Global ETD Search

11	Análise de marcadores forenses (STRs e SNPs) rotineiramente empregados na identificação humana utilizando sequenciamento de nova geração / Analysis of forensic markers (STRs and SNPs) routinely used in human identification assays by means of next generation sequencing Silva, Guilherme do Valle 05 October 2018 (has links) A genética forense vem se desenvolvendo cada vez mais, com novas tecnologias e implementação de novos conjuntos de marcadores de DNA com maiores níveis de informatividade. Os marcadores genéticos são amplamente usados na identificação humana, pois permitem distinguir indivíduos com alta acurácia. Duas classes de marcadores muito utilizadas atualmente são os STRs (Short Tandem Repeats) e os SNPs (Single Nucleotide Polymorphisms). Os STRs são altamente informativos e, portanto, úteis para a prática forense. Kits mais novos como GlobalFiler (Thermo Fisher Scientific) e PowerPlex Fusion System (Promega) apresentam a análise de mais de 20 loci STRs de uma só vez. Já os SNPs, por possuírem sua informatividade mais reduzida (necessita de mais loci analisados), são menos utilizados, porém apresentam vantagem em amostras degradadas de DNA; assim, conjuntos de identificação como o 52-plex desenvolvido pelo consórcio SNPforID e o conjunto IISNPs, vêm sendo estudados em várias populações do mundo. Com o desenvolvimento de técnicas de sequenciamento de nova geração (NGS Next Generation Sequencing) para análise de DNA, a obtenção de perfis de DNA se tornou mais acurada. Algumas plataformas permitem gerar perfis de até 96 indivíduos simultaneamente. Este estudo tem por objetivo principal analisar 171 marcadores genéticos (Amelogenina, Y-INDEL, 30 STRSs e 139 SNPs) em 340 indivíduos miscigenados da região da cidade de Ribeirão Preto (SP) utilizando a plataforma de sequenciamento de nova geração MiSeq Personal Sequencer (Illumina Inc.), bem como calcular as frequências alélicas e genotípicas, verificar a aderência ao equilíbrio de HardyWeinberg e estimar parâmetros forenses para os diferentes conjuntos de marcadores. Análises de ancestralidade foram realizadas para os conjuntos de SNPs. Para o preparo das bibliotecas de amostras a serem sequenciadas, foi utilizado o kit HaloPlex (Agilent Technologies, Inc), onde foram incluídos os marcadores dos kits GlobalFiler e PowerPlex Fusion System, e os SNPs existentes no conjunto do consórcio SNPforID (52-plex) e IISNPs (92 SNPs). De todos os marcadores incluídos no ensaio, apenas um SNP (rs763869) presente no conjunto SNPforID não pôde ser analisado devido a questões técnicas. Dos 139 SNPs analisados apenas seis apresentaram desvios significativos em relação ao equilíbrio de Hardy-Weinberg,número este esperado devido ao acaso. Os conjuntos de SNPs apresentam elevada informatividade com Probabilidade de Match de 6,48 x 10-21 (52-plex) a 4,91 x 10-38 (IISNP), e Poder de Exclusão de 0,9997 (52-plex) e 0,99999997 (IISNP). De modo geral, as inferências de ancestralidade obtida utilizando estes conjuntos, indicaram elevada contribuição europeia (superior a 70%) e baixa contribuição ameríndia (inferior a 10%) na população, enquanto que as análises de mistura individual se mostraram consistentes, com a maioria dos indivíduos apresentando elevada ancestralidade europeia. Os resultados dos marcadores relativos ao sexo (Amelogenina, Y-INDEL e DYS391) foram consistentes com o sexo dos doadores das amostras. As frequências alélicas e parâmetros forenses foram calculados para os STRs, revelando uma alta informatividade. A Probabilidade de Match combinada e o Poder de Exclusão combinado foram de 1,19 x 10-36 e 0,999999999997 respectivamente. Dos 29 STRs autossômicos presentes, seis apresentaram desvios ao equilíbrio de Hardy-Weinberg, refletindo possíveis falhas no sequenciamento e genotipagem destes marcadores / The field of forensic genetics has developed increasingly with the implementation of new sets of DNA markers with higher levels of informativeness. The genetic markers are widely used in human identification as they allow distinguishing individuals with high accuracy. Two of the most commonly used markers are the Short Tandem Repeats (STRs) and the Single Nucleotide Polymorphisms (SNPs). Newer kits such as GlobalFiler (Thermo Fisher Scientific) and PowerPlex Fusion System (Promega) can analyze more than 20 STRs loci at once. When comparing with STRs, the SNPs are less informative and many more loci are needed to reach the same informativeness of STR kits. However, they are advantageous when using degraded DNA samples. The identification sets such as the 52-plex developed by the SNPforID Consortium and the IISNPs have been analyzed in many worldwide populations. With the development of next generation sequencing techniques (NGS Next Generation Sequencing), obtaining DNA profiles has become more accurate and some platforms allow generating profiles of up to 96 individuals simultaneously. The main goal of this study is to analyze 171 markers (Amelogenin, Y-INDEL, 30 STRs and 139 SNPs) in 340 admixed individuals from Ribeirão Preto, SP, using the NGS platform MiSeq Personal Sequencer (Illumina Inc.). This will allow the calculation of allele and genotype frequencies, the verification of adherence to Hardy-Weinbergs equilibrium and the estimation of forensic parameters for each set of marker. Ancestry analysis was performed for the sets of SNPs. The HaloPlex kit (Agilent Technologies, Inc) was used for library preparation including the STRs from the kits GlobalFiler and PowerPlex Fusion System and the SNPs from the SNPforID consortium (52-plex) and IISNPs (92 SNPs) identification sets. A single SNP (rs763869) from the SNPforID set was not analyzed due to technical issues. Only six of the 139 analyzed SNPs presented significant deviation from the Hardy-Weinberg equilibrium expectations, which is expected by chance alone. The SNPs sets exhibited high informativeness, with matchprobability ranging from 6.48 x 10-21 (52-plex) to 4.91 x 10-38 (IISNPs) and exclusion power of 0.9997 (52-plex) and 0.99999997 (IISNPs). In general, ancestry estimates obtained using these sets indicated a high European contribution (higher than 70%) and low Amerindian contribution (less than 10%) in the population sample, while the individual admixture analyses exhibited were highly consistent, with the majority of individuals presenting high European ancestry. The results of the sex markers (Amelogenin, Y-INDEL and DYS391) were in agreement with the reported sexes from sample donors. The allele frequencies and forensic parameters calculated for the STRs revealed high informativeness. The combined match probability and the combined exclusion power were 1.19 x 10-36 and 0.999999999997 respectively. Six of the 29 autosomal STRs presented significant deviations from the HardyWeinberg equilibrium expectations, reflecting possible failures in sequencing and genotyping of these markers Ancestralidade Ancestry Forensic genetics Genética forense Next generation sequencing Sequenciamento de nova geração Short Tandem Repeats Short Tandem Repeats Single Nucleotide Polymorphisms Single Nucleotide Polymorphisms
12	Análise de marcadores forenses (STRs e SNPs) rotineiramente empregados na identificação humana utilizando sequenciamento de nova geração / Analysis of forensic markers (STRs and SNPs) routinely used in human identification assays by means of next generation sequencing Guilherme do Valle Silva 05 October 2018 (has links) A genética forense vem se desenvolvendo cada vez mais, com novas tecnologias e implementação de novos conjuntos de marcadores de DNA com maiores níveis de informatividade. Os marcadores genéticos são amplamente usados na identificação humana, pois permitem distinguir indivíduos com alta acurácia. Duas classes de marcadores muito utilizadas atualmente são os STRs (Short Tandem Repeats) e os SNPs (Single Nucleotide Polymorphisms). Os STRs são altamente informativos e, portanto, úteis para a prática forense. Kits mais novos como GlobalFiler (Thermo Fisher Scientific) e PowerPlex Fusion System (Promega) apresentam a análise de mais de 20 loci STRs de uma só vez. Já os SNPs, por possuírem sua informatividade mais reduzida (necessita de mais loci analisados), são menos utilizados, porém apresentam vantagem em amostras degradadas de DNA; assim, conjuntos de identificação como o 52-plex desenvolvido pelo consórcio SNPforID e o conjunto IISNPs, vêm sendo estudados em várias populações do mundo. Com o desenvolvimento de técnicas de sequenciamento de nova geração (NGS Next Generation Sequencing) para análise de DNA, a obtenção de perfis de DNA se tornou mais acurada. Algumas plataformas permitem gerar perfis de até 96 indivíduos simultaneamente. Este estudo tem por objetivo principal analisar 171 marcadores genéticos (Amelogenina, Y-INDEL, 30 STRSs e 139 SNPs) em 340 indivíduos miscigenados da região da cidade de Ribeirão Preto (SP) utilizando a plataforma de sequenciamento de nova geração MiSeq Personal Sequencer (Illumina Inc.), bem como calcular as frequências alélicas e genotípicas, verificar a aderência ao equilíbrio de HardyWeinberg e estimar parâmetros forenses para os diferentes conjuntos de marcadores. Análises de ancestralidade foram realizadas para os conjuntos de SNPs. Para o preparo das bibliotecas de amostras a serem sequenciadas, foi utilizado o kit HaloPlex (Agilent Technologies, Inc), onde foram incluídos os marcadores dos kits GlobalFiler e PowerPlex Fusion System, e os SNPs existentes no conjunto do consórcio SNPforID (52-plex) e IISNPs (92 SNPs). De todos os marcadores incluídos no ensaio, apenas um SNP (rs763869) presente no conjunto SNPforID não pôde ser analisado devido a questões técnicas. Dos 139 SNPs analisados apenas seis apresentaram desvios significativos em relação ao equilíbrio de Hardy-Weinberg,número este esperado devido ao acaso. Os conjuntos de SNPs apresentam elevada informatividade com Probabilidade de Match de 6,48 x 10-21 (52-plex) a 4,91 x 10-38 (IISNP), e Poder de Exclusão de 0,9997 (52-plex) e 0,99999997 (IISNP). De modo geral, as inferências de ancestralidade obtida utilizando estes conjuntos, indicaram elevada contribuição europeia (superior a 70%) e baixa contribuição ameríndia (inferior a 10%) na população, enquanto que as análises de mistura individual se mostraram consistentes, com a maioria dos indivíduos apresentando elevada ancestralidade europeia. Os resultados dos marcadores relativos ao sexo (Amelogenina, Y-INDEL e DYS391) foram consistentes com o sexo dos doadores das amostras. As frequências alélicas e parâmetros forenses foram calculados para os STRs, revelando uma alta informatividade. A Probabilidade de Match combinada e o Poder de Exclusão combinado foram de 1,19 x 10-36 e 0,999999999997 respectivamente. Dos 29 STRs autossômicos presentes, seis apresentaram desvios ao equilíbrio de Hardy-Weinberg, refletindo possíveis falhas no sequenciamento e genotipagem destes marcadores / The field of forensic genetics has developed increasingly with the implementation of new sets of DNA markers with higher levels of informativeness. The genetic markers are widely used in human identification as they allow distinguishing individuals with high accuracy. Two of the most commonly used markers are the Short Tandem Repeats (STRs) and the Single Nucleotide Polymorphisms (SNPs). Newer kits such as GlobalFiler (Thermo Fisher Scientific) and PowerPlex Fusion System (Promega) can analyze more than 20 STRs loci at once. When comparing with STRs, the SNPs are less informative and many more loci are needed to reach the same informativeness of STR kits. However, they are advantageous when using degraded DNA samples. The identification sets such as the 52-plex developed by the SNPforID Consortium and the IISNPs have been analyzed in many worldwide populations. With the development of next generation sequencing techniques (NGS Next Generation Sequencing), obtaining DNA profiles has become more accurate and some platforms allow generating profiles of up to 96 individuals simultaneously. The main goal of this study is to analyze 171 markers (Amelogenin, Y-INDEL, 30 STRs and 139 SNPs) in 340 admixed individuals from Ribeirão Preto, SP, using the NGS platform MiSeq Personal Sequencer (Illumina Inc.). This will allow the calculation of allele and genotype frequencies, the verification of adherence to Hardy-Weinbergs equilibrium and the estimation of forensic parameters for each set of marker. Ancestry analysis was performed for the sets of SNPs. The HaloPlex kit (Agilent Technologies, Inc) was used for library preparation including the STRs from the kits GlobalFiler and PowerPlex Fusion System and the SNPs from the SNPforID consortium (52-plex) and IISNPs (92 SNPs) identification sets. A single SNP (rs763869) from the SNPforID set was not analyzed due to technical issues. Only six of the 139 analyzed SNPs presented significant deviation from the Hardy-Weinberg equilibrium expectations, which is expected by chance alone. The SNPs sets exhibited high informativeness, with matchprobability ranging from 6.48 x 10-21 (52-plex) to 4.91 x 10-38 (IISNPs) and exclusion power of 0.9997 (52-plex) and 0.99999997 (IISNPs). In general, ancestry estimates obtained using these sets indicated a high European contribution (higher than 70%) and low Amerindian contribution (less than 10%) in the population sample, while the individual admixture analyses exhibited were highly consistent, with the majority of individuals presenting high European ancestry. The results of the sex markers (Amelogenin, Y-INDEL and DYS391) were in agreement with the reported sexes from sample donors. The allele frequencies and forensic parameters calculated for the STRs revealed high informativeness. The combined match probability and the combined exclusion power were 1.19 x 10-36 and 0.999999999997 respectively. Six of the 29 autosomal STRs presented significant deviations from the HardyWeinberg equilibrium expectations, reflecting possible failures in sequencing and genotyping of these markers Ancestralidade Genética forense Sequenciamento de nova geração Short Tandem Repeats Single Nucleotide Polymorphisms Ancestry Forensic genetics Next generation sequencing Short Tandem Repeats Single Nucleotide Polymorphisms
13	Distribution and evolution of short sequence tandem repeats in eukariotic genomes Ledda, Alice 06 May 2011 (has links) Els microsat el lits s on seq u encies d'ADN formades per repeticions en t andem de motius curts. Les curtes seq u encies repetides en t andem s on ubiq ues en els genomes dels eucariotes, tant en les regions codi cants com en les regions no codi cants. Aquestes seq u encies tenen un nivell molt elevat de polimor sme i de diverg encia interespec ca. Hem investigat si les dades obtingudes mitjan cant la seq uenciaci o de nova generaci o del Projecte Pilot dels 1000 Genomes s on utils per quanti car la variabilitat dels microsat el lits en les poblacions humanes i per descobrir nous loci hipot eticament implicats en malalties causades per l'expansi o de repeticions de trinucle otids. Hem analitzat la conservaci o ologen etica dels microsat el lits per entendre el rol que juga la selecci o en l'evoluci o dels microsat el lits. El primer estudi conclou que en els llinatges dels vertebrats, les repeticions en t andem d'amino acids estan m es conservades que altres seq u encies similars localitzades a les regions no codi cants. Aix o ens porta a concloure que l'evoluci o ha mantingut les repeticions a les regions codi cants de les prote nes. En una segona fase hem analitzat la conservaci o dels microsat el lits en diferents regions gen omiques, comparant-les amb la conservaci o dels microsat el lits a les regions interg eniques. Concloem que la selecci o no mant e nom es els microsat el lits als exons, sin o que tamb e a altres regions gen omiques. / Microsatellites are DNA sequences formed by tandem repetition of short motifs. Short sequence tandem repeats are ubiquitous in eukaryotic genomes both in coding and non-coding regions. They show a very high level of polymophism and interspeci c divergence. We investigated the use of next generation sequencing data, from the 1000 Genomes Pilot Prjects, to quantify microsatellite variability in the human population and discover putative new loci involved in trinucleotide repeat expansion diseases. We analysed microsatellites phylogenetic conservation to learn about the role of selection in shaping microsatellite evolution. The rst study con- cluded that in vertebrate lineages amino acid tandem repeats were more conserved than similar sequences located in non-coding regions. This lead us to the conclusion that evolution was preserving repeats in protein-coding regions. In a second stage we analzed the conservation of microsatellites in di erent genomic regions, comparing them with the of microsatellite in inter- genic region. We concluded that selection was not preserving microsatellites only in exons but also in other genomic regions. 1 Microsatellites Amino acid tandem repeats Short sequence tandem repeats Phylogenetic Conservation Non-coding regions Selecció natural Conservació fiologenètica Microsatèl.lits Repeticions en tàndem d'aminoàcids Seqüenciació de nova generació 57
14	A genetic investigation into a Lebanese population: from STR’s to SNP’s Ghemrawi, Mirna 26 June 2018 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / In the past, the present and the future, Lebanon has been an important link between the East and the West. It was always known as the ‘Switzerland of the East’. Over the years, it was a hotspot for different civilizations that uniquely shaped the genomic backbone of the current Lebanese. It is also a good representation of genetically admixed individuals with diverse phenotype characteristics and unique features. Lebanon, quite like other Middle Eastern populations, lacks sufficient genetic studies that helps to better comprehend the complex genomic composition of different traits and diseases. The lack of good representation of the Middle East and North Africa (MENA) region in global studies has led to ambiguity in discovering special ancestry markers and patterns in the Lebanese genome. Yet, in this study, a thorough investigation into a Lebanese collection shows new patterns that potentially would be helpful in forensic and genealogical applications. The investigation into the autosomal and Y-STRs revealed unique alleles that would be valuable in future forensic investigation analysis. In addition, the assessment of phenotype prediction models to predict eye, hair and skin color showed promising results in terms of prediction performance. Those results encourage the future use of intelligence tools in the regions that in return would aid in serving justice and furthering science research. In fact, ancestry and genetic distance studies confirms the presence of admixture within Lebanon between Europe and North Africa. / 2029-06-01 Lebanon Forensic DNA Phenotyping Ancestry Autosomal Short Tandem Repeats Y-Chromosome Short Tandem Repeats Single Nucleotide Polymorphism Skin Color Eye Color Hair Color
15	Analyse systématique des motifs répétés en tandem dans les séquences protéiques. / Systematic analysis of tandem repeats in protein sequences. Jorda, Julien 15 October 2010 (has links) Au cours des dernières décennies, les avancées techniques dans la biologie moléculaire telles que les projets de séquençage de génome ont eu pour conséquence un accroissement du volume des banques de données biologiques. Parmi ces données, des séquences présentent des motifs similaires entre eux, répétés de façon juxtaposée, appelés répétitions en tandem. L'objectif de cette thèse est de comprendre l'existence de ces répétitions dans les séquences protéiques via une analyse à grande échelle. / Over the last decades, technical advances in molecular biology such as the genome sequencing projects led to a huge increase of data in the biological databanks. Among them, there are particular motifs which are adjacently repeated and similar between them, called tandem repeats. The purpose of this thesis is to understand the existence of these repeats in protein sequences through a large-scale analysis. Répétitions en tandem Protéines Analyse de séquence Bioinformatique Instructuralité Tandem repeats Protein Sequence analysis Bioinformatics Disorder
16	Etude du polymorphisme associé aux répétitions en tandem pour le typage de bactéries pathogènes : Pseudomonas aeruginosa et Staphylococcus aureus Onteniente, Lucie 13 February 2004 (has links) (PDF) Les répétitions en tandem sont constituées de successions de motifs d'ADN. Ces structures présentes dans tous les organismes, procaryotes comme eucaryotes, ont des applications dans de nombreux domaines. Depuis quelques années seulement, les répétitions en tandem sont étudiées chez les bactéries. Le polymorphisme associé à ces séquences peut être utilisé pour le génotypage de bactéries pathogènes, permettant une identification précise au niveau de la souche. Le polymorphisme des séquences répétées est de deux types : polymorphisme de longueur et mutations internes aux motifs. Les génomes des deux bactéries pathogènes responsables d'infections nosocomiales, Staphylococcus aureus et Pseudomonas aeruginosa, ont été étudiés dans le but d'identifier des séquences répétées polymorphes. Un ensemble de marqueurs polymorphes a été validé expérimentalement pour ces deux espèces permettant un typage dit MLVA (pour « Multiple Locus VNTR Analysis »). Le travail plus classique de typage par la taille de la répétition a été complété par un travail de séquençage de certains allèles. Les résultats obtenus montrent comment le typage « MLVA » complété si nécessaire par le séquençage d'allèles, pourraient constituer de nouvelles méthodes peu coûteuses participant au contrôle des infections bactériennes. [SDV] Life Sciences MLVA genotyping tandem repeats Staphylococcus aureus Pseudomonas aeruginosa épidémiologie moléculaire bactéries pathogènes génomique
17	An efficient algorithm for an optimal modular compression. Application to the analysis of genetic sequences. /Un algorithme rapide pour une compression modulaire optimale. Application à l'analyse de séquences génétiques. Delgrange, Olivier 05 June 1997 (has links) Abstract : A lossless compression algorithm often applies the same coding scheme on the whole sequence to be compressed. Therefore, some factors of the sequence are shortened while others are lengthened. In this work, we propose an optimization algorithm of compression methods which breaks off the coding where it is not profitable, so that some segments of the initial sequence are copied as they are instead of being coded. The achieved compression is said modular, meaning that the compressed sequence is a sequel of compressed segments and copied segments. Under specific hypotheses, our algorithm computes an optimal modular compression in time O(n log n) where n is the length of the sequence. We show that our optimization method can be advantageously used to analyze data, and particularly genetic sequences. The Kolmogorov complexity theory brings to light the usefulness of compression when analyzing sequences. The work consists of three parts. The first one introduces the classical concepts of compression and coding, as well as the new concept of ICL codes for the integers. The second one presents the compression optimization algorithm by liftings that uses ICL codes. Finally, the third part presents applications of the compression optimization by liftings, especially in the context of genetic sequence analysis. With the specific problem of the localization of approximate tandem repeats, we show how the compression optimization algorithm by liftings can be used to localize regular segments and irregular segments of a sequence in a precise and optimal way. This comeback to experimentation makes it possible to analyze sequences that contain several thousands of symbols within the space of a few seconds. /Résumé : Une méthode de compression sans perte d'informations applique souvent le même schéma de codage d'un bout à l'autre de la séquence à comprimer. Certains facteurs de la séquence sont ainsi raccourcis mais malheureusement d'autres sont rallongés. Dans ce travail, nous proposons un algorithme d'optimisation de compression qui rompt le codage là ou il n'est pas intéressant en recopiant des morceaux de la séquence initiale. La compression obtenue est dite modulaire : la séquence comprimée est une succession de morceaux comprimés et de morceaux recopiés tels quels. Sous certaines hypothèses, notre algorithme fournit une compression modulaire optimale en temps O(n log n) où n est la longueur de la séquence. Nous montrons que notre méthode de compression peut avantageusement être utilisée pour analyser des données et plus particulièrement des séquences génétiques. La théorie de la complexité de Kolmogorov éclaire l'idée d'analyse de séquences par compression. Le travail comporte trois parties. La première introduit les concepts classiques de compression et de codage, ainsi que le concept nouveau de codage ICL d'entiers. La seconde développe l'algorithme d'optimisation de compression par liftings qui utilise les codes ICL. La dernière partie présente des applications de l'optimisation de compression par liftings, plus particulièrement dans le domaine de l'analyse de séquences génétiques. Nous montrons, à l'aide du problème spécifique de localisation de répétitions en tandem approximatives, comment l'algorithme d'optimisation par liftings peut être utilisé pour localiser précisément et de manière optimale les segments réguliers et les segments non réguliers des séquences. Il s'agit d'un retour à l'expérience qui permet l'analyse de séquences de plusieurs centaines de milliers de bases en quelques secondes. algorithmique bioinformatique string-matching algorithms répétitions en tandem/ bioinformatics compression analyse de séquences tandem repeats
18	Estudo de frequências alélicas de 15 STRs autossômicos na população paraibana Castro, Sarah Gurgel de 26 February 2014 (has links) Made available in DSpace on 2015-04-01T14:16:04Z (GMT). No. of bitstreams: 1 arquivototal.pdf: 1809210 bytes, checksum: e118d10e8ea156df56a7871608a59d7b (MD5) Previous issue date: 2014-02-26 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Human identification is based on analyzing DNA through present throughout the genome molecular markers. These markers are transmitted from parents to offspring by heredity. STR markers are currently the most commonly used genetic markers in Forensic Genetics due to their high polymorphism, high reproducibility, possibility of being amplified by PCR in multiple copies in a single reaction, and minute quantities of DNA (1ng). The DNA test that allows individualization of the people is essential tool to the solution of forensic human identification cases, sex crimes, crime scenes (including or excluding suspects), mass disasters, and its result is presented in statistical calculations that consider allele frequency of markers used. So it is important to know the allele frequencies presented in the regional population so that the results are the most reliable possible. In this study , 15 autossomal markers (loci) STR or microsatellite (CSF1PO, D13S317, D16S539, D18S51, D19S433, D21S11, D2S1338, D3S1358, D5S818, D7S820, D8S1179, FGA, TH01, and VWA TPOX) were studied in 766 unrelated individuals paraibanos, demonstrating a tri population - hybrid formed Africans (25.86 %), Amerindian (6.81 %) and Europeans (67.33 %). The most informative were D21S11 and FGA, and were less informative TPOX, D7S820 and D13S317. The results are important for a database with allele frequencies found in Paraiba population can serve as a useful basis for calculating forensic practice in the State of Paraíba. / A identificação humana está baseada na análise do DNA através de marcadores moleculares presente em todo o genoma. Estes marcadores são transmitidos de pais para filhos por hereditariedade. Atualmente os marcadores STR são os marcadores genéticos mais utilizados em Genética Forense devido ao seu elevado polimorfismo, alta reprodutibilidade, possibilidade de serem amplificados por PCR em inúmeras cópias numa só reação e em mínimas quantidades de DNA (1ng). O exame de DNA que permite a individualização das pessoas é ferramenta indispensável à solução de casos forenses de identificação humana, crimes sexuais, locais de crime (incluindo ou excluindo suspeitos), desastres em massa, e tem seu resultado apresentado em cálculos estatísticos que consideram a frequência alélica dos marcadores usados. Por isso é importante o conhecimento das frequências alélicas apresentadas na população regional de forma que os resultados sejam os mais fidedignos possíveis. Neste trabalho, 15 marcadores autossômicos (loci) STR ou microssatélites (CSF1PO, D13S317, D16S539, D18S51, D19S433, D21S11, D2S1338, D3S1358, D5S818, D7S820, D8S1179, FGA, TH01, TPOX e vWA) foram estudados em 766 indivíduos paraibanos não aparentados, demonstrando uma população tri - hibrida, formada de africanos (25,86%), ameríndios (6,81%) e europeus (67,33%). Os mais informativos foram D21S11 e FGA, e os menos informativos foram TPOX, D7S820 e D13S317. Os resultados são importantes para que um banco de dados com as frequências alélicas encontradas na população paraibana possa servir de base de cálculo útil para prática forense no Estado da Paraíba. Frequência Alélica Desoxiribonucleic Acid - DNA Short Tandem Repeats - STR Allele frequency CIENCIAS BIOLOGICAS::BIOLOGIA GERAL
19	Y-STR profiling of four South African populations using the University of the Western Cape 10 locus set Tsiana, Kebareng Jacobeth January 2015 (has links) >Magister Scientiae - MSc / In this study the 10 Y-specific loci of the University of the Western Cape (DYS710, DYS518 385a/b, DYS644, DYS612, DYS626, DYS504, DYS447, DYS447, and DYS481) were analysed in 492 individuals from South African population groups. Four different populations namely; Zulu, Coloured, Afrikaner and Asian Indian were sampled. A total of 488 haplotypes were observed, 412 of which were unique. Haplotype diversity was 0.9981. Gene Diversity values ranged from 0.8075 for DYS447 to 0.9209 for DYS710. The discriminatory capacity was 0.9106 which is high. The study showed that the University of the Western Cape 10 locus is a powerful discrimination tool for routine forensic applications and could be used in genealogical investigations as compared to other commercial kits when used on the South African populations (Zulu, Coloured, Afrikaner and Asian Indian) considering its high discriminatory capacity. This data will be used for the establishment of a Y-STR DNA databases for South African population which would aid law enforcement authorities in the investigation and resolution of crimes AMOVA computed using haplotype frequencies showed that when male haplotypes from the four different populations were compared, 0.22 % of the total genetic variation was due to the variability among populations and 99.78 % of the total variation is found within populations. However AMOVA computed using distance matrix showed that 5.97 % of the total variation was due to variability among populations and 94.07 % of the total variation is found within populations. Genetic substructure was found among the four studied South African population groups. All the six population pairwise comparisons using AMOVA were significant .Therefore Y-STRs are very useful in comparing closely related populations. It should be noted that their utility for evolutionary purposes, they need to be combined more stable Y-DNA markers such as single nucleotide polymorphisms (SNPs). Factorial Correspondence Analysis (FCA) showed that the Coloured population has large genetic contribution from Afrikaner population and lesser contribution from the Zulu and Asian Indian population groups. / National Research Foundation (NFR) Genotyping Electrophoresis Population South Africa
20	A dual analysis of the South African Griqua population using ancestry informative mitochondrial DNA and discriminatory short tandem repeats on the Y chromosome Heynes, Kirstie January 2015 (has links) >Magister Scientiae - MSc / The primary objective of this Masters project was to investigate the maternal ancient substructure of the Griqua population in South Africa. Genetic ancestry was determined by investigating ancestry informative single nucleotide polymorphisms. These are located in the control region of the mitochondrial genome. The auxiliary aim was to test the validity of the UWC 10plex system in relation to a sample group of Griqua males. This short tandem repeat multiplex targets specific mutations confined to paternal lineages. The Khoi Khoi or Hottentots were the first inhabitants in the Cape. Indigenous Khoi Khoi female slaves had offspring with the European settlers in the 1800s which resulted in the Griqua population group. The incorporated European paternal ancestry is what set the Griqua apart from the native population groups at that time. Colonisation events from the mid-17th to 19th Century and the apartheid regime resulted in land dispossession of the native population and an extensively mixed gene pool in South Africa. One hundred and seventy six (N=176) male and female Griqua people were collectively sampled in Kokstad (2012), Vredendal (2012 and 2013) and at the Griqua National Conference in Ratelgat (2013). All 176 samples were analysed using mtDNA control region Sanger sequencing. The sample group (N=176) was separated based on birthplace (Origin sample group and post-colonial sample group). The origin sample group consists of individuals whose ancestors were not part of the Griqua Trek to Northern regions of South Africa and were less likely to be exposed to colonial influences. Mutations within the hypervariable segments of the mtDNA control region were used to infer haplogroups with geographic-specific population data. In this way one can plot the extent of ancient Khoisan (L0d) and Bantu influences (L1-L5) as well as the influence of East (M, A, B, E) and West (N, R, J, H) Eurasian haplogroups in the maternal ancestry of the Griqua population group. The origin sample group showed 91% African ancestry (76.8% L0d) while the post-colonial group had 78% African ancestry (60% L0d). The origin sample group had 2% East Eurasian and 7% West Eurasian ancestry, while the post-colonial group contained 20% Eurasian ancestry. There is greater admixture in the post-colonial group which can be attributed to the integration of surrounding populations during settlement periods in parts of the Northern Cape and KwaZulu-Natal. The UWC 10plex STR kit was tested to see if it could discriminate between male individuals of this admixed sample group (N=91 males). The markers for this multiplex were selected according to their ability to differentiate between individuals of African descent. It proved to be a viable Y chromosome short tandem repeat testing tool, displaying a statistically significant discrimination capacity value of 0.966 and only having 3 shared haplotypes in the sample group of 91 Griqua males. / National Research Foundation (NRF) Griqua population Single Nucleotide Polymorphisms Mitochondrial DNA control region

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