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A study of the HCV IRES variability: An experimental approach coupled with design of a large-scale mutation database
Khawaja, Anas Ahmad ; Pospíšek, Martin (advisor) ; Hirsch, Ivan (referee) ; Valášek, Leoš (referee)
Translation initiation in the hepatitis C virus (HCV) occurs through a cap- independent mechanism that involves an internal ribosome entry site (IRES) capable of interaction with and utilization of the eukaryotic translational machinery. We focused on the structural configuration of the different HCV-IRES domains and the impact of IRES primary sequence variations on secondary structure conservation and function. For this purpose we introduced into our laboratory, methods such as denaturing gradient and temperature gradient gel electrophoresis for screening the degree of heterogeneity and total amount of HCV-IRES variability accumulated in HCV infected patients over a period of time. The selected samples showed variable migration pattern of the HCV-IRES (from all the patients) visualized in DGGE and TGGE, were sequenced and evaluated for translation efficiency using flow cytometry. In some cases, we discovered that multiple mutations, even those scattered across different domains of HCV-IRES, led to restoration of the HCV-IRES translational activity, although the individual occurrences of these mutations were found to be deleterious. We propose that such observation may be attributed to probable long- range inter- and/or intra-domain functional interactions. We established a large-scale HCV-IRES...
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Variability of the IRES elements of the hepatatis C virus
Zeman, Jakub ; Vopálenský, Václav (advisor) ; Španielová, Hana (referee)
Hepatitis C virus (HCV) has an internal ribosomal binding site (IRES) located near the 5ʹ end of its genome. The HCV IRES is capable of direct binding to the 40S small ribosomal unit and eukaryotic initiation factor eIF3, and can initiate translation after the assembly of the whole 80S ribosome. Various molecular types can act as IRES inhibitors. Small molecule compounds seem to be the most promising agent for use in the clinic. The main objective of the thesis was to develop a system for searching for small molecule compound inhibitors of HCV IRES in a library of chemical compounds. Several variants of vector carrying bicistronic cassettes were prepared. After validating their functionality by transient transfection of mammalian cell cultures, mammalian stable cell lines were established. These stable cell lines will allow for automatization of the search for small molecule compound inhibitors of HCV IRES. Our second objective was to study the variability of HCV IRES sequences in patient samples. The samples were analysed by temperature gradient gel electrophoresis (TGGE). Select specimen were sequenced, cloned into a vector with bicistronic cassette and analysed by flow cytometry. In this was we evaluated the effect of specific mutations in the HCV IRES sequence on the level of IRES dependent...
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Influence of rRNA modifications on translation initiation in eukaryots
Kročová, Eliška ; Pospíšek, Martin (advisor) ; Kouba, Tomáš (referee)
Modifications of ribosomal RNA are present in every livivng organism. The function of rRNA modifications could be studied only when the process of modifications was described. Currently, scientists study not only individual modifications but also the importance of global level of modifications for maturation and function of ribosome. This thesis deals with the influence of 2'-O-methylation of citidine 1639 and adenosine 100 in 18S rRNA and uridine 2729 in 25S rRNA on initiation in yeast Saccharomyces cerevisiae with special attention of translation controlled by internal ribosome entry site (IRES). Strains with deletion in genes snR51, snR70 and duoble deletion in both genes were successfully created during my master study. Pilot experiments showed the importance of products of both genes in translation initiation.
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To cap or not to cap? Eukaryotic translation initiation with a special interest in human opportunistic pathogen C. albicans
Feketová, Zuzana ; Pospíšek, Martin (advisor) ; Půta, František (referee) ; Vanáčová, Štěpánka (referee)
Candida albicans belongs to serious human opportunistic pathogens, causing severe health complications to immunocompromised patients. To my best knowledge, it is the only organism that survives with unmethylated cap structures found on the 5'ends of mRNA molecules. Using functional assay, I demonstrated that orf19.7626 codes for C. albicans translation initiation factor 4E (Ca4E). We couldn't prove our hypothesis, that Ca4E could be responsible for the unmethylated cap recognition in our model organism S. cerevisiae. Candida sp. possesses also another rather unusual feature - ambiguous CUG codon. In most of the cases, CUG is decoded as a serine, but sometimes also as a leucine. This gives rise to a so called "statistical proteome". One CUG codon is also part of the mRNA coding for Ca4E protein, therefore two versions of Ca4E-Ca4ELeu and Ca4ESer -might occur in C. albicans simultaneously. Both of them are able to rescue deletion of S. cerevisiae eIF4E gene, but they confer temperature sensitivity to the heterologous host. This phenotype is more pronounced with the Ca4ELeu version. We observed milder temperature sensitive phenotype after co-expression of Ca4E together with C. albicans eIF4G (Ca4G). Conformational coupling between eIF4E and eIF4G leads to enhanced affinity of eIF4E to the cap...
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