Assessing Migration and Demographic Change in pre-Roman and Roman Period Southern Italy Using Whole-Mitochondrial DNA and Stable Isotope Analysis / The Biogeographic Origins of Iron Age Peucetians and Working-Class Romans From Southern Italy

Emery, Matthew

06 1900

Assessing population diversity in southern Italy has traditionally relied on archaeological and historic evidence. Although informative, these lines of evidence do not establish specific instances of within lifetime mobility, nor track population diversity over time. In order to investigate the population structure of ancient South Italy I sequenced the mitochondrial DNA (mtDNA) from 15 Iron Age (7th – 4th c. BCE) and 30 Roman period (1st – 4th c. BCE) individuals buried at Iron Age Botromagno and Roman period Vagnari, in southern Italy, and analyzed δ18O and 87Sr/86Sr values from a subset of the Vagnari skeletal assemblage. Phylogenetic analysis of 15 Iron Age mtDNAs together with 231 mtDNAs spanning European prehistory suggest that southern Italian Iapygians share close genetic affinities to Neolithic populations from eastern Europe and the Near East. Population pairwise analysis of Iron Age, Roman, and mtDNA datasets spanning the pan-Mediterranean region (n=357), indicate that Roman maternal genetic diversity is more similar to Neolithic and Bronze Age populations from central Europe and the eastern Mediterranean, respectively, than to Iron Age Italians. Genetic distance between population age categories imply moderate mtDNA turnover and constant population size during the Roman conquest of South Italy in the 3rd century BCE. In order to determine the local versus non-local demographic at Vagnari, I measured the 87Sr/86Sr and 18O/16O of composition of 43 molars, and the 87Sr/86Sr composition of an additional 13 molars, and constructed a preliminary 87Sr/86Sr variation map of the Italian peninsula using disparate 87Sr/86Sr datasets. The relationship between 87Sr/86Sr and previously published δ18O data suggest a relatively low proportion of migrants lived at Vagnari (7%). This research is the first to generate whole-mitochondrial DNA sequences from Iron Age and Roman period necropoleis, and demonstrates the ability to gain valuable information from the integration of aDNA, stable isotope, archaeological and historic evidence. / Thesis / Doctor of Philosophy (PhD) / With biochemical information obtained from teeth, this study examines the population structure and geographic origins in two archaeological communities located in southern Italy. Analysis of classical remains has traditionally been the subject of historical and archaeological inquiry. However, new applications evaluate these population changes with integrated stable isotope and ancient DNA techniques. Overall, the biochemical results suggest that the pre-Roman communities harbor deep maternal ancestry originating from eastern Europe and the eastern Mediterannean. These results, when compared to the genetic diversity of Roman and broader Mediterranean populations, indicate that the Romans share closer genetic similarity with ancient Stone and Bronze Age communites from Europe and the eastern Mediterranean, than with the pre-Roman community studied here. Furthermore, tooth chemistry results indicate a predominantly local population buried in the Roman period cemetery.

Sensitive Forensic DNA Analysis : Application of Pyrosequencing and Real-time PCR Quantification

Andréasson, Hanna

January 2005

<p>The field of forensic genetics is growing fast and the development and optimisation of more sensitive, faster and more discriminating forensic DNA analysis methods is highly important. In this thesis, an evaluation of the use of novel DNA technologies and the development of specific applications for use in forensic casework investigations are presented.</p><p>In order to maximise the use of valuable limited DNA samples, a fast and user-friendly Real-time PCR quantification assay, of nuclear and mitochondrial DNA copies, was developed. The system is based on the 5’ exonuclease detection assay and was evaluated and successfully used for quantification of a number of different evidence material types commonly found on crime scenes. Furthermore, a system is described that allows both nuclear DNA quantification and sex determination in limited samples, based on intercalation of the SYBR Green dye to double stranded DNA. </p><p>To enable highly sensitive DNA analysis, Pyrosequencing of short stretches of mitochondrial DNA was developed. The system covers both control region and coding region variation, thus providing increased discrimination power for mitochondrial DNA analysis. Finally, due to the lack of optimal assays for quantification of mitochondrial DNA mixture, an alternative use of the Pyrosequencing system was developed. This assay allows precise ratio quantification of mitochondrial DNA in samples showing contribution from more than one individual.</p><p>In conclusion, the development of optimised forensic DNA analysis methods in this thesis provides several novel quantification assays and increased knowledge of typical DNA amounts in various forensic samples. The new, fast and sensitive mitochondrial DNA Pyrosequencing assay was developed and has the potential for increased discrimination power.</p>

Genetics

forensic

sensitive DNA analysis

DNA quantification

mtDNA

Real-time PCR

Pyrosequencing

Genetik

Clinical genetics

Klinisk genetik

Sensitive Forensic DNA Analysis : Application of Pyrosequencing and Real-time PCR Quantification

Andréasson, Hanna

January 2005

The field of forensic genetics is growing fast and the development and optimisation of more sensitive, faster and more discriminating forensic DNA analysis methods is highly important. In this thesis, an evaluation of the use of novel DNA technologies and the development of specific applications for use in forensic casework investigations are presented. In order to maximise the use of valuable limited DNA samples, a fast and user-friendly Real-time PCR quantification assay, of nuclear and mitochondrial DNA copies, was developed. The system is based on the 5’ exonuclease detection assay and was evaluated and successfully used for quantification of a number of different evidence material types commonly found on crime scenes. Furthermore, a system is described that allows both nuclear DNA quantification and sex determination in limited samples, based on intercalation of the SYBR Green dye to double stranded DNA. To enable highly sensitive DNA analysis, Pyrosequencing of short stretches of mitochondrial DNA was developed. The system covers both control region and coding region variation, thus providing increased discrimination power for mitochondrial DNA analysis. Finally, due to the lack of optimal assays for quantification of mitochondrial DNA mixture, an alternative use of the Pyrosequencing system was developed. This assay allows precise ratio quantification of mitochondrial DNA in samples showing contribution from more than one individual. In conclusion, the development of optimised forensic DNA analysis methods in this thesis provides several novel quantification assays and increased knowledge of typical DNA amounts in various forensic samples. The new, fast and sensitive mitochondrial DNA Pyrosequencing assay was developed and has the potential for increased discrimination power.

Genetics

forensic

sensitive DNA analysis

DNA quantification

mtDNA

Real-time PCR

Pyrosequencing

Genetik

Clinical genetics

Klinisk genetik

Effect of Netropsin on One-electron Oxidation of DNA

Roberts, Lezah Wilette

19 July 2005

One electron oxidation of DNA has been studied extensively over the years. When a charge is injected into a DNA duplex, it migrates through the DNA until it reaches a trap. Upon further reactions, damage occurs in this area and strand cleavage can occur. Many works have been performed to see what can affect this damage to DNA. Netropsin is a minor groove binder that can bind to tracts of four to five A:T base pairs. It has been used in the studies within to determine if it can protect DNA against oxidative damage, caused by one-electron oxidation, when it is bound within the minor groove of the DNA. By using a naphthacenedione derivative as a photosensitizer, several DNA duplexes containing netropsin binding sites as well as those without binding sites, were irradiated at 420 nm, analyzed, and visualized to determine its effect on oxidative damage. It has been determined netropsin creates a quenching sphere of an average of 5.8 * 108 Šwhether bound to the DNA or not. Herein we will show netropsin protects DNA against oxidative damage whether it is free in solutions or bound within the minor groove of a DNA duplex.

Photosensitizer

Charge transfer

Netropsin

TQ

DNA

Electron transfer

One-electron oxidation

DNA Analysis

Photosensitization, Biological

Oxidation, Physiological

Charge transfer in biology

Mitochondrial DNA analysis of Nonosabasut, a Beothuk Indian chief

Reed, April May

January 2001

The purpose of this experiment was to examine changes in strength and power measures accompanying traditional and ballistic training during in-season competition. Fourteen collegiate women volleyball players were trained for 11 weeks with periodized traditional and ballistic resistance training. There was a 5% decrease (p<0.05) in approach jump and reach height during the traditional training period (pre to mid), and a 5% increase (p<0.05) during the ballistic training period (mid to post), but values were not different from pre to post. There were significant decreases (p<0.05) in contact time during drop jumps (15% mid to post) and minimum dip height in countermovement jumps (7% mid to post and 16% pre to post) during ballistic training. Traditional resistance training displayed significant decreases in speed related measures, while ballistic training displayed significant increases in these same variables. A combination of traditional and ballistic training can maintain jump height over the competitive season. / Department of Biology

Beothuk Indians -- Ethnic identity.

Mitochondrial DNA -- Analysis.

Molecular biology.

DNA fingerprinting.

An assessment of the impact of environmental factors on the quality of post-mortem DNA profiling.

Gunawardane, Dalugama Mudiyanselage Don Dimuth Nilanga

January 2009

DNA profiling has ignited public interest and consequently their expectations for the capabilities of forensic criminal and science investigations. The prospect of characterising the genetic makeup of individuals or trace samples from a wide variety of depositional and post-mortem circumstances raises the question of how reliable the methods are given the potential for prolonged exposure to variation in environmental factors, i.e. temperature, pH, UV irradiation and humidity, that are known to induce damage to DNA. Thus, it is crucial to verify the validity of the DNA profiling for characterising the genetic makeup of post-mortem tissues. This project aimed to assess the reliability of sequence and microsatellite based genotyping of tissues (muscle, hair and bone) sampled from carcasses over a two year post-mortem period. This assessment investigated the impact of environment induced DNA degradation in the local geographic region that is typical of the circumstances that confront forensic practitioners in southern Australia and to utilise rigorous controls by studying animals whose time of death and burial was known and for which we had pre-decay tissue samples available. A ‘body farm’ with 12 pig carcasses on the northern Adelaide plains, ~60km north of Adelaide, which has a typical southern Australian Mediterranean climate, i.e. cold wet winters and hot dry summers. Pigs (Sus scrofa) were used as an experimental analogue for human subjects because of the logistical and ethical reasons. The pig carcasses were allocated among three treatments: four were left on the surface, four were buried at 1m depth, and four were buried at 2 m depth. These ‘burial’ conditions mimic a range of conditions encountered typically in forensic and archaeological studies. Cortical bone samples were taken from each pig carcass at one week, one month, three months, six months, one year and two years post-mortem and muscle and hair over the same sampling period for as long as those tissue types were present. A set of PCR primers to amplify two (short and a long) fragments from the hypervariable part of the mitochondrial control region (HVRI) that is used in forensic and evolutionary studies of humans and many other mammal species were developed. Also a panel of four pig microsatellite loci with fluorescent labels to facilitate automated multiplex genotyping. These loci matched as closely as possible the core motifs and allele lengths typical of the commercially available microsatellite marker kits used in Australian forensic science labs so that our experiments were as good a model as possible of the human forensic DNA technology. In this study it was possible to retrieve samples from muscle tissue up to 90 days, hair up to one year and bone at two years post-mortem. The analyses showed that the long and short HVRI region PCR fragments were only amplifiable up to 30 days from muscle tissue and that these fragments were amplifiable up to one year from hair. In contrast, in cortical bone both PCR fragments were amplifiable up to two years. The long fragment disappeared in muscle tissue completely after 30 days and in hair after six months. However, the long fragment was present in cortical bone even at two years. Overall, there was a general trend of loss of concentration of both the long and short fragments over time. Comparisons of the HVRI nucleotide sequences among tissues sampled from individual animals showed substitution changes in muscles as early as 30 days (3 out of 6 individuals) and hair at six months (1 out of 6 individuals). In contrast, in cortical bone substitutions first appeared at 365 days (1 out of 6 individuals). The most common substitution observed in all tissues types was the C-T transition, with A-G transversions observed in two episodes and C-A transversion observed in one episode. Analyses of microsatellite genotypes in muscle tissues showed high allele peaks on chromatograms up to day seven samples. However, by three months PCR was not successful from muscle tissue. While, bone tissue had lower allele peak heights compared to the muscle tissues, alleles were detectable up to six months. Allele drop out occurred for one animal (at 2 meters) in muscle tissue at the dinucleotide locus and for another animal (kept on surface) also in muscle tissue at a tetranucleotide locus. Stuttering was observed for a single animal at dinucleotide locus in muscle tissue (buried sample 2 meter depth). No stuttering or allele drop outs were seen in the bone tissue. Overall the four loci completely disappeared after 30 days in muscle tissue and after 180 days in bone tissue. In summary, analyses showed that post-mortem DNA degradation was present in all the three tissue types (muscle, hair and bone). The types of damage identified were DNA fragmentation, nucleotide substitutions and DNA loss, which resulted in a diminished frequency of successful PCR for mitochondrial and nuclear markers over time and stuttering and allele drop out in microsatellite genotyping. In addition, two nucleotide substitutions were concentrated in ‘hotspots’ that correlate with sites of elevated mutation rate in vivo. Also the frequency of successful PCR of longer nuclear and mitochondrial PCR products declined markedly more quickly than for shorter products. These changes were first observed at much shorter post mortem intervals in muscle and much longer post mortem intervals in hair and bone tissue. When considering the carcass deposition treatments, tissues that were retrieved from buried carcases showed higher levels of DNA degradation compared to tissues retrieved from carcases left on the surface. Overall, muscle tissue is a good source for DNA analysis in immediate post mortem samples, whereas hair and bone tissue are good source for DNA analysis from older samples. When comparing the microsatellite genotyping and mtDNA analyses, mtDNA is a reliable source for DNA analysis from tissue recovered from bodies that had decayed for longer post-mortem durations such as months to years, whereas microsatellite genotyping gives reliable results for tissue from shorter post mortem intervals (hours to few days). Therefore it is recommended that when analysing mtDNA sequences, cloning and sequencing PCR products can help to identify the base pair substitutions especially for tissue retrieved from longer post mortem intervals. In addition, increasing the template DNA concentrations and "neutralising" co-extracted DNA inhibitors should be considered when dealing with tissue from longer post mortem intervals. Finally, the more stringent protocols used in ancient DNA studies should be considered when dealing with tissue with much longer post mortem intervals in forensic settings. / Thesis (Ph.D.) -- University of Adelaide, School of Medical Sciences, 2009

DNA fingerprinting -- Australia.

Forensic anthropology -- Australia.

Forensic genetics -- Technique.

DNA -- Analysis.

Uma abordagem para detecção e remoção de artefatos em sequencias ESTs / An approach to detect and remove artifacts in EST sequences

Baudet, Christian

12 January 2006

Orientador: Zanoni Dias / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Computação / Made available in DSpace on 2018-08-08T07:27:54Z (GMT). No. of bitstreams: 1 Baudet_Christian_M.pdf: 13612079 bytes, checksum: 648d18039dc13dcd5a2f422cc7863666 (MD5) Previous issue date: 2006 / Resumo: O sequenciamento de ESTs (Expressed Sequence Tag) [2] e uma tecnica que trabalha com bibliotecas de cDNAs tendo como objetivo a obtençao de uma boa aproximaçao para o ?ndice genico, que e a listagem de genes existentes no genoma do organismo estudado. Antes da serem analisadas, as sequencias obtidas do sequenciamento dos ESTs devem ser processadas para eliminaçao de artefatos. Artefatos sao trechos que nao pertencem ao organismo ou que possuem baixa qualidade ou baixa complexidade. Trechos de vetores, adaptadores e caudas poli-A podem ser citados como exemplos de artefatos. A eliminaçao dos artefatos deve ser feita para que a an'alise das sequencias produzidas no projeto nao seja prejudicada por estes ?ru?dos?. Por exemplo, artefatos presentes em sequencias freq¨uentemente produzem erros em processos de clusterizaçao, pois eles podem determinar se sequencias serao unidas em um mesmo cluster ou separadas em clusters diferentes. Observando a importancia da realizaçao de um bom processo de limpeza das sequencias, o trabalho desenvolvido nesta dissertaçao teve como principal objetivo a obtençao de um conjunto eficiente de procedimentos de detecçao e remoçao de artefatos. Este conjunto foi produzido a partir de uma nova estrategia de deteçao de artefatos. Normalmente, cada projeto de seq¨uenciamento possui seu proprio conjunto de procedimentos dividido em varias etapas. Estas etapas sao, em geral, ligadas entre si e o resultado de uma pode influenciar o resultado de outra. A nossa estrategia visa a realizaçao destas etapas de forma totalmente independente. Alem da avaliaçao desta nova estrategia, o trabalho tambem realizou um estudo mais detalhado sobre dois tipos de artefatos: baixa qualidade e derrapagem. Para cada um deles, algoritmos foram propostos e validados atraves de testes com conjuntos de seq¨u?encias produzidas em projetos reais de sequenciamento. O conjunto final de procedimentos, baseado nos estudos desenvolvidos durante a escrita deste texto, foi testado com as sequencias do projeto SUCEST [100, 103, 113] e mostrou bons resultados. O clustering produzido com as sequencias processadas por nossos metodos apresentou melhores consistencia interna e externa e menores taxas de redundancia quando comparado ao clustering original do projeto / Abstract: Expressed Sequence Tag (EST) Sequencing [2] is one technique that works with cDNA libraries. It aims to achieve a good approximation for the gene index of an organism. Before analyzing the sequences obtained by sequencing ESTs, they must be processed for artifact removal. An artifact is a sequence that does not belong to the studied organism or that has low quality or low complexity. As example of artifacts, we have adapters, poly- A tails, vectors, etc. Artifacts removal must be performed because their presence can produce ?noises? in the sequencing project data analysis. For example, artifact can join two sequences in a same cluster inappropriately or separate them in two different clusters when they should be put together. Motivated by the sequence cleaning process importance, our main objective in this work was to develop an efficient set of procedures to detect and to remove sequence artifacts. Usually, each EST sequencing project has its own procedure set divided in many steps. These steps are, in general, linked and the result of one given step might influence the result of the next one. Our strategy was to perform each step independently assuring that any execution order of those steps would lead to the same result. Additionally to the new strategy evaluation, this work also studied detailedly two type of artifacts: low quality and slippage. For each one, algorithms were proposed and validated through tests with sequences of real sequencing projects. The final set of procedure, developed in this work, was evaluated using the sequences of the SUCEST project [100, 103, 113] and produced good results. The resulting clustering from our method has better external and internal consistency and lower redundacy rate than those produced by the SUCEST project clustering / Mestrado / Ciência da Computação / Mestre em Ciência da Computação

Sequência de nucleotídeos

DNA - Análise

Bioinformática

Sequenciamento de DNA

Expressed sequence tags

Nucleotide sequence

DNA - Analysis

Bioinformatics

DNA sequencing

Expressed Sequence Tags

Smart Sequence Similarity Search (S⁴) system

Chen, Zhuo

01 January 2004

Sequence similarity searching is commonly used to help clarify the biochemical and physiological features of newly discovered genes or proteins. An efficient similarity search relies on the choice of tools and their associated subprograms and numerous parameter settings. To assist researchers in selecting optimal programs and parameter settings for efficient sequence similarity searches, the web-based expert system, Smart Sequence Similarity Search (S4) was developed.

Smart (Computer file)

Sequential analysis -- Methods

Computer programs

Computational biology

DNA -- Analysis

Proteins -- Analysis

Computational Biology

Computer Sciences

Elektrochemický biosenzor pro studium metylace DNA / Electrochemical biosensor for the study of DNA methylation

Petrula, Jakub

January 2017

This bachelor’s thesis deals with design and optimalisation of custom biosensor for detection of methylated DNA. Teoretical part explains the mechanism and importance of DNA methylation. Next section describes analytical methods used in connection with DNA methylation and some basic direct and indirect methods of detection. Final part is dedicated to experiment itself, which is divided into several sections. Section one deals witch modification of working electrode and optimalisation of detection method. Second section introduces two different ways of DNA methylation detection. First is based on direct detection and second one on detection through the biosensor. Final part shows determination of methylcytosine from sample based on analysing characteristic attributes of signal and numeric algorithm based on curve fitting.

Taxonomická revize rodu Anisus v České republice (Mollusca: Planorbidae) / Taxonomic revision of the genera Anisus in the Czech Republic (Mollusca: Planorbidae)

Zavoral, Tomáš

January 2010

The aim of this work is to critically review the anatomical and morphological characters being currently used in the determination of Central European species of the genus Anisus and to confront them with molecular characters. For the molecular analysis mitochondrial genes for 16S rRNA and cytochrome c oxidase - subunit I (COI) were used. DNA analysis showed that known species occuring in the Czech Republic form well distinguishable genetic lines. Subsequent revisions of the anatomical characters of these lines have proven that these characters are due to their variability not suitable for determination, especially for the differentiating of the species A. spirorbis and A. leucostoma. The conchological characters have proven more suitable, especially the ratio of the size of the last and penultimate whorl. With the help of this character, we can safely determine a population within which there are transitional forms in other morphological and anatomical characters.