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Deciphering the impact of mtDNA mutations on cancer cell metabolism when non-editable mtDNA now is editableSvanberg, Sara January 2024 (has links)
Mitochondrial deoxyribonucleic acid (mtDNA) plays a key role in the regulation of cell growth and survival. It has been demonstrated that mutations in mtDNA have an impact on survival for cancer patients, and studying these alterations may therefore provide valuable insight into cancer progression and tumorigenesis. In this project, three mtDNA genes, MT-COX3, MT-CYB and MT-ATP6 have been knockout out from Human Embryonic Kidney 293T (HEK293T) cell models to investigate their role in tumorigenesis and cancer progression. Knockout cell models developed for MT-COX3 and MTATP6 was successful obtained, however no satisfactory knockout cell model for MT-CYB was obtained, limiting the investigation to MT-ATP6 and MT-COX3. The function of these two genes were investigated using numerous techniques including measuring cell growth, cell metabolism, and mitochondrial function. The results suggests that the knockout of the genes reduces the proliferation and viability of the cells. It also causes the cells to shift their metabolism and reduces mitochondrial function in general. This suggests that both MT-ATP6 and MT-COX3 are important for proper function of the investigated cells. Based on the findings, it can be concluded that mitochondria play an important role for the fitness of the investigated cells and that mtDNA may be a potential target for cancer treatment.
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Filogenia molecular de fungos gasteroides das ordens Phallales e Geastrales (Phallomycetidae) / Molecular phylogeny of gasteroid fungi from phallales And geastrales orders (phallomycetidae)Cabral, Tiara Sousa 15 July 2011 (has links)
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Previous issue date: 2011-07-15 / Gasteroids fungi are characterized by the basidiospores maturation inside the
basidioma, from which spores liberation occurs in a passive manner. These fungi were
once seen as a well definite class of Basidiomycota, but nowadays they are considered
an artificial assemblage, because the organisms have independent evolutionary histories
forming a polyphyletic group with a vast morphological variety. Despite their diversity,
studies with this group in the tropics are incipient, and the phylogenetic relationships of
the species from temperate climate remain unknown. Thus, this work aimed to
elucidate the phylogenetic relationships of gasteroids fungi from the Geastrales and
Phallales orders, with the inclusion of tropical and temperate species, and with these
analyses suggest a systematic position of species like Asero? floriformis and Phallus
roseus, as well as to verify if the lignicolous habit can indicate parental relationship in
the Geastrum genus. For this, basidiomata were collected at Atlantic rain forest areas,
during the rainy season, and the specimen identification followed specific literature for
gasteroid fungi. The phylogenetic analyses were performed with Maximum Parsimony
and Bayesian Analysis, making use of RPB2 and 28S nuclear genes and atp6
mitochondrial gene. It could be observed on the Phallales dendogram, that Asero?
floriformis did not cluster with A. rubra, and that it has an anterior divergence from all
others species of the family Clathraceae used in this analysis, assuming a basal position
in the clade. Phallus roseus, which once was recognized as Itajahya, has previous
divergence from the group formed by Phallus species. At the Geastrales dendogram, in
the group corresponding to Geastrum genus, it could be observed that species with
lignicolous habitat clustered in a clade with high support values. So, the results suggest
the creation of a new genus to accommodate A. floriformis, and the revalidation of
Itajahya, as well as it can be affirmed that the lignicolous habitat on the Geastrum
genus in fact indicates parental relationships, and that it has arised only once at the
evolutionary history of the genus / Os fungos gasteroides s?o reconhecidos pela matura??o dos basidi?sporos dentro do
basidioma, cuja libera??o ocorre de forma passiva. Esses fungos j? foram vistos como
uma classe bem definida de Basidiomycota, mas atualmente s?o considerados um grupo
artificial, por tratar-se de organismos com hist?rias evolutivas independentes formando
um grupo polifil?tico com grande diversidade morfol?gica. Apesar da grande
diversidade, estudos com esse grupo nos tr?picos ainda ? incipiente, e as rela??es
filogen?ticas com esp?cies de regi?es temperadas permanecem desconhecidas. Dessa
forma, objetivou-se neste trabalho elucidar as rela??es filogen?ticas de fungos
gasteroides das ordens Geastrales e Phallales, com a inclus?o de esp?cies tropicais e de
regi?es temperadas, e atrav?s dessas an?lises conhecer a rela??o de Asero? floriformis e
Phallus roseus com outros membros do grupo, assim como verificar se o h?bito
lign?cola em Geastrum pode indicar rela??o de parentesco. Para isso, coletas de
basidiomas foram realizadas em ?reas de Mata Atl?ntica em per?odo chuvoso, com a
identifica??o dos esp?cimes seguindo bibliografia espec?fica para fungos gasteroides.
Para as an?lises filogen?ticas foram utilizados os m?todos de M?xima Parcim?nia e
An?lise Bayesiana, utilizando-se os genes nucleares RPB2 e 28S, e o gene mitocondrial
atp6. Observou-se no dendograma obtido para a ordem Phallales, que Asero? floriformis
n?o se agrupou com A. rubra, apresentando diverg?ncia anterior a todas as esp?cies da
fam?lia Clathraceae utilizadas na an?lise, assumindo uma posi??o basal no clado. J?
Phallus roseus, antes reconhecido como Itajahya, possui diverg?ncia anterior ao grupo
formado pelas esp?cies de Phallus. No dendograma da ordem Geastrales, no
grupamento correspondente ao g?nero Geastrum, p?de-se observar esp?cies que
possuem h?bito lign?cola se agrupando com alto valor de suporte. Assim, os resultados
sugerem a cria??o de um novo g?nero para acomodar A. floriformis, e a revalida??o do
g?nero Itajahya, assim como se pode afirmar que o h?bito lign?cola em Geastrum de
fato indica rela??es de parentesco, aparentemente tendo surgindo apenas uma vez na
hist?ria evolutiva do grupo
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Identifica??o de esp?cies de carn?voros (mammalia, carn?vora) utilizando sequ?ncias de DNA e sua aplica??o em amostras n?o-invasivasChaves, Paulo Bomfim 20 March 2008 (has links)
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Previous issue date: 2008-03-20 / Sequ?ncias de DNA usadas na identifica??o de material biol?gico t?m alcan?ado consider?vel
popularidade nos ?ltimos anos, especialmente no contexto dos c?digos de barras de DNA. Aferir a
esp?cie de origem em amostras de pelos, penas, peles e particularmente fezes ? um passo
fundamental para quem estuda a ecologia e evolu??o de diversos animais com este tipo de amostra.
Este ? o caso em carn?voros, cujos h?bitos furtivos e baixas densidades populacionais de algumas
esp?cies evidenciam a import?ncia de estudos baseados em amostras n?o-invasivas. Entretanto a
atual escassez de ensaios padronizados de identifica??o de carn?voros freq?entemente dificulta a
aplica??o dessas amostras em larga escala e compara??es de resultados entre diferentes localidades.
No presente estudo n?s avaliamos dois segmentos curtos (<250 pb) de DNA mitochondrial (mtDNA)
localizados nos genes ATP sintase 6 e citocromo oxidase I com potencial de servirem como
marcadores-padr?o para identifica??o de carn?voros. Entre um e 11 indiv?duos de 66 esp?cies de
carn?voros foram seq?enciados para um ou ambos os segmentos do mtDNA e analisados usando tr?s
diferentes m?todos (?rvore de dist?ncia, dist?ncia gen?tica e an?lise de caracteres). Em geral,
indiv?duos conspec?ficos apresentaram menor dist?ncia gen?tica entre si do que em rela??o a outras
esp?cies, formando agrupamentos monofil?ticos. Exce??es foram algumas esp?cies que divergiram
recentemente, algumas das quais ainda puderam ser identificadas pelo m?todo de caracteres,
hapl?tipos esp?cie-espec?ficos, ou reduzindo a abrang?ncia geogr?fica das compara??es (restringindo
a an?lise a uma regi?o zoogeogr?fica). An?lises in silico, usando um segmento curto do citocromo b
freq?entemente empregado em carn?voros, tamb?m foram realizadas para comparar o desempenho
deste segmento em rela??o aos outros dois propostos. N?s ent?o testamos o desempenho destes
segmentos na identifica??o de fezes de carn?voros por meio de tr?s estudos de caso: (i) fezes de
felinos de zool?gico, objetivando-se verificar o potencial de contamina??o das seq?encias com DNA da
presa (coelho); (ii) fezes coletadas no Cerrado brasileiro contendo restos de presas (p?los, ossos,
penas), supostamente proveniente de lobo-guar?, objetivando-se investigar a efici?ncia de identifica??o
do predador e ocorr?ncia de interfer?ncia do DNA da presa na identifica??o; e (iii) fezes coletadas em
uma reserva na Mata Atl?ntica, tamb?m com o objetivo de avaliar a efici?ncia de identifica??o. Apesar
de diferen?as em alguns aspectos de sua performance, nossos resultados indicam que os dois
segmentos propostos t?m um bom potencial de servir como marcadores moleculares eficientes para
identifica??o acurada de amostras de carn?voros ao n?vel de esp?cie. / DNA sequences for species-level identification of biological materials have achieved considerable
popularity in the last few years, especially in the context of the DNA barcoding initiative. Species
assignment of biological samples such as hairs, feathers, pelts and particularly faeces is a crucial step
for those interested in studying ecology and evolution of many species with these samples. This is
especially the case for carnivores, whose elusive habits and low densities highlight the importance of
studies based on noninvasive samples. However, the current lack of standardized assays for
carnivore identification often poses challenges to the large-scale application of this approach, as well
as the cross-comparison of results among sites. Here we evaluate the potential of two short (<250 pb)
mitochondrial DNA (mtDNA) segments located within the genes ATP synthase 6 and cytochrome
oxidase I as standardized markers for carnivore identification. Between one and eleven individuals of
66 carnivore species were sequenced for one or both of these mtDNA segments and analyzed using
three different approaches (tree-based, distance-based and character-based), in conjunction with
sequences retrieved from public databases. In most cases, conspecific individuals had lower genetic
distances from each other relative to other species, resulting in diagnosable monophyletic clusters.
Notable exceptions were the more recently diverged species, some of which could still be identified
using diagnostic character attributes, species-specific haplotypes, or by reducing the geographic
scope of the comparison (restricting the analysis to a single zoogeographic region). Additional in silico
analyses using a short cytochrome b segment frequently employed in carnivore identification were
also performed aiming to compare performance to that of our two focal markers. We then tested the
performance of these segments in the identification of carnivore faeces via three case studies: (i) felid
faeces collected in a controlled zoo experiment, aimed at assessing whether DNA from rabbit prey
would contaminate the resulting sequences; (ii) field-collected faeces from the Brazilian Cerrado
presumed to be from maned wolves and containing prey remains (hairs, bones, feathers), aimed at
investigating the efficiency of predator identification and occurrence of prey DNA interference; and (iii)
field-collected scats from an Atlantic Forest study site, also addressing the issue of PCR success rate
and identification efficiency. In spite of some relevant differences in some aspects of their
performance, our results indicate that both of our focal segments have a good potential to serve as
efficient molecular markers for accurate species-level identification of carnivore samples.
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A MECHANISTIC STUDY OF AN iPSC MODEL FOR LEIGH’S DISEASE CAUSED BY MtDNA MUTATAION (8993 T>G)Galdun, John P 01 January 2016 (has links)
Mitochondrial diseases encompass a broad range of devastating disorders that typically affect tissues with high-energy requirements. These disorders have been difficult to diagnose and research because of the complexity of mitochondrial genetics, and the large variability seen among patient populations. We have devised and carried out a mechanistic study to generate a cell based model for Leigh’s disease caused by mitochondrial DNA mutation 8993 T>G. Leigh’s disease is a multi-organ system disorder that depends heavily on the mutation burden seen within various tissues. Using new reprogramming and sequencing technologies, we were able to show that Leigh’s disease patient fibroblasts reprogrammed to induced pluripotent stem cells maintain the same level of mutation burden seen in the original patient cell line. Mutation burden was maintained through several passages and spontaneous differentiation. This cell based model could be useful for future pathogenesis studies, or therapeutic drug screenings in a patient and tissue specific manner.
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Genetické a funkční příčiny mitochondriálních chorob vyvolaných defekty ATP syntázy / Genetic and functional characterisation of mitochondrial diseases caused by ATP synthase defectsTauchmannová, Kateřina January 2015 (has links)
Disorders of ATP synthase, the key enzyme of mitochondrial energy provision belong to the most severe metabolic diseases presenting mostly as early-onset mitochondrial encephalo-cardio-myopathies. Mutations in four nuclear genes can result in isolated deficiency of ATP synthase, all sharing a similar biochemical phenotype - pronounced decrease in the content of fully assembled and functional ATP synthase complex. The thesis summarises studies on two distinct causes of ATP synthase deficiency. First is TMEM70 protein, a novel ancillary factor of ATP synthase, which represents most frequent determinant of severe inborn deficiency of ATP synthase. TMEM70 is a 21 kDa protein of the inner mitochondrial membrane, facilitating the biogenesis of mitochondrial ATP synthase, possibly through TMEM70 protein region exposed to the mitochondrial matrix, but the proper regulatory mechanism remains to be elucidated. In TMEM70-lacking patient fibroblasts the low content of ATP synthase induces compensatory adaptive upregulation of mitochondrial respiratory chain complexes III and IV, interestingly by a posttranscriptional mechanisms. The second type of ATP synthase deficiency studied was mtDNA m.9205delTA mutation affecting maturation of MT-ATP8/MT-ATP6/MT-CO3 mRNA and thus biosynthesis of Atp6 (subunit a) and Cox3...
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Genetické a funkční příčiny mitochondriálních chorob vyvolaných defekty ATP syntázy / Genetic and functional characterisation of mitochondrial diseases caused by ATP synthase defectsTauchmannová, Kateřina January 2015 (has links)
Disorders of ATP synthase, the key enzyme of mitochondrial energy provision belong to the most severe metabolic diseases presenting mostly as early-onset mitochondrial encephalo-cardio-myopathies. Mutations in four nuclear genes can result in isolated deficiency of ATP synthase, all sharing a similar biochemical phenotype - pronounced decrease in the content of fully assembled and functional ATP synthase complex. The thesis summarises studies on two distinct causes of ATP synthase deficiency. First is TMEM70 protein, a novel ancillary factor of ATP synthase, which represents most frequent determinant of severe inborn deficiency of ATP synthase. TMEM70 is a 21 kDa protein of the inner mitochondrial membrane, facilitating the biogenesis of mitochondrial ATP synthase, possibly through TMEM70 protein region exposed to the mitochondrial matrix, but the proper regulatory mechanism remains to be elucidated. In TMEM70-lacking patient fibroblasts the low content of ATP synthase induces compensatory adaptive upregulation of mitochondrial respiratory chain complexes III and IV, interestingly by a posttranscriptional mechanisms. The second type of ATP synthase deficiency studied was mtDNA m.9205delTA mutation affecting maturation of MT-ATP8/MT-ATP6/MT-CO3 mRNA and thus biosynthesis of Atp6 (subunit a) and Cox3...
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