Functional analysis of position effects of inversion 2j in Drosophila buzzatii gene CG13617 silencing and its adaptative significance /
- Autores: Marta Puig Font
- Directores de la Tesis: Mario Cáceres Aguilar (dir. tes.), Alfredo Ruiz Panadero (dir. tes.)
- Lectura: En la Universitat Autònoma de Barcelona ( España ) en 2010
- Idioma: inglés
- Tribunal Calificador de la Tesis: Montserrat Aguadé Porres (presid.), Tomàs Marques-Bonet (secret.), José M. Ranz (voc.)
- Materias:
- Enlaces
- Tesis en acceso abierto en: DDD
- Resumen
Chromosomal inversions have been known for a long time to be maintained by natural selection in Drosophila populations. However, the molecular mechanisms underlying their adaptive value remain uncertain. In D. buzzatii natural populations, inversion 2j forms a balanced polymorphism with the 2st arrangement, in which 2j individuals have a larger size and a longer developmental time compared to 2st carriers. In this work we tested the hypothesis that a position effect of one of the inversion breakpoints could be the cause of these phenotypic changes by analyzing the expression of a gene adjacent to the proximal breakpoint, CG13617, in D. buzzatii lines with and without inversion 2j. We have found that in 2j embryos an antisense RNA originated in a copy of a Galileo family transposon inserted at the breakpoint causes a 5-fold decrease of the expression level of CG13617. In order to investigate the functional consequences of the reduction in CG13617 expression, we have used RNA interference to reproduce this silencing in D. melanogaster. Microarray and real-time RT-PCR experiments comparing first instar larvae with and without CG13617 expression revealed that 41 genes show reduced expression levels when CG13617 is silenced, while none is up-regulated. Interestingly, genes involved in DNA replication and cell cycle are significantly enriched among those affected by CG13617 silencing. Nine out of ten of these genes analyzed in D. buzzatii also show a reduced expression level in 2j embryos, but not in first instar larvae, a stage where the CG13617 expression difference between chromosomal arrangements is lower and the antisense RNA is no longer transcribed. To gain insight into the potential function of this gene we have carried out a comprehensive nucleotide and protein sequence analysis in the 12 available Drosophila genomes and also in other organisms. CG13617 protein contains a conserved C2H2 zinc finger, three coiled coil regions, two PEST sequences, and putative nuclear localization and export signals, and shows similarity to human Dzip1 and zebrafish Iguana (a component of the Hedgehog signaling pathway) proteins, which indicates that its cellular role could be related to the transport of transcription factors in and out of the nucleus. These results suggest that gene CG13617 could be involved in the regulation of DNA replication and that the position effect in 2j carriers might contribute to explain the phenotypic differences observed between 2st and 2j individuals as well as the adaptive value of the inversion.
