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Ancient DNA studies : of the Asiatic Eskimo site EkvenHomeister, Anne January 2012 (has links)
Den här uppsatsen behandlar gammal DNA från 32 människor från den prehistoriska byn Ekwen belägen in nordöst Asien. Proverna har blivit masskopierade med hjälp av PCR och sekvenserad med FLX pyrosekvensering. Autentiska sekvenser har blivit bedömt genom användningen av PhyloNet och c-statistik och senare anpassad och jämförd med en referens sekvens (CRS). Tydliga C-T, T-C och A-G skador har upptäckts vid nukleotidpositioner vilket visar sig vara utmärkande för just den här populationen.
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Ecologia, prevalência e caracterização molecular de Chelonid fibropapilloma-associated herpesvirus (CFPHV) em Tartarugas-Verdes (Chelonia mydas) em áreas da costa brasileira / Ecology, prevalence and molecular characterization of Chelonid fibropapilloma-associated herpesvirus (CFPHV) in Chelonia mydas of Brazilian coast areasMarco Aurélio Gattamorta 03 February 2016 (has links)
Os herpesvírus são normalmente adaptados a um único grupo de hospedeiros, e esta associação parasita-hospedeiro está ligada à sua seleção e coevolução. Estes agentes podem causar infecções latentes, onde normalmente o vírus não se replica. Durante o ciclo lítico, no entanto, outras células são infectadas e liberam partículas virais capazes de infectar outros indivíduos. O CFPHV (Chelonid fibropapilloma-associated herpesvirus) tem sido apontado como principal agente infeccioso ligado a fibropapilomatose em tartarugas-marinhas. A doença caracteriza-se por uma proliferação cutânea benigna mas que, dependendo da sua severidade, pode comprometer a sobrevivência do indivíduo afetado, sendo por isso apontada como importante ameaça a conservação de tartarugas-marinhas, particularmente de tartarugas verdes (Chelonia mydas), a principal espécie acometida pela doença. Alguns aspectos da biologia do CFPHV e sua relação com as tartarugas verdes foram estudados no presente trabalho. Primeiramente, a capacidade deste agente em se disseminar pelo ambiente e infectar outros indivíduos, e as possíveis vias envolvidas nesta dispersão. Em seguida, avaliou-se os possíveis tecidos em que o herpesvírus pode estabelecer a infecção latente. Por fim, determinou-se a prevalência de indivíduos de Chelonia mydas infectados pelo CFPHV em duas áreas de alimentação (Ubatuba-SP e Vitória-ES) e em uma áreas mista - de alimentação e reprodução (Fernando de Noronha-PE). No primeiro estudo, observou-se que a prevalência de CFPHV nas amostras de secreções de Chelonia mydas variou entre 0%, no Espírito Santo, a 25%, em São Paulo. Os haplótipos afetados foram CMA-3 e CMA-8, e a variante viral encontrada não havia sido detectada anteriormente no Brasil, mas possui elevada similaridade com vírus provenientes do Golfo da Guiné e de Porto Rico. Os resultados sugerem que estes vírus podem ser transmitidos por secreções e também circular entre diferentes regiões. No segundo estudo, detectou-se a presença de CFPHV no cérebro de 5 animais necropsiados e também na pele e em lesões fibropapilomatosas. Em um dos animais foi detectada a presença de uma única variante de CFPHV no cérebro, pele e tumores. Esta variante ainda não havia sido detectada no Brasil e apresentou 100% de identidade com a variante detectada nas secreções. Para avaliar a relação entre haplótipos e variantes virais, o terceiro estudo determinou a prevalência de CFPHV em pele e tumores de 136 indivíduos - 9,56% de indivíduos sadios apresentavam o agente em tecido epitelial e 45,58% dos animais foram positivos para CFPHV, quando considerados também animais com fibropapilomatose. Duas novas variantes de herpesvírus foram encontradas: Var. 7, em Ubatuba-SP e Vitória-ES e Var. 8, em Vitória-ES. Não houve associação entre uma variante viral e um haplótipo. Os resultados observados permitem apontar que o CFPHV pode estabelecer infecções latentes; o vírus pode \"migrar\" entre diferentes regiões, junto com seus hospedeiros; partículas virais podem ser liberadas por secreções; duas novas variantes foram identificadas. Altas taxas de substituição de nucleotídeos em CFPHV podem indicar o surgimento das variantes destas áreas, mas a alta similaridade entre as variantes detectadas e àquelas de Porto Rico e Golfo da Guiné sugerem também a entrada de novas variantes na costa brasileira. / Herpesviruses are usually adapted to a single group of hosts, and this host-parasite association is linked to its selection and co-evolution. These agents can cause latent infections, where the virus usually does not replicate. During the lytic cycle, however, other cells are infected and release viral particles capable of infecting other individuals.The CFPHV (Chelonid fibropapilloma-associated herpesviru) has been indicated as the main infectious agent linked to fibropapillomatosis on sea turtles. The disease is characterized by a benign skin proliferation, but, depending on its severity, can compromise the survival of the affected individual, therefore considered an important threat to the conservation of sea turtles, especially green turtles (Chelonia mydas), the main species affected by the disease. Some aspects of the CFPHV biology and its relation to green turtles were studied in this work. Firstly, the ability of this agent to spread in the environment and infect other individuals, and the possible pathways involved in this dispersion. Then, potential tissues wherein the herpesvirus can establish latent infection were assessed. Finally, we determined the prevalence of Chelonia mydas individuals infected by CFPHV in two feeding areas (Ubatuba-SP and Vitória-ES) and in a mixed area of feeding and reproduction (Fernando de Noronha-PE). In the first study, it was observed that the prevalence of CFPHV in samples of Chelonia mydas secretions ranged from 0% in Espírito Santo, to 25% in São Paulo. Affected haplotypes were CM-A3 and CM-A8, and viral variant found had not been previously detected in Brazil, but it is significantly similar to viruses found in the Gulf of Guinea and Puerto Rico. The results suggest that these viruses can be transmitted by secretions and can also circulate among different regions. Considering the low maintenance of the agent within the environment, they are probably brought by individuals with the latent virus, being capable of releasing viral particles during the herpesvirus replication cycle. In the second study, the presence of CFPHV was detected inside the brain of 5 necropsied animals, besides the detection of the virus on the skin and fibropapillomatosis lesions. In one of the animals, it was possible to characterize the CFPHV and the presence of a single viral variant inside the brain, tumors and on the skin of the same animal was detected. This variant had not yet been detected in Brazil and showed 100% identity with the variant detected in secretions. These results indicate that the virus may establish a latent infection in nerve tissue. To evaluate the relationship between haplotypes and viral variants, the third study determined the prevalence of CFPHV on skin and tumors of 136 individuals - 9.56% of healthy individuals showed the agent in epithelial tissue and 45.58% of the animals were positive for CFPHV, when also considered animals with fibropapillomatosis. Two new variants of the herpesvirus were found, Var. 7 in Ubatuba-SP and Vitória-ES and Var. 8 only in Vitória-ES. C. mydas individuals of different haplotypes were infected, and there was no association between a viral variant and a haplotype. The observed results permitted to point that CFPHV can establish latent infections in Chelonia mydas; the virus can \"migrate\" among different regions, along with its hosts; viral particles can be released by secretion; viral variants previously detected were not found in these areas, but two new variants were detected. The high nucleotide substitution rates observed in CFPHV may indicate the emergence of these variants in these areas, but the high similarity among the detected variants and those identified in Puerto Rico and Gulf of Guinea also suggest the entry of new variants into the Brazilian coast.
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Heteroplasmia em Bombus morio (Hymenoptera, Apidae) e impactos em estudos evolutivos / Heteroplasmy in Bombus morio (Hymnoptera, Apidae) and impacts in evolutionary studiesPaulo Cseri Ricardo 06 December 2017 (has links)
A utilização de sequências do DNA mitocondrial (mtDNA) como marcadores moleculares na investigação da diversidade genética e evolução é muito difundida, auxiliando na realização de inferências em inúmeros trabalhos. Apesar de sua inegável importância, a utilização dessas sequências como marcadores moleculares suscita algumas questões. A heteroplasmia, por exemplo, é reconhecida como um desafio na utilização de sequências do mtDNA. Este estado ocorre quando um organismo apresenta diferentes haplótipos mitocondriais. Em um trabalho anterior, foram encontrados indícios que sugeriam a presença de heteroplasmia na espécie de abelha Bombus morio. O trabalho atual investigou de forma mais detalhada a presença de heteroplasmia nessa espécie, assim como fatores que podem influenciar na identificação desse estado. Os resultados obtidos confirmaram a existência de heteroplasmia nessa espécie, e identificaram que alguns haplótipos heteroplásmicos foram compartilhados entre indivíduos de localidades distintas. Esses haplótipos heteroplásmicos compartilhados sugerem a existência de heteroplasmia estável em B. morio, o que pode influenciar inferências evolutivas, e em especial, os estudos populacionais. Também foi detectada a presença de NUMTs, pseudogenes nucleares resultantes da transferência de sequências do mtDNA para o genoma nuclear. Esses NUMTs apresentaram grande divergência de sequência em relação aos haplótipos mitocondriais, o que poderia afetar análises filogenéticas e populacionais, além da identificação de espécies por meio do DNA barcoding. Ainda, erros de amplificação podem ser falsamente interpretados como variação intraindividual do DNA mitocondrial (mtDNA), superestimando o número de haplótipos, principalmente quando polimerases de baixa fidelidade são utilizadas. Por fim, os resultados observados neste trabalho sugerem que a utilização de sequências do mtDNA deve ser utilizada de forma cautelosa, e indícios de heteroplasmia, como a presença de picos duplos, não devem ser ignorados. Quando essas evidências são observadas investigações mais detalhadas devem ser aplicadas, a fim de aferir qual a sua origem, e, no caso da heteroplasmia ser confirmada, quais as possíveis consequências produzidas pela presença desse estado / The mitochondrial DNA sequences (mtDNA) have been widely applied as molecular markers in the investigation of genetic diversity and evolution. Despite its undeniable importance, the use of these sequences as molecular markers may present some drawbacks. Heteroplasmy, for example, is recognized as a challenge. This state occurs when an individual has different mitochondrial haplotypes. In a previous work, evidences suggesting the presence of heteroplasmy in the bumblebee Bombus morio were verified. The present work investigated in more detail the presence of heteroplasmy in this species, as well as factors that may influence the identification of this state. The results confirmed the existence of heteroplasmy in this species, and identified that some heteroplasmic haplotypes were shared between individuals from different locations. These shared heteroplasmic haplotypes suggest the existence of stable heteroplasmy in B. morio, which may interfere in evolutionary inferences, especially in population studies. NUMTs, nuclear pseudogenes resulting from the transfer of mtDNA sequences to the nuclear genome, were also detected. These NUMTs showed great sequence divergence from mitochondrial haplotypes, which could affect phylogenetic and population analyzes, as well as species identification through DNA barcoding. In addition, it was observed that amplification errors might be misinterpreted as mtDNA intraindividual variation and overestimates the number of intraindividual haplotypes, especially when low fidelity polymerases are used. Finally, the results observed in this study suggest that the use of mtDNA sequences should be used carefully, and evidences of heteroplasmy, such as the presence of double peaks, should not be ignored. Additional investigations should be applied in case of heteroplasmy evidences to ascertain your source and the consequences of the presence of this state
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Studium exprese a maturace mitochondriálního systému oxidativní fosforylace v průběhu prenatálního vývoje savců / Study of expression and maturation of mitochondrial oxidative phosphorylation system during mammal's prenatal periodMrhálková, Andrea January 2010 (has links)
Postnatal adaptation of neonate to extrauterine life is among others dependent on maturation of mitochondrial oxidative phosphorylation system (OXPHOS). It depends on effective mitochondrial biogenesis during fetal developement. The inadequate capacity of mitochondrial OXPHOS system plays an important role in the neonatal mortality and morbidity. Therefore the study of mitochondrial biogenesis on molecular and biochemical level is important to improve the care of very premature neonates, especially critically ill premature neonates. This thesis has been worked out in The laboratory for study of mitochondrial disorders (Department of Pediatrics, 1st Faculty of Medicine, Charles University in Prague). The thesis is based on molecular genetic analyses, which are focused on characterisation of ATP synthase gene expression and on changes in mitochondrial DNA content during human and rat fetal development. The results provide the better insight into mitochondrial respectively ATP synthase biogenesis during human and rat fetal development.
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EFFECTS OF LAMINAR SHEAR STRESS ON MITOCHONDRIAL DNA INTEGRITY IN ENDOTHELIAL CELLSKim, Boa January 2014 (has links)
Purpose/hypothesis: Regular practice of exercise is the most effective non-pharmacological intervention that improves vascular health, which is thought to be mediated by a repeated exposure of vessel walls to increased hemodynamic shear stress (SS). Mitochondria have been shown to be essential cellular structures responsible for a wide variety of vascular functions, and its impairment is often associated with cardiovascular disease. However, researches on vascular mitochondrial adaptations to SS are in a very early stage and many questions remain unresolved. The objective of this study is to investigate the effect of exercise preconditioning on endothelial mitochondria in an angiotensin (Ang) II-induced hypertension model. It was hypothesized that exercise preconditioning prevents Ang II induced-hypertensive phenotypes by improving mitochondrial homeostasis in the endothelium. Methods: High-magnitude laminar SS (LSS) (20 dyne/cm2) was applied to human aortic endothelial cells (HAECs) using a cone-and-plate shear apparatus for 48 hours. Either LSS-preconditioned or static flow-situated HAECs were incubated with Ang II. In in vivo experiments, C57BL/6J mice were singly housed with or without a voluntary running wheel for 7 weeks. Ang II or saline was infused in a constant rate using an implantable osmotic pump for the last 2 weeks of the experimental period. Mitochondrial membrane potential (ÄØm) and mitoROS production were measured using fluorochrome molecular probe-based microscopic techniques, and mtDNA damage was assessed by a long amplicon quantitative PCR (LA-QPCR) method. Results: In HAECs, LSS preconditioning attenuated Ang II-induced mitochondrial dysfunction, which was evidenced by decreased mitoROS generation, increased ÄØm, and reduced mtDNA damage. Likewise, in aortic tissues, Ang II-induced mitochondrial phenotypic changes (i.e. mitoROS production, mtDNA damage and ÄØm reduction) were significantly reduced in exercise-preconditioned mice compared to sedentary controls. Moreover, Ang II-induced blood pressure elevation was completely blocked in exercise preconditioned animals. Conclusion: Taken together, high-magnitude LSS improves endothelial function by enhancing mtDNA integrity and mitochondrial function. These findings further support the idea that aerobic exercise is a prominent life-style modification strategy to prevent hypertension by targeting dysfunctional mitochondria in the vessel wall. / Kinesiology
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Later Life Consequences of Developmental Mitochondrial DNA Damage in C. elegansRooney, John Patrick January 2015 (has links)
<p>Mitochondria are responsible for producing the vast majority of cellular ATP, and are therefore critical to organismal health [1]. They contain thir own genomes (mtDNA) which encode 13 proteins that are all subunits of the mitochondrial respiratory chain (MRC) and are essential for oxidative phosphorylation [2]. mtDNA is present in multiple copies per cell, usually between 103 and 104 , though this number is reduced during certain developmental stages [3, 4]. The health of the mitochondrial genome is also important to the health of the organism, as mutations in mtDNA lead to human diseases that collectively affect approximately 1 in 4000 people [5, 6]. mtDNA is more susceptible than nuclear DNA (nucDNA) to damage by many environmental pollutants, for reasons including the absence of Nucleotide Excision Repair (NER) in the mitochondria [7]. NER is a highly functionally conserved DNA repair pathway that removes bulky, helix distorting lesions such as those caused by ultraviolet C (UVC) radiation and also many environmental toxicants, including benzo[a]pyrene (BaP) [8]. While these lesions cannot be repaired, they are slowly removed through a process that involves mitochondrial dynamics and autophagy [9, 10]. However, when present during development in C. elegans, this damage reduces mtDNA copy number and ATP levels [11]. We hypothesize that this damage, when present during development, will result in mitochondrial dysfunction and increase the potential for adverse outcomes later in life.</p><p>To test this hypothesis, 1st larval stage (L1) C. elegans are exposed to 3 doses of 7.5J/m2 ultraviolet C radiation 24 hours apart, leading to the accumulation of mtDNA damage [9, 11]. After exposure, many mitochondrial endpoints are assessed at multiple time points later in life. mtDNA and nucDNA damage levels and genome copy numbers are measured via QPCR and real-time PCR , respectively, every 2 day for 10 days. Steady state ATP levels are measured via luciferase expressing reporter strains and traditional ATP extraction methods. Oxygen consumption is measured using a Seahorse XFe24 extra cellular flux analyzer. Gene expression changes are measured via real time PCR and targeted metabolomics via LC-MS are used to investigate changes in organic acid, amino acid and acyl-carnitine levels. Lastly, nematode developmental delay is assessed as growth, and measured via imaging and COPAS biosort.</p><p>I have found that despite being removed, UVC induced mtDNA damage during development leads to persistent deficits in energy production later in life. mtDNA copy number is permanently reduced, as are ATP levels, though oxygen consumption is increased, indicating inefficient or uncoupled respiration. Metabolomic data and mutant sensitivity indicate a role for NADPH and oxidative stress in these results, and exposed nematodes are more sensitive to the mitochondrial poison rotenone later in life. These results fit with the developmental origin of health and disease hypothesis, and show the potential for environmental exposures to have lasting effects on mitochondrial function.</p><p>Lastly, we are currently working to investigate the potential for irreparable mtDNA lesions to drive mutagenesis in mtDNA. Mutations in mtDNA lead to a wide range of diseases, yet we currently do not understand the environmental component of what causes them. In vitro evidence suggests that UVC induced thymine dimers can be mutagenic [12]. We are using duplex sequencing of C. elegans mtDNA to determine mutation rates in nematodes exposed to our serial UVC protocol. Furthermore, by including mutant strains deficient in mitochondrial fission and mitophagy, we hope to determine if deficiencies in these processes will further increase mtDNA mutation rates, as they are implicated in human diseases.</p> / Dissertation
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Hybridisation and introgression of exotic Cervus (nippon and canadensis) with red deer (Cervus elaphus) in the British IslesSmith, Stephanie Lindsay January 2013 (has links)
Europe’s largest population of wild red deer (Cervus elaphus) resides in the British Isles and has been present since the end of the last ice age, c. 11,000BP. Since the mid-19th century, multiple introductions of Japanese sika (Cervus nippon) and wapiti (Cervus canadensis) have taken place across the British Isles. While wapiti introductions have generally gone extinct, sika have thrived and expanded and now often live in sympatry with red deer. Hybridisation between these species has been demonstrated in captivity and in the wild. This study sought to determine the extent of hybridisation and introgression between red and sika across large parts of the British Isles and elucidate some of its potential consequences. Chapter 2 addresses the extent of hybridisation and introgression across Scotland and NW England. A total of 2984 samples from the North Highlands, the central Highlands, the Hebrides, Kintyre and the English Lake District were genotyped at 22 microsatellite loci, which are highly diagnostic for red and sika and strongly diagnostic for red and wapiti and a mitochondrial marker that is diagnostic for red and sika, alongside 49 wapiti samples from Canada. Microsatellite data was analysed using the Bayesian clustering program Structure 2.3 to determine the extent of admixture between species. There was some evidence for very low-level introgression by wapiti into a small number of Scottish red deer (<0.2% of total). Only two areas (both in Kintyre, Argyll) showed extensive introgression with collapse of assortative mating between red and sika (50.4% and 61.8% of sampled individuals were hybrid in West Loch Awe and South Kintyre, respectively). However, rare and widely scattered individuals with low-level sika introgression or cytonuclear disequilibrium suggest hybridisation has occurred in several other places in mainland Scotland and Cumbria in the past without subsequent loss of assortative mating. Chapter 3 addresses the extent of hybridisation in Ireland. There are now an estimated 4,000 red deer in Ireland and their numbers are increasing. It has recently been determined that the red deer in Killarney, County Kerry are descended from an ancient (c. 5,000BP) introduction and therefore merit genetic conservation. Introduction of exotic species, including Japanese sika and North America wapiti, since the 19th century have primarily occurred via the now defunct Powerscourt Park, County Wicklow, which was the source of many translocations to the rest of Ireland as well as to the UK. 374 deer samples from across Ireland were analysed as in Chapter 2. Wapiti introgression was again very low, with trace amounts of introgression detected in a small proportion of samples (0.53%), whilst 41% of 197 deer sampled in Co. Wicklow and 47% of 15 deer sampled in Co. Cork were red-sika hybrids according to either their nuclear genome or mitochondrial haplotype. No pure red deer were detected in Co. Wicklow, suggesting that in this region the red deer has disappeared following hybridisation. Whilst no hybrids were detected among 37 red samples and 77 sika samples in Co. Kerry, the Co. Cork hybrids pose a threat to the Killarney populations due to their proximity. Chapter 4 investigates population genetic structure within red and sika populations across the British Isles and investigates whether low-level introgression by the other species influences the resolved population structure. Structure analysis was conducted separately using 2307 ‘pure’ red deer individuals and 752 ‘pure’ sika animals from the British Isles (defined as Q > 0.95 for red and Q < 0.05 for sika) and then on reduced sample sizes using more stringent purity criteria (Q ≥ 0.99 and Q ≤ 0.01). As might be predicted, the more stringent criteria removed individuals in areas known to contain advanced backcrosses. In red deer, there was some evidence for a loss of within-species population structure under the more stringent criteria, while for sika there was not. Datasets were also analysed using Discriminate Analysis of Principal Components; a multivariate method designed to infer and describe genetic population structure. In red deer, both analytical approaches confirmed the strong separation of the deer on Harris and Lewis from others, and there is support for clusters typified by the other Hebridean islands, Kintyre, central and North Scotland and the English sites. Among sika, both approaches supported the likelihood of three clusters which are presumably the result of bottleneck events as each introduction was made. Chapter 5 investigates the phenotypic consequences of hybridisation by three approaches. Firstly, carcass weight was regressed against genetically-determined hybrid scores (at two stringency levels, see Chapter 4) and heterozygosity (in terms of red and sika alleles). Among hybrids, carcass weight is linearly related to hybrid score (Q) and there is some evidence for a positive relationship with heterozygosity. This suggests that additive genetic variation explains variation in carcass weight to a greater extent than heterosis. Secondly, analysis of five case studies representing individual putative hybrids submitted by stalkers from areas without known hybridisation, two proved to be hybrids, while the other three were pure sika. Lastly, in regions known to contain hybrids, the accuracy of ranger-assigned phenotype averaged 78% and revealed that in Scotland accuracy tends to decline as an individual becomes more genetically intermediate; whilst in Co. Wicklow it is the identification of pure parental animals that is more challenging. In conclusion, the existence of rare and widely scattered advanced red-sika backcrosses with low-level nuclear introgression and/or mitochondrial introgression (e.g. in North of Scotland, Cumbria) highlight that some hybridisation events are followed by extensive backcrossing without the breakdown of assortative mating, while others are followed by the generation of a hybrid swarm (e.g. in South Kintyre, West Loch Awe, Co. Wicklow, Co. Cork). Phenotypic traits can become intermediate due to hybridisation and this may facilitate further gene flow and hybridisation. New molecular tools including next generation sequencing (NGS) will enable better understanding the hybridisation process and its phenotypic consequences in this and other systems.
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Análise molecular e populacional de Partamona mulata (Moure In Camargo, 1980)e Partamona helleri (Frese, 1900) (Hymenoptera, Apidae, Meliponini) / Molecular and population analysis of Partamona mulata (Moure In Camargo, 1980)and Partamona helleri (Friese, 1900) (Hymenoptera, Apidae, Meliponini)Brito, Rute Magalhães 20 June 2005 (has links)
O gênero Partamona compreende 33 espécies, distribuídas do sul do México ao sul do Brasil. O gênero tem sido amplamente estudado em diferentes níveis: citogenético, etológico e morfológico. O presente trabalho teve como objetivo contribuir com dados moleculares para o conhecimento do grupo, realizando estudos populacionais por meio da caracterização do DNA mitocondrial por PCR+RFLP e da análise de regiões de microssatélites do DNA genômico de duas espécies: P. mulata de distribuição restrita ao sul de Mato Grosso e norte do Mato Grosso do Sul, e P. helleri de distribuição mais ampla, do sul da Bahia até Santa Catarina. Foram detectados apenas dois haplótipos em P. mulata, os quais diferiram entre si por apenas um sítio de restrição. As análises estatísticas demonstraram não haver estruturação entre as populações sugerindo que esta espécie possa ter passado por recente afunilamento populacional. Em P. helleri foram observados dez haplótipos sendo alguns exclusivos e outros compartilhados. Análises estatísticas apontaram alta estruturação entre as populações e a distribuição filogeográfica observada sugere um possível isolamento por fragmentação da Mata Atlântica durante o Pleistoceno. A análise dos locos microssatélites mostrou baixa variabilidade genética em ambas espécies e discreta estruturação entre as populações, não relacionada com a distribuição geográfica das mesmas. Isto pode ser conseqüência de migração de machos entre populações visto que as rainhas são filopátricas ou, fragmentação dos habitats pela rápida degradação do cerrado e da Mata Atlântica, ou por alelos nulos causados pelo uso de primers heteroespecíficos. A análise de parentesco entre abelhas de um mesmo ninho apontou a existência de apenas uma patrilínea em P. mulata sugerindo monoandria para esta espécie. Foram encontradas duas patrilíneas em algumas colônias de P. helleri, o que pode ser resultante de fecundação por mais de um macho ou substituição recente da rainha. A caracterização parcial do DNAmt de duas espécies de Partamona poderá contribuir em estudos filogenéticos tanto do gênero quanto de outras espécies de Meliponini. A análise populacional mostrou o status da variabilidade genética das espécies, suas possíveis histórias evolutivas e a possível relação desta com degradação dos ambientes onde estas estão distribuídas. / The Partamona genus comprises 33 species distributed from south Mexico to south Brazil. This genus has been studied at different levels: cytogenetical, ethological and morphological. This work aimed at to contribute with molecular data for the knowledge about the group performing a population study employing the PCR+RFLP of mtDNA, and analysis of microsatellite loci from nuclear DNA of two species, P. mulata which is distributed in south Mato Grosso and north Mato Grosso do Sul, and P. helleri which geographic distribution is wider, from Santa Catarina to southern Bahia. It was detected two haplotypes in 58 colonies of P. mulata, each one differing by one single restriction site. The statistical analyses indicated no differentiation among populations suggesting that the species could have passed through a recent populational bottleneck. It was observed ten haplotypes in 47 colonies of P. helleri, some exclusive and others shared among populations. Statistical analysis pointed high population differentiation and the observed phylogeography distribution suggested a possible recent isolation probably by Atlantic Forest fragmentation during the Pleistocene. The microsatellite analysis showed low genetic variability in both species and discrete population structuring, not related to the geographic distribution. This might be consequence of migration of males, since the queens are highly phylopatric, or habitat fragmentation by degradation of savanna and Atlantic forest areas, or null alleles caused by the use of heterospecific primers. The relatedness investigation revealed only one patriline in nest mates of P. mulata that suggests monoandry for this species. It was found two patrilines in P. helleri that can be resulted from more than one mating or recent queen replacement. The partial characterization of the mtDNA of two Partamona species can contribute to further phylogenetic studies among bees of this genus or among other Meliponini species. The populational analysis showed the genetic variability status of the species, their putative evolutionary histories and the possible relation between the results and the environmental degradation in their distribution areas.
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Genetic Analyses of Bovid Remains and the Origin of Early European CattleAnderung, Cecilia January 2006 (has links)
<p>The aurochs Bos primigenius, extinct since 1627, was the wild progenitor of cattle. It is believed that all European cattle originate from one domestication event in the Near East 10 000 years ago. However, it is evident from the archaeological record that the aurochs survived into historic time and spent many years existing alongside domestic cattle. Thus, a question posed is whether aurochsen were locally domesticated or incorporated into early domestic cattle stock.</p><p>In this thesis, genetic techniques are applied to ancient and modern DNA from bovids in order to study questions relating to the origin of early European cattle. DNA from ancient specimens is fragmented and in greatly reduced quantity. Therefore mitochondrial DNA, present in many copies in the living cell, has long been dominating the ancient DNA research field. Analyses of ancient DNA presented in this work are based on both mitochondrial DNA and nuclear DNA, through the study of Single Nuclear Polymorohism (SNPs). A method for typing ancient SNPs was developed and applied to ancient cattle bones.</p><p>Mitochondrial DNA of cattle is structured into five geographically distributed lineages, the dominant lineage in Europe is also found in the Near East where additional lineages are found. This pattern has been attributed to the proposed domestication event in the Near East from where cattle carrying the single lineage were brought to Europe. However, the results presented here show that cattle domestication was more complicated than previously suggested. SNP data from extant cattle and bones from cattle and aurochs point towards a hybridisation event. European cattle appear indeed to have been domesticated in the Near East and brought in to the European continent from there. However, once in Europe, hybridisation with local aurochsen took place. It appears therefore that today’s cattle descend both from both Anatolian and European aurochsen.</p>
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Variation of mitochondrial control region sequences of Steller sea lions: the three-stock hypothesisBaker, Alyson Renee 30 September 2004 (has links)
Sequence variation of a 238 bp segment of the mitochondrial control region was analyzed for 1,568 Steller sea lions (2.8% of the estimated species population) sampled from 50 rookeries representing nearly every locality at which Steller sea lions are known to breed in significant numbers. Haplotype diversity (H = 0.9164 ± 0.0035) was high and nucleotide diversity (π = 0.00967 ± 0.00586) was moderate. No evidence was observed for significant genetic bottleneck effects. Rookeries were grouped into regions and stocks to examine structure at different spatial scales. F- and Φ-statistics were computed for all pairwise comparisons of rookeries, regions and stocks. Significant (P<0.05) divergence of eastern stock (southeastern Alaska to California) animals from western stock animals was supported in analyses at all spatial scales. Likewise, rookeries and regions from Asia were found to be significantly different from all other western stock rookeries. This was most clearly demonstrated using Φ-statistics at the regional level. The Commander Islands clearly associate with Alaskan western stock rookeries, not with the Asian rookeries. Within each of the three stocks there is significant isolation by distance among rookeries. This relationship does not hold for inter-stock comparisons indicating that there are important barriers to gene flow among stocks. Mitochondrial DNA analysis supports the recognition of three stocks for appropriate conservation of the species. The currently recognized eastern stock is unaffected, but the western stock is now partitioned west of the Commander Islands yielding a western stock which ranges from Prince William Sound west to the Commander Islands, and an Asian stock including rookeries from the Kamchatka Peninsula, Kuril Islands, and Sea of Okhtosk.
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