Eukaryotic transcriptional regulation : from data mining to transcriptional profiling

Morgan, Xochitl Chamorro

25 January 2011

Survival of cells and organisms requires that each of thousands of genes is expressed at the correct time in development, in the correct tissue, and under the correct conditions. Transcription is the primary point of gene regulation. Genes are activated and repressed by transcription factors, which are proteins that become active through signaling, bind, sometimes cooperatively, to regulatory regions of DNA, and interact with other proteins such as chromatin remodelers. Yeast has nearly six thousand genes, several hundred of which are transcription factors; transcription factors comprise around 2000 of the 22,000 genes in the human genome. When and how these transcription factors are activated, as well as which subsets of genes they regulate, is a current, active area of research essential to understanding the transcriptional regulatory programs of organisms. We approached this problem in two divergent ways: first, an in silico study of human transcription factor combinations, and second, an experimental study of the transcriptional response of yeast mutants deficient in DNA repair. First, in order to better understand the combinatorial nature of transcription factor binding, we developed a data mining approach to assess whether transcription factors whose binding motifs were frequently proximal in the human genome were more likely to interact. We found many instances in the literature in which over-represented transcription factor pairs co-regulated the same gene, so we used co-citation to assess the utility of this method on a larger scale. We determined that over-represented pairs were more likely to be co-cited than would be expected by chance. Because proper repair of DNA is an essential and highly-conserved process in all eukaryotes, we next used cDNA microarrays to measure differentially expressed genes in eighteen yeast deletion strains with sensitivity to the DNA cross-linking agent methyl methane sulfonate (MMS); many of these mutants were transcription factors or DNA-binding proteins. Combining this data with tools such as chromatin immunoprecipitation, gene ontology analysis, expression profile similarity, and motif analysis allowed us to propose a model for the roles of Iki3 and of YML081W, a poorly-characterized gene, in DNA repair. / text

Transcription factors

Transcriptional response

Transcriptional regulation

DNA repair

Transcription factor binding

Data mining

Human genome

Eukaryotes

Transcriptomic and Secretomic Profiling of Isolated Leukocytes Exposed to Alpha-Particle and Photon Radiation - Applications in Biodosimetry

Howland, Matthew

09 September 2013

The general public is at risk of ionising-radiation exposure. The development of high-throughput methods to triage exposures is warranted. Current biodosimetry techniques are low-throughput and encumbered by time and technical expertise. Although there has been an emergence of gene-profiling tools for the purpose of photon biodosimetry, similar capacities do not exist for alpha-particle radiation. Herein is the first genomic study useful for alpha-particle radiation biodosimetric triage. This work has identified robust alpha-particle induced gene-based biomarkers in isolated, ex-vivo irradiated leukocytes from multiple donors. It was found that alpha-particle and photon radiation elicited similar transcriptional responses, which could potentially be distinguished by aggregate-signature analysis. Although no distinct genes were sole indicators of exposure type, clustering algorithms and principal component analysis were able to demarcate radiation type with some success. By comparing the biological effects elicited by photon and alpha-particle radiation, significant contributions have been made to the field of radiation biodosimetry.

alpha-particle

ionising radiation

ionizing radiation

gene response

transcriptional response

photon

radiation

biodosimetry

dosimetry

gene profiling

miRNA profiling

bio-plex

Transcriptomic and Secretomic Profiling of Isolated Leukocytes Exposed to Alpha-Particle and Photon Radiation - Applications in Biodosimetry

Howland, Matthew

January 2013

The general public is at risk of ionising-radiation exposure. The development of high-throughput methods to triage exposures is warranted. Current biodosimetry techniques are low-throughput and encumbered by time and technical expertise. Although there has been an emergence of gene-profiling tools for the purpose of photon biodosimetry, similar capacities do not exist for alpha-particle radiation. Herein is the first genomic study useful for alpha-particle radiation biodosimetric triage. This work has identified robust alpha-particle induced gene-based biomarkers in isolated, ex-vivo irradiated leukocytes from multiple donors. It was found that alpha-particle and photon radiation elicited similar transcriptional responses, which could potentially be distinguished by aggregate-signature analysis. Although no distinct genes were sole indicators of exposure type, clustering algorithms and principal component analysis were able to demarcate radiation type with some success. By comparing the biological effects elicited by photon and alpha-particle radiation, significant contributions have been made to the field of radiation biodosimetry.

alpha-particle

ionising radiation

ionizing radiation

gene response

transcriptional response

photon

radiation

biodosimetry

dosimetry

gene profiling

miRNA profiling

bio-plex

Etude de la réponse au stress oxydatif de Scedosporium apiospermum, un champignon filamenteux associé à la mucoviscidose / Oxidative stress response of Scedosporium apiospermum, a filamentous fungus associated with cystic fibrosis

Staerck, Cindy

13 December 2017

La mucoviscidose est la maladie génétique la plus fréquente dans la population caucasienne. Le genre Scedosporium se situe au deuxième rang parmi les champignons filamenteux isolés des expectorations dans ce contexte. Au niveau pulmonaire, les colonisations/infections entraînent le recrutement de phagocytes qui induisent un stress oxydatif normalement délétère pour les pathogènes. Pour se défendre, ceux-ci ont développé des systèmes antioxydants, notamment diverses enzymes. Ce travail de thèse visait à étudier la réponse au stress oxydatif chez Scedosporium. Tout d’abord, la capacité à germer en présence d’oxydants a été évaluée. Par la suite, trente-trois gènes potentiellement impliqués dans la défense contre le stress oxydatif ont été identifiés. Leur expression en présence d’oxydants et en co-cultures avec des phagocytes suggère un rôle majeur, notamment pour une catalase, une peroxyrédoxine et deux thiorédoxine réductases. Par ailleurs, un mutant défectif pour un gène codant une superoxyde dismutase (SOD) pariétale et spécifique des spores a été produit. L’auranofin, un inhibiteur des thiorédoxine réductases, présente une activité vis-à-vis des Scedosporium et un effet additif avec des triazolés. Un test ELISA a été développé pour le sérodiagnostic des scédosporioses, utilisant une catalase et une Cu/Zn-SOD recombinantes. Ce test sensible et spécifique permet de distinguer les infections à Scedosporium de celles à Aspergillus fumigatus et des colonisations à Scedosporium. Au final, ces résultats indiquent un rôle majeur des enzymes antioxydantes chez Scedosporium, qui pourraient être de véritables facteurs de virulence et donc de nouvelles cibles thérapeutiques. / Cystic fibrosis (CF) is the most common genetic disease in Caucasian populations. The Scedosporium genus ranks the second among the filamentous fungi colonizing the airways of CF patients. In the respiratory tract, colonizations/infections lead to the recruitment of phagocytes which produce an oxidative stress, usually deleterious for pathogens. To defend themselves, pathogens have developed protective antioxidant systems, especially various enzymes. This thesis aimed to study the oxidative stress response in Scedosporium species. First, capacity of several Scedosporium isolates to germinate upon oxidative stress conditions was evaluated. Then, thirty-three genes potentially involved in protection against the oxidative stress were identified. Their overexpression in response to oxidants and in co-cultures with phagocytes suggested a crucial role, especially for one catalase, one peroxiredoxin and the two thioredoxin reductases. A mutant defective for the gene encoding a superoxide dismutase (SOD) anchored to the cell wall and specific for the conidia was produced. Auranofin, a thioredoxin reductase inhibitor, exhibits little anti-Scedosporium activity and an additive effect with triazole drugs. An ELISA was developed for serodiagnosis of scedosporiosis, using recombinant proteins derived from one catalase and a Cu/Zn-SOD. This sensitive and specific assay allows to differentiate Scedosporium infections from Aspergillus fumigatus infections and Scedosporium colonizations. Finally, these results indicate a crucial role of antioxidant enzymes in Scedosporium species, which could therefore be considered as virulence factors and as possible new therapeutic targets.

Réponse transcriptionnelle

Sérodiagnostic

Cu/Zn-SOD

Thiorédoxine réductases

Cystic fibrosis

Scedosporium

Oxidative stress

Transcriptional response

Serodiagnosis

Catalase

Cu/Zn- SOD

Thioredoxin reductases

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