Characterization of Polymorphic Microsatellites in Strawberry and Their Transferability to Other Genera in the Rosaceae Family

Arora, Vishal

10 March 2006

We investigated the transferability of 20 Fragaria vesca microsatellite primer pairs to 13 Fragaria vesca accessions, six Fragaria species and ten commercially important species in Rosaceae. Genetic diversity studies were carried among 16 diploid Fragaria accessions using these polymorphic microsatellites. The average number of alleles amplified for a polymorphic locus was 4.7 with maximum being 8.0 and minimum being 3.0. Observed heterozygosity ranged from 0.00 to 0.84 with an average of 0.28. Expected heterozygosity ranged from 0.33 to 0.91 with an average of 0.76. Power of discrimination varied from 0.43 to 0.92 with an average of 0.78. Transferability of microsatellites to F. orientalis (4x) and F. Ã ananassa (8x) was high, i.e., 18 (90%) primers produced amplicons. Cross species amplification within Rosaceae using these primers showed limited transference. Four microsatellites showed amplification for different species in Rosaceae. Products generated by UDF-003 and UDF-018 primers were sequenced. Sequencing results for UDF-018 showed that three species, i.e., Pyrus calleryana, Prunus persica and Rubus idaeus contained the expected microsatellite whereas another four, i.e., Cotoneaster salicifolius, Rosa rugosa, Amelanchier arborea and Potentilla fruticosa had conserved regions resulting in generation of amplicons. For UDF 003, Spirea xbumalda and Prunus persica did not contain a microsatellite although there was some sequence similarity with Fragaria. Size homoplasy, i.e., alleles of identical size with different numbers of repeats within the SSR was observed among Fragaria and Rosaceae species for primer UDF-018, suggesting a need for caution when interpreting SSR variation from band migration in the absence of DNA sequences. / Master of Science

sequencing

heterozygosity

Fragaria vesca

simple sequence repeats

genetic distance

NMR investigations of strand slippage in CTG repeat expansion and primer-template misalignment in low fidelity DNA replication. / CUHK electronic theses & dissertations collection

January 2007

CTG repeat is one of the most common triplet repeat sequences that have been found to form slipped-strand structures leading to self-expansion during DNA replication. The lengthening of these repeats causes the onset of neurodegenerative diseases such as myotonic dystrophy. Through designing a series of CTG repeat sequences with high hairpin populations, systematic analysis of imino and methyl proton spectra study has been carried out to investigate the length and structural roles of CTG repeats in affecting the propensity of hairpin formation. Direct NMR evidence has been obtained to support three types of hairpin structures in sequences containing one to ten CTG repeats. The differences in loop structures and extent of interactions observed in the hairpins account for the differences in hairpin formation propensity and explain how slippage occurs that lead to triplet repeat expansion. / DNA has been found to adopt unusual structures leading to different types of mutations, which can ultimately cause genetic diseases and cancers. In this thesis, investigations on (i) structural role of CTG repeats in trinucleotide repeat expansion, (ii) primer-template structures in strand slippage during low fidelity replication and (iii) sequence effect of nucleotide downstream of thymine templates on primer-template structures have been carried out using NMR spectroscopy. / In addition, NMR structural investigations have also been carried out to determine solution structures of primer-template models. NMR evidence confirms misalignment can occur in primer-templates upon misincorporation of dNTP opposite a template sequence, leading to bulge formation in the primer-template. Depending on the template sequence, further incorporation of dNTP can bring about either realignment or further stabilization of the primer-template structure. Consequently, either mismatch or deletion errors will occur, leading to base substitution or frameshift mutation. These results imply that DNA sequences do not only play a passive role to store genetic information in the replication process, they also play an active structural role in governing the types of mutation during low-fidelity DNA replication. / Some of the results in this thesis have been reported in the following peer-reviewed journals: (1) Chi, L. M. and Lam, S. L. (2005) Structural roles of CTG repeats in slippage expansion during DNA replication. Nucleic Acids Res, 33, 1604-1617. (2) Chi, L. M. and Lam, S. L. (2006) NMR investigation of DNA primer-template models: structural insights into dislocation mutagenesis in DNA replication. FEBS Lett. , 580, 6496-6500. (3) Chi, L. M. and Lam, S. L. (2007) NMR investigation of primer-template models: structural effect of sequence downstream of a thymine template on mutagenesis in DNA replication. Biochemistry, 46, 9292-9300. / Chi, Lai Man. / "August 2007." / Adviser: Lam Sik Lok. / Source: Dissertation Abstracts International, Volume: 69-02, Section: B, page: 0877. / Thesis (Ph.D.)--Chinese University of Hong Kong, 2007. / Includes bibliographical references (p. 102-112). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Electronic reproduction. [Ann Arbor, MI] : ProQuest Information and Learning, [200-] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Abstract in English and Chinese. / School code: 1307.

DNA replication

Nuclear magnetic resonance spectroscopy

Nucleotide sequence

Trinucleotide repeats

Base Sequence

DNA Replication

DNA

Magnetic Resonance Spectroscopy

Trinucleotide Repeats

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

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

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

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

Variation in length of proteins by repeats and disorder regions

Sagit, Rauan

January 2013

Protein-coding genes evolve together with their genome and acquire changes, some of which affect the length of their protein products. This explains why equivalent proteins from different species can exhibit length differences. Variation in length of proteins during evolution arguably presents a large number of possibilities for improvement and innovation of protein structure and function. In order to contribute to an increased understanding of this process, we have studied variation caused by tandem domain duplications and insertions or deletions of intrinsically disordered residues. The study of two proteins, Nebulin and Filamin, together with a broader study of long repeat proteins (&gt;10 domain repeats), began by confirming that tandem domains evolve by internal duplications. Next, we show that vertebrate Nebulins evolved by duplications of a seven-domain unit, yet the most recent duplications utilized different gene parts as duplication units. However, Filamin exhibits a checkered duplication pattern, indicating that duplications were followed by similarity erosions that were hindered at particular domains due to the presence of equivalent binding motifs. For long repeat proteins, we found that human segmental duplications are over-represented in long repeat genes. Additionally, domains that have formed long repeats achieved this primarily by duplications of two or more domains at a time. The study of homologous protein pairs from the well-characterized eukaryotes nematode, fruit fly and several fungi, demonstrated a link between variation in length and variation in the number of intrinsically disordered residues. Next, insertions and deletions (indels) estimated from HMM-HMM pairwise alignments showed that disordered residues are clearly more frequent among indel than non-indel residues. Additionally, a study of raw length differences showed that more than half of the variation in fungi proteins is composed of disordered residues. Finally, a model of indels and their immediate surroundings suggested that disordered indels occur in already disordered regions rather than in ordered regions. / <p>At the time of the doctoral defense, the following papers were unpublished and had a status as follows: Paper 2: In press. Paper 4: Manuscript.</p>

protein length

repeats

domain repeats

protein evolution

duplication

tandem duplication

intrinsic disorder

intrinsically disordered

variation in length

insertion

deletion

recombination

expansion

contraction

Analysis of CRM1- and Nup214- dependent nuclear export of proteins / Analyse des CRM1- und Nup214- abhängigen Kernexportes von Proteinen

Roloff, Stephanie

21 May 2012

No description available.

500 Naturwissenschaften

WHC 300

Biology (incl. Psychology)

Kernporenkomplex

Exportrezeptor

CRM1

Nukleoporin

Nup214

FG-repeats

nuclear pore complex

export receptor

CRM1

nucleoporin

Nup214

FG-repeats

42.15

Distribution and evolution of short sequence tandem repeats in eukariotic genomes

Ledda, Alice

06 May 2011

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

A genetic investigation into a Lebanese population: from STR’s to SNP’s

Ghemrawi, Mirna

26 June 2018

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

Conservation and Evolution of Microsatellites in Vertebrate Genomes

Buschiazzo, Emmanuel

January 2008

Microsatellites are strings of short DNA motifs (≤6 bp) repeated in tandem across genomes of both prokaryotes and eukaryotes. In 20 years, they became popular genetic markers, successfully employed in the field of genetic mapping and gene hunting, as well as to address various biological questions at the individual, family, population and species level. However, evolutionary and demographic inferences from microsatellite polymorphism are hampered by controversy and ambiguity in the mutational processes of microsatellite sequences. Drawing on new data from genome projects, I review in Chapter 1 the concept of a microsatellite life cycle, which hypothesizes that microsatellites follow a life cycle from birth, through expansion, contraction, death and potentially resurrection. To document and understand this integrative concept of evolution, which could help improve current models of microsatellite evolution, there is an implicit need to study the evolution of microsatellites above the species level. A prerequisite of such comparative studies is therefore to find microsatellite loci that are conserved between different species. The near or full completion of many vertebrate genomes and their alignment against one another offer the ultimate approach to find genomic elements conserved over a large evolutionary scale. In Chapter 2, I present a new comprehensive method to find conserved microsatellites in whole genomes. Using the multiple-alignment of the human genome against those of 11 mammalian and five non-mammalian vertebrates, I examine the genomewide conservation of microsatellites, and challenge the general assumption that microsatellites are too labile to be maintained in distant species. In Chapter 3, I present similar results using the alignment of the newly sequenced platypus genome against those of three mammals, the chicken and the lizard, and incorporate these data into the framework created by the 17-genome analysis. This enlarged dataset was ground for attempting to reconstruct a vertebrate phylogeny from the presence/absence of microsatellites in the different genomes. Maximum parsimony analyses resulted in a tree much similar to that of the current view of the vertebrate phylogeny, while Bayesian analyses showed some discrepancies. This work opens a way for novel theoretical developments regarding the inference of ancestral states of microsatellites. In Chapter 4, I show how knowledge on conserved microsatellite sites can help for the development of a set of comparative primers useful across the Mammalia; implementing a similar protocol, nine conserved dinucleotide repeats were genotyped in 20 unrelated individuals of 18 species (nine sister species) encompassing the mammalian phylogeny, including marsupials and monotremes, and four microsatellites were sequenced in 4 individuals per species. My results emphasize conserved microsatellites as a new resource for genetic mapping and population studies. Finally, in Chapter 5, I recount the unexpected extent of structural change among mammalian orthologous microsatellites, including change of complexity, motif replacement and overall length variability. Altogether, these findings provide a comprehensive framework that may help in many areas of research, including molecular ecology, genome mapping, population genetics, and genome and microsatellite evolution.

comparative genomics

simple sequence repeats (SSRs)

genome evolution

mammals

cross-species primers

Fusion of Inverted Repeats Leads to Formation of Dicentric Chromosomes that Cause Genome Instability in Budding Yeast

Kaochar, Salma

January 2010

Large-scale changes are common in genomes, and are often associated with pathological disorders. In the work presented in this dissertation, I provide insights into how inverted repeat sequences in budding yeast fuse during replication. Fusion leads to the formation of dicentric chromosomes, a translocation, and other chromosomal rearrangements.Using extensive genetics and some molecular analyses, I demonstrate that dicentric chromosomes are key intermediates in genome instability of a specific chromosome in budding yeast. I provide three pieces of evidence that is consistent with this conclusion. First, I detect a recombination fusion junction that is diagnostic of a dicentric chromosome (using a PCR technique). Second, I show a strong correlation between the amount of the dicentric fragment and the frequency of instability of the entire chromosome. Third, I demonstrate that a mutant known to stabilize dicentric chromosomes suppress instability. Based on these observations, I conclude that dicentric chromosomes are intermediates in causing genome instability in this system.Next, we demonstrate that fusion of inverted repeats is general. Both endogenous and synthetic nearby inverted repeats can fuse. Using genetics, I also show that many DNA repair and checkpoint pathways suppress fusion of nearby inverted repeats and genome instability. Based on our analysis, we propose a novel mechanism for fusion of inverted repeats that we term `faulty template switching.'Lastly, I discuss two genes that are necessary for fusion of nearby inverted repeats. I identified a mutant of the Exonuclease 1 (Exo1) and a mutant of anaphase inhibitor securin (Pds1) that suppress nearby inverted repeat fusion and genome instability. Studies of Exo1 and Pds1 provide us with insights into the molecular mechanisms of fusion.Our finding that nearby inverted repeats can fuse to form dicentric chromosomes that lead to genome instability may have great implications. The generality of this fusion reaction raises the possibility that dicentric chromosomes formed by inverted repeats can lead to genome instability in mammalian cells, and thereby contribute to a cancer phenotype.

budding yeast

checkpoint

Dicentric chromosome

faulty template switch

Genome rearrangements

Inverted repeats