that the pathogenic status proposed for various mtDNA mutations, which actually define branches of Native American haplogroups, was based on insufficient grounds., Instituto Multidisciplinario de Biología Celular, Facultad de Ciencias Naturales y Museo

Published

2008

88. Characterization of 26 miniSTR loci for improved analysis of degraded DNA samples

Author

Carolyn R, Hill, Margaret C, Kline, Michael D, Coble, and John M, Butler

Subjects

Genetic Markers, Heterozygote, Genetics, Population, Genotype, Racial Groups, DNA Degradation, Necrotic, Humans, Sequence Analysis, DNA, DNA Fingerprinting, Polymerase Chain Reaction, Microsatellite Repeats

Abstract

An additional 20 novel mini-short tandem repeat (miniSTR) loci have been developed and characterized beyond the six previously developed by our laboratory for a total of 26 non-CODIS miniSTR markers. These new markers produce short PCR products in the target range of 50-150 base pairs (bp) by moving the primer sequences as close as possible-often directly next to the identified repeat region. These candidate loci were initially screened based on their small amplicon sizes and locations on chromosomes currently unoccupied by the 13 CODIS STR loci or at least 50 Mb away from them on the same chromosome. They were sequenced and evaluated across more than 600 samples, and their population statistics were determined. The heterozygosities of the new loci were compared with those of the 13 CODIS loci and all were found to be comparable. Only five of the new loci had lower values than the CODIS loci; however, all of these were much smaller in size. This data suggests that these 26 miniSTR loci will serve as useful complements to the CODIS loci to aid in the forensic analysis of degraded DNA, as well as missing persons work and parentage testing with limited next-of-kin reference samples.

Published

2007

89. Identification of West Eurasian mitochondrial haplogroups by mtDNA SNP screening: results of the 2006-2007 EDNAP collaborative exercise

Author

Anita Brandstätter, Marie Luise Sonntag, Claus Børsting, Niels Morling, Francisco Corte Real, Carsten Hohoff, Berit Myhre Dupuy, Peter M. Vallone, Walther Parson, Michael D. Coble, H. Schmitter, Mónica Carvalho, Bernd Brinkmann, Rebecca S. Just, C. Harrison, Stijn Desmyter, David Ballard, Antonio Salas, Angel Carracedo, Liane Fendt, Peter M. Schneider, and Tanja Krämer

Subjects

Genetic Markers, Mitochondrial DNA, Population, Biology, DNA, Mitochondrial, Polymorphism, Single Nucleotide, Haplogroup, White People, Pathology and Forensic Medicine, Genetics, SNP, Humans, education, Saliva, Phylogeny, education.field_of_study, Chi-Square Distribution, Haplotype, Forensic Medicine, DNA Fingerprinting, Forensic identification, Genetics, Population, DNA profiling, Haplotypes, Human mitochondrial DNA haplogroup, Hair

Abstract

The European DNA Profiling (EDNAP) Group performed a collaborative exercise on a mitochondrial (mt) DNA screening assay that targeted 16 nucleotide positions in the coding region and allowed for the discrimination of major west Eurasian mtDNA haplogroups. The purpose of the exercise was to evaluate the stability and reproducibility of the self-developed multiplex-PCR and multiplex-single base extension kit by blind-testing saliva and hair shaft samples provided by the organizing laboratory. The overall success rate in obtaining useful results was high given that some of the participating laboratories had no previous experience with the technology and/or mtDNA analysis. The results of this collaborative exercise stimulate the expansion of screening methods in forensic laboratories to increase efficiency and performance of mtDNA typing, and thus demonstrates that mtDNA SNP typing is a powerful tool for forensic casework analysis.

Published

2007

90. Development and expansion of high-quality control region databases to improve forensic mtDNA evidence interpretation

Author

Toni M. Diegoli, Jessica L. Saunier, Katharine M. Strouss, Walther Parson, Thomas J. Parsons, Kimberly A. Sturk, Jodi A. Irwin, Michael D. Coble, and Rebecca S. Just

Subjects

Forensic Genetics, Mitochondrial DNA, media_common.quotation_subject, Population, Biology, computer.software_genre, DNA, Mitochondrial, Pathology and Forensic Medicine, Genetics, Ethnicity, Humans, Quality (business), Review process, Base sequence, Instrumentation (computer programming), education, media_common, DNA Primers, education.field_of_study, Database, Base Sequence, Robotics, United States, Forensic science, Genetics, Population, Haplotypes, Electronic data, Databases, Nucleic Acid, computer

Abstract

In an effort to increase the quantity, breadth and availability of mtDNA databases suitable for forensic comparisons, we have developed a high-throughput process to generate approximately 5000 control region sequences per year from regional US populations, global populations from which the current US population is derived and global populations currently under-represented in available forensic databases. The system utilizes robotic instrumentation for all laboratory steps from pre-extraction through sequence detection, and a rigorous eight-step, multi-laboratory data review process with entirely electronic data transfer. Over the past 3 years, nearly 10,000 control region sequences have been generated using this approach. These data are being made publicly available and should further address the need for consistent, high-quality mtDNA databases for forensic testing.

Published

2007

91. Demographic History of Indigenous Populations in Mesoamerica Based on mtDNA Sequence Data

Author

Michael D. Coble, Karla Sandoval, Rodrigo Rubi-Castellanos, Antonio González-Martín, Ismael Nuño-Arana, Sergio Tirado, Amaya Gorostiza, Sergio Arroyo-Peña, Héctor Rangel-Villalobos, and Lucía Regalado-Liu

Subjects

Mesoamerica, Range (biology), Demographic history, Population, lcsh:Medicine, Population genetics, Biology, DNA, Mitochondrial, Genetic drift, Genetic variation, Ethnicity, Humans, lcsh:Science, education, Mexico, Genetics, education.field_of_study, Genetic diversity, Multidisciplinary, Ecology, lcsh:R, Genetic Variation, Bayes Theorem, Antropología biológica, Genética, Founder Effect, Mitochondria, Genetics, Population, Indians, North American, Female, lcsh:Q, Research Article

Abstract

The genetic characterization of Native American groups provides insights into their history and demographic events. We sequenced the mitochondrial D-loop region (control region) of 520 samples from eight Mexican indigenous groups. In addition to an analysis of the genetic diversity, structure and genetic relationship between 28 Native American populations, we applied Bayesian skyline methodology for a deeper insight into the history of Mesoamerica. AMOVA tests applying cultural, linguistic and geographic criteria were performed. MDS plots showed a central cluster of Oaxaca and Maya populations, whereas those from the North and West were located on the periphery. Demographic reconstruction indicates higher values of the effective number of breeding females (Nef) in Central Mesoamerica during the Preclassic period, whereas this pattern moves toward the Classic period for groups in the North and West. Conversely, Nef minimum values are distributed either in the Lithic period (i.e. founder effects) or in recent periods (i.e. population declines). The Mesomerican regions showed differences in population fluctuation as indicated by the maximum Inter-Generational Rate (IGRmax): i) Center-South from the lithic period until the Preclassic; ii) West from the beginning of the Preclassic period until early Classic; iii) North characterized by a wide range of temporal variation from the Lithic to the Preclassic. Our findings are consistent with the genetic variations observed between central, South and Southeast Mesoamerica and the North-West region that are related to differences in genetic drift, structure, and temporal survival strategies (agriculture versus hunter-gathering, respectively). Interestingly, although the European contact had a major negative demographic impact, we detect a previous decline in Mesoamerica that had begun a few hundred years before.

Published

2015

92. Mitochondrial DNA as a cancer biomarker

Author

Delphine Ally, David Sidransky, Michael D. Coble, Peter E. Barker, Sudhir Srivastava, Catherine D. O’Connell, Wendy Wang, John P. Jakupciak, Maura E. Markowitz, and Anirban Maitra

Subjects

Adult, Male, Mitochondrial DNA, Lung Neoplasms, DNA Mutational Analysis, Biology, medicine.disease_cause, Genome, DNA, Mitochondrial, Pathology and Forensic Medicine, medicine, Biomarkers, Tumor, Coding region, Humans, Sequence (medicine), Aged, Neoplasm Staging, Genetics, Aged, 80 and over, Mutation, Cancer, Middle Aged, medicine.disease, Heteroplasmy, Molecular Medicine, Female, Regular Articles

Abstract

As part of a national effort to identify biomarkers for the early detection of cancer, we developed a rapid and high-throughput sequencing protocol for the detection of sequence variants in mitochondrial DNA. Here, we describe the development and implementation of this protocol for clinical samples. Heteroplasmic and homoplasmic sequence variants occur in the mitochondrial genome in patient tumors. We identified these changes by sequencing mitochondrial DNA obtained from tumors and blood from the same individual. We confirmed previously identified primary lung tumor changes and extended these findings in a small patient cohort. Eight sequence variants were identified in stage I to stage IV tumor samples. Two of the sequence variants identified (22%) were found in the D-loop region, which accounts for 6.8% of the mitochondrial genome. The other sequence variants were distributed throughout the coding region. In the forensic community, the sequence variations used for identification are localized to the D-loop region because this region appears to have a higher rate of mutation. However, in lung tumors the majority of sequence variation occurred in the coding region. Hence, incomplete mitochondrial genome sequencing, designed to scan discrete portions of the genome, misses potentially important sequence variants associated with cancer or other diseases.

Published

2005

93. Characterization of mtDNA SNP typing and mixture ratio assessment with simultaneous real-time PCR quantification of both allelic states

Author

Petra Grubwieser, Michael D. Coble, Harald Niederstätter, Thomas J. Parsons, and Walther Parson

Subjects

Genetics, Hybridization probe, Single-nucleotide polymorphism, Biology, Molecular biology, DNA Fingerprinting, DNA, Mitochondrial, Polymerase Chain Reaction, Polymorphism, Single Nucleotide, Pathology and Forensic Medicine, Minor allele frequency, DNA profiling, Gene Frequency, TaqMan, Humans, Taq Polymerase, Typing, Allele, DNA Probes, Allele frequency

Abstract

We performed a study on the forensic utility of allele-discriminatory quantitative real-time PCR (rtPCR) using Minor Groove Binder TaqMan probes, targeting the highly variable mitochondrial single nucleotide polymorphism 16519T/C. The apparent single-cycle PCR efficiency was virtually 100% for both 16519 alleles. The allele designations made by rtPCR were concordant with the results obtained in a previous study by sequencing analysis. In heteroplasmic samples, minor allele proportions down to 9% were unambiguously detected and quantified. The variation in allele proportion estimates was essentially the same within and between different rtPCR runs, and the differences between total copy number estimates found for rerun samples were comparable to those found with non-allele-discriminatory quantitative rtPCR assays.

Published

2005

94. Additional sequence characterization of NIST SRM 2391c: PCR-Based DNA Profiling Standard

Author

Michael D. Coble, Carolyn R. Hill, Margaret C. Kline, and Peter M. Vallone

Subjects

Genetics, Sanger sequencing, STR multiplex system, Biology, eye diseases, DNA sequencing, Pathology and Forensic Medicine, law.invention, symbols.namesake, DNA profiling, STR analysis, law, symbols, Microsatellite, Typing, Polymerase chain reaction

Abstract

The NIST Standard Reference Material (SRM) 2391c: PCR-Based DNA Profiling Standard was designed for use in the standardization of forensic and paternity quality assurance procedures for fragment-based typing short tandem repeat (STR) alleles generated by the polymerase chain reaction (PCR). Certified genotypes of the 6 components A–F were assigned for 24 autosomal and 17 Y-STR markers plus Amelogenin using concordance testing between commercial kits. Selected Sanger sequencing characterization was performed for the alleles of 11 STR markers when only one PCR primer set was available for fragment-based typing. The goal is to characterize the remaining 30 STR loci in components A–C by Sanger sequencing methods for the STR repeat regions and adjacent flanking regions. Additional characterization of the SRM is intended to support the emerging interest in next-generation sequencing technologies for forensic typing applications. Sanger methods have detected underlying polymorphisms (sequence, insertion-deletion, variation in complex motifs) typically not detected by fragment-based typing. The sequenced regions include the commercial or known PCR binding sites commonly implemented in fragment-based typing.

Published

2013

95. Developmental validation of 15 X chromosomal short tandem repeat markers

Author

Adrian Linacre, Michael D. Coble, and Toni M. Diegoli

Subjects

Linkage (software), Genetics, Mutation rate, STR multiplex system, Concordance, Microsatellite, Allele, Biology, humanities, X chromosome, Pathology and Forensic Medicine, Genotype frequency

Abstract

The use of X chromosomal short tandem repeat (STR) markers has been greatly increasing in the forensic setting. Using guidelines set forth previously for the validation of autosomal and Y STRs, aspects of the feasibility of routine X chromosomal STR use were evaluated. Two mini-X chromosomal STR multiplexes capable of amplifying 15 total markers were developed and utilized to determine allele nomenclature, allele/genotype frequencies, mutation rates, and linkage between markers. Additionally, a concordance study between these multiplexes and a commercially available kit was performed. Here, the authors present an overview of this extensive developmental validation study.

Published

2013

96. A gonosomal marker multiplex to aid in mixture interpretation

Author

Michael D. Coble, Adrian Linacre, and Toni M. Diegoli

Subjects

Genetics, business.industry, Interpretation (philosophy), ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Biology, computer.software_genre, Pathology and Forensic Medicine, ComputingMethodologies_PATTERNRECOGNITION, Crime scene, Multiplex, Y-STR, Artificial intelligence, business, computer, Natural language processing

Abstract

Mixture interpretation is an important part of the forensic scientist's role in evaluating evidence from a crime scene, where mixed specimens can be common. To this end, a mixture multiplex has been created that combines markers from both the X and the Y chromosomes in an attempt to aid in the interpretation of such mixtures, providing clues as to the sex and number of contributors. By maximizing the information gained, the direction of further testing could potentially be influenced and optimized.

Published

2013

97. Comparison of the complete mtDNA genome sequences of human cell lines--HL-60 and GM10742A--from individuals with pro-myelocytic leukemia and leber hereditary optic neuropathy, respectively, and the inclusion of HL-60 in the NIST human mitochondrial DNA standard reference material--SRM 2392-I

Author

Barbara C. Levin, Thomas J. Parsons, Diane K. Hancock, Laura J. Kienker, Michael D. Coble, Diana W. Williams, Mary Pat Jones, Koren A. Holland, and Kristy L. Richie

Subjects

Genetics, Mitochondrial DNA, Mutation, Single-nucleotide polymorphism, Cell Biology, Biology, medicine.disease_cause, Human mitochondrial genetics, Genome, eye diseases, Haplogroup, Forensic identification, medicine, Molecular Medicine, Primer (molecular biology), Molecular Biology

Abstract

Forensic and clinical laboratories benefit from DNA standard reference materials (SRMs) that provide the quality control and assurance that their results from sequencing unknown samples are correct. Therefore, the mitochondrial DNA (mtDNA) genome of HL-60, a promyelocytic leukemia cell line, has been completely sequenced by four laboratories and will be available to the forensic and medical communities in the spring of 2003; it will be called National Institute of Standards and Technology (NIST) SRM 2392-I. NIST human mtDNA SRM 2392 will continue to be available and includes the DNA from two apparently healthy individuals. Both SRM 2392 and 2392-I contain all the information (e.g. the sequences of 58 unique primer sets) needed to use these SRMs as positive controls for the amplification and sequencing any DNA. Compared to the templates in SRM 2392, the HL-60 mtDNA in SRM 2392-I has two tRNA differences and more polymorphisms resulting in amino acid changes. Four of these HL-60 mtDNA polymorphisms have been associated with Leber Hereditary Optic Neuropathy (LHON), one as an intermediate mutation and three as secondary mutations. The mtDNA from a cell line (GM10742A) from an individual with LHON was also completely sequenced for comparison and contained some of the same LHON mutations. The combination of these particular LHON associated mutations is also found in phylogenetic haplogroup J and its subset, J2, and may only be indicative that HL-60 belongs to haplogroup J, one of nine haplogroups that characterize Caucasian individuals of European descent or may mean that haplogroup J is more prone to LHON. Both these mtDNA SRMs will provide enhanced quality control in forensic identification, medical diagnosis, and single nucleotide polymorphism detection.

Published

2002

98. The new Standard Reference Material® 2391c: PCR-based DNA profiling standard

Author

Michael D. Coble, Margaret C. Kline, J. N. Butler, David L. Duewer, Erica L.R. Butts, and Carolyn R. Hill

Subjects

MIXTURE COMPONENT, genomic DNA, Certified reference materials, Dry storage, Chromatography, DNA profiling, Genetics, Str typing, Multiplex, Biology, Bioinformatics, First generation, Pathology and Forensic Medicine

Abstract

Standard Reference Material ® 2391c (SRM 2391c) is the fourth generation certified reference material for PCR-based DNA profiling. The first generation SRM 2391 was released in 1995; the next two subsequent versions have had minor modifications in the type and number of loci certified but always used DNA from the same donors. SRM 2391c has been produced with an entirely new set of genomic DNA samples. In addition to four liquid samples, SRM 2391c has two dry storage matrices including FTA paper as well as 903 paper. SRM 2391c consists of six components: three are single source genomic DNA samples that are labeled A, B, and C, with the fourth genomic sample (component D) as a mixture of 3 parts of components A (female donor) to 1 part of component C (male donor). Component E consists of two 6mm punches of 903 paper that have been spotted with approximately 75,000 cells/spot. Component F consists of two 6mm punches of FTA paper that have been spotted with approximately 75,000 cells/spot of a different cell line. The six components representing five different DNA samples plus the mixture component have been analyzed using 22 commercially available STR typing kits, obtained from three different vendors, as well as the 26plex STR multiplex developed at NIST. In total there are data for 51 autosomal STRs and 17 Y-STRs included in the certificate of analysis.

Published

2011

99. Nomenclature update and allele repeat structure for the markers DYS518 and DYS449

Author

Manfred Kayser, Bruce Budowle, Jack Ballantyne, Julio J. Mulero, Michael D. Coble, Leonor Gusmão, Kaye N. Ballantyne, Lutz Roewer, and Genetic Identification

Subjects

Genetic Markers, Genetics, Chromosomes, Human, Y, Genotype, Biology, Polymerase Chain Reaction, Pathology and Forensic Medicine, Terminology as Topic, Humans, Allele, Databases, Nucleic Acid, Nomenclature, Microsatellite Repeats

Published

2014

100. Uses of the NIST 26plex STR assay for human identity testing

Author

Kristen E. Lewis, Michael D. Coble, Peter M. Vallone, Toni M. Diegoli, John M. Butler, and Carolyn R. Hill

Subjects

Genetics, Drop out, STR multiplex system, Genotype, Str loci, NIST, Multiplex, Str typing, Human identity, Biology, Pathology and Forensic Medicine

Abstract

Ongoing work at the U.S. National Institute of Standards and Technology has focused on the characterization of 26 autosomal STR loci for human identity testing. These 26 loci are in addition to the existing 13 U.S. core loci and those found in PowerPlex16 and Identifiler commercial STR typing kits. The amplification of the 26 loci has been optimized for degraded extracts in unique miniplex panels and also for reference samples as a single reaction 26plex assay. A study has been performed comparing genotypes obtained with the 26plex primers to those with miniplex panels for allele drop out and concordance. The forensic utility of the 26plex assay was evaluated for situations where additional loci are beneficial. The utility of this large multiplex was also tested in a case involving DNA extracted from degraded bone samples. The 26plex can serve as a low-cost assay (compared to commercially available kits) useful for both sorting comingled remains and providing additional markers for increased statistical support for samples that require "non-trio" family references for human identification.

Published

2009