Browsing by Subject "Point mutation"
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- ItemOpen AccessMultiple origins and regional dispersal of resistant dhps in African Plasmodium falciparum malaria(Public Library of Science, 2009) Pearce, Richard J; Pota, Hirva; Evehe, Marie-Solange B; Bâ, El-Hadj; Mombo-Ngoma, Ghyslain; Malisa, Allen L; Ord, Rosalynn; Inojosa, Walter; Matondo, Alexandre; Diallo, Diadier ACally Roper and colleagues analyze the distribution of sulfadoxine resistance mutations and flanking microsatellite loci to trace the emergence and dispersal of drug-resistant Plasmodium falciparum malaria in Africa.
- ItemOpen AccessPotent sensitisation of cancer cells to anticancer drugs by a quadruple mutant of the human deoxycytidine kinase(Public Library of Science, 2015) Coulibaly, Safiatou T; Rossolillo, Paola; Winter, Flore; Kretzschmar, Franziska K; Brayé, Mélanie; Martin, Darren P; Lener, Daniela; Negroni, MatteoIdentifying enzymes that, once introduced in cancer cells, lead to an increased efficiency of treatment constitutes an important goal for biomedical applications. Using an original procedure whereby mutant genes are generated based on the use of conditional lentivector genome mobilisation, we recently described, for the first time, the identification of a human deoxycytidine kinase (dCK) mutant (G12) that sensitises a panel of cancer cell lines to treatment with the dCK analogue gemcitabine. Here, starting from the G12 variant itself, we generated a new library and identified a mutant (M36) that triggers even greater sensitisation to gemcitabine than G12. With respect to G12, M36 presents an additional mutation located in the region that constitutes the interface of the dCK dimer. The simple presence of this mutation halves both the IC50 and the proportion of residual cells resistant to the treatment. Furthermore, the use of vectors with self-inactivating LTRs leads to an increased sensitivity to treatment, a result compatible with a relief of the transcriptional interference exerted by the U3 promoter on the internal promoter that drives the expression of M36. Importantly, a remarkable effect is also observed in treatments with the anticancer compound cytarabine (AraC), for which a 10,000 fold decrease in IC50 occurred. By triggering the sensitisation of various cancer cell types with poor prognosis to two commonly used anticancer compounds M36 is a promising candidate for suicide gene approaches.