A study of the p21ras signalling pathway in leukaemic and non-leukaemic haematopoiesis

Bashey, Asad

January 1996

No description available.

572.8

Protein kinases; Gene mutations; AML

Évolution des réponses CD4 et CD8 dirigés contre le VIH au cours de l'infection

Kernaleguen, Anne-Elen

January 2005

Mémoire numérisé par la Direction des bibliothèques de l'Université de Montréal.

VIH

Réponse T

Prolifération

Évasion virale

Mutations

Macrolide resistance mechanisms in Enterobacteriaceae: Focus on azithromycin

Gomes, Cláudia, Martínez Puchol, Sandra, Palma, Noemí, Horna, Gertrudis, Ruiz-Roldán, Lidia, Pons, Maria J, Ruiz, Joaquim

27 October 2016

From its introduction in 1952 onwards, the clinical use of macrolides has been steadily increasing, both in human and veterinary medicine. Although initially designed to the treatment of Grampositive microorganisms, this antimicrobial family has also been used to treat specific Gram-negative bacteria. Some of them, as azithromycin, are considered in the armamentarium against Enterobacteriaceae infections. However, the facility that this bacterial genus has to gain or develop mechanisms of antibiotic resistance may compromise the future usefulness of these antibiotics to fight against Enterobacteriaceae infections. The present review is focused on the mechanisms of macrolide resistance, currently described in Enterobacteriaceae.

23S rRNA

Methylases

Esterases

Phospotransferases;

Ribosomal mutations

Induction of Visible Mutations in Mormoniella by Use of Low Frequency Ultrasonic Energy

Grubbs, Steven C.

08 1900

Low-frequency ultrasonic energy was utilized in an attempt to induce visible mutations in the parasitoid wasp Mormoniella vitripennis. This study demonstrates that low frequency ultrasound may be used as an effective mutagenic agent in this organism, and suggests that it may have applications to other genetic systems.

low frequency ultrasonic energy

mutations

Mormoniella vitripennis

Étude de l'impact d'une intervention d'observance sur le développement de la résistance aux antirétroviraux au Mali et au Burkina Faso

Sylla, Mohamed

January 2007

Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal.

Sous types du VIH

Mutations de résistance

Antirétroviral

Observance

BRAF mutace u metastazujícího maligního melanomu. / BRAF mutations in metastatic malignant melanoma.

Hrabcová, Veronika

January 2013

Bc.Veronika Hrabcová BRAF mutations in metastatic malignant melanoma. Diploma thesis Charles University in Prague, Faculty of Pharmacy in Hradec Králové Healthcare bioanalytics - Specialist in Laboratory Methods Backround: Melanoma is malignant disease with increasing incidency. Treatment of advanced stage of melanoma is still limited. With a progress of knowledge in genetics and tumorigenesis, the incidence of mutated BRAF protein was observed at 50 % of melanomas. In 80-90 % mutated melanomas contain BRAF V600E mutation. The aim of study was to establish a suitable molecular biological method for the diagnosis of mutations in codon V600 BRAF. Methods: Cobas 4800 BRAF V600 mutation test and BRAF StripAssay test were used to analyze DNA. Cobas 4800 BRAF V600 mutation test is based on PCR using TaqMan probes designed for the wild-type and mutant BRAF V600E sequence. BRAF StripAssay test is based on PCR amplification with biotinylated primers and subsequent hybridization of the stripped with allele-specific oligonucleotide probes. Examined DNA samples were derived from 35 patients with advanced malignant melanoma or from archive of laboratory. Results: BRAF V600 mutation was detected in approximately half of the tumors, consistent with the results of other studies. In comparison methods Cobas test...

Dissecting the genotype to phenotype relationships of genomic disorders

Hart, Lesley Ruth

January 2013

Over the last decade, major advances in the development and application of microarray-based comparative genomic hybridisation (aCGH) technology have significantly contributed to our understanding of Genomic Disorders. My aims here were to provide insight into the genotype to phenotype relationships of three Genomic Disorders; CUL4B-deleted X-Linked Mental Retardation (XLMR), Wolf-Hirschhorn Syndrome (WHS) and 16p11.2 Copy Number Variant Disorder. CUL4B encodes a structural component of the Cullin-RING-ligase 4-containing class of E3 ubiquitin ligases. CUL4B-deleted XLMR represents a syndromal form of mental retardation whereby patients exhibit other clinical features aside from the MR, such as seizures, growth retardation and disrupted sexual development. I used CUL4B-deleted patient-derived cell lines to investigate the impacts of CUL4B loss on mitochondrial function. I have shown that loss of CUL4B is associated with a distinct set of mitochondrial phenotypes, identifying CUL4B-deleted XLMR as a disorder associated with mitochondrial dysfunction. Furthermore, I have uncovered a reciprocal relationship between CUL4B and Cereblon, providing evidence of a potential role for the CUL4-CRBN E3 ligase complex in maintaining mitochondrial function. Deletion or duplication of the 16p11.2 region is associated with macro-/microcephaly respectively. Here, I have evaluated the cellular consequences of 16p11.2 CNV, specifically with regards KCTD13 expression, DNA replication and checkpoint activation. WHS is typically caused by a small hemizygous telomeric deletion of the 4p16.1 region. Haploinsufficiency of 4p16.1 is associated with microcephaly, growth retardation and complex developmental abnormalities. I investigated the impacts of LETM1 copy number change in WHS patient-derived cells. Here, I have shown that copy number change of LETM1 specifically segregates with mitochondrial dysfunction, likely underlying the seizure phenotype exhibited by the large subgroup of WHS patients whose deletions incorporate LETM1 as well as the rarer instances of the reciprocal duplication. In this thesis I use patient-derived cell lines from three Genomic Disorders as a fundamental tool providing new pathomechanistic insight into the clinical presentation of these conditions.

570

Investigating genome wide patterns of natural selection in eukaryotes

Gossmann, Toni Ingolf

January 2012

Mutations are the ultimate source of new genetic information and they can be neutral, harmful or beneficial. The ultimate fate of all mutations is either to be lost or to eventually become fixed in a population. In this thesis I investigate genome wide traces of natural selection in eukaryotes. I focus on the most common type of mutations, point mutations, in protein coding genes. I investigated whether there is adaptive evolution in 11 plant species comparisons by applying an extension of the McDonald Kreitman (MK) test and found little evidence of adaptive evolution. However, most of the investigated plant species have low effective population sizes (Ne) and the rate of adaptive evolution is thought to be correlated to Ne. I therefore extended my study using additional data from mammals, drosophilids and yeast to investigate the relationship between the rate of adaptive evolution and Ne. I found a highly significant correlation between the rate of adaptive evolution relative to the rate of neutral evolution (!a) and Ne. It has been proposed that evidence of adaptive evolution can be an artifact of fluctuating selection. I simulated a model of fluctuating selection, in which the average strength of selection acting upon mutations is zero. Under this model adaptive evolution is inferred using MK-type tests. However, the mutations which become fixed are on average positively selected. The signal of adaptive evolution is therefore genuine. Ne can not only vary between species but also across genomes. However, how much variation there is, and whether this affects the efficiency of natural selection, is unknown. I analysed 10 species and show that variation in Ne is widespread. However, this variation is limited, amounting to a few fold variation in Ne between most genomic regions. This is never-the-less sufficient to cause variation in the efficiency of selection.

576.58

Identification of Germline Alterations in the Mad-homology 2 (MH2) Domain of SMAD3 and SMAD4 In Breast Cancer Susceptibility

Tram, Eric

03 December 2012

A feature of neoplastic cells is that mutations in the key intermediates of TGF-β signaling contribute to the loss of sensitivity to its anti-tumor effects. The role of SMAD3 and SMAD4 germline mutations in breast cancer predisposition is currently unclear. To address this, mutation analysis of the Mad-Homology 2 domains in 408 breast cancer cases and 710 controls recruited by the Breast Cancer Family Registry (BCFR) was performed using Denaturing High-Pressure Liquid Chromatography. This study identified 23 distinct intronic variants, and three coding variants c.1214T>C, c.1478G>A, and c.1701A>G in SMAD4. No aberrant splicing was observed, but qPCR analysis and tissue expression data showed significantly elevated SMAD3 expression relative to controls (p<0.05). For SMAD4, c.1478G>A from a familial breast cancer case showed a 5-fold expression change. Taken together, inactivating alterations are not driving tumorigenesis. Rather, aberrant germline expression provides novel insight into SMAD3 and SMAD4’s roles in breast cancer predisposition.

Breast cancer

germline mutations

SMAD3

SMAD4

Bioinformatics

Identification of Germline Alterations in the Mad-homology 2 (MH2) Domain of SMAD3 and SMAD4 In Breast Cancer Susceptibility

Tram, Eric

03 December 2012

A feature of neoplastic cells is that mutations in the key intermediates of TGF-β signaling contribute to the loss of sensitivity to its anti-tumor effects. The role of SMAD3 and SMAD4 germline mutations in breast cancer predisposition is currently unclear. To address this, mutation analysis of the Mad-Homology 2 domains in 408 breast cancer cases and 710 controls recruited by the Breast Cancer Family Registry (BCFR) was performed using Denaturing High-Pressure Liquid Chromatography. This study identified 23 distinct intronic variants, and three coding variants c.1214T>C, c.1478G>A, and c.1701A>G in SMAD4. No aberrant splicing was observed, but qPCR analysis and tissue expression data showed significantly elevated SMAD3 expression relative to controls (p<0.05). For SMAD4, c.1478G>A from a familial breast cancer case showed a 5-fold expression change. Taken together, inactivating alterations are not driving tumorigenesis. Rather, aberrant germline expression provides novel insight into SMAD3 and SMAD4’s roles in breast cancer predisposition.

Breast cancer

germline mutations

SMAD3

SMAD4

Bioinformatics