Browsing by Subject "Drosophila melanogaster"

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    Generation of transgenic flies to uncover the role of the intrinsically disordered regions in transcriptional regulation using Drosophila melanogaster transcription factor Bicoid
    (2025-01) Akdoğan, Dilan
    Multicellular organisms develop from a single cell into a complex organism. Their development is strictly controlled by transcription factors that control the gene expression in a context-dependent manner, so that each gene is expressed at the right time and place. The specificity of transcription factors is determined mainly by their DNA-binding domains; however, their activity and interaction with DNA, proteins, and small molecules are modified by the effector domains (EDs). The EDs are generally low-complexity regions with high flexibility, often intrinsically disordered. Intrinsically disordered regions (IDRs), with their flexible and adaptable nature, help navigate protein activity in a context-dependent manner. The maternal morphogen Bicoid is a transcription factor responsible for the anterior development of Drosophila melanogaster embryos that regulates the expression of hundreds of genes responsible for Drosophila segmentation. It is absolutely required for embryo development and its absence results in the replacement of anterior structures by posterior ones. It consists of a 60 amino acid long structured homeodomain (HD) flanked by IDRs on both amino- and carboxyl termini. Through full Bicoid and HD swap experiments between D.melanogaster, Lucilia sericata, and Calliphora vicina, we found disordered EDs are required for Bicoid's full developmental functions. We used the Drosophila genetic manipulation tool recombinase-mediated cassette exchange to generate Bicoid ED mutant flies. We aim to elucidate the role of IDRs in regulating the activity of Bicoid via phenotypical and molecular analyses.
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    Odour intensity learning in fruit flies
    (2009) Yarali, A.; Ehser, S.; Hapil F.Z.; Huang J.; Gerber, B.
    Animals' behaviour towards odours depends on both odour quality and odour intensity. While neuronal coding of odour quality is fairly well studied, how odour intensity is treated by olfactory systems is less clear. Here we study odour intensity processing at the behavioural level, using the fruit fly Drosophila melanogaster. We trained flies by pairing a MEDIUM intensity of an odour with electric shock, and then, at a following test phase, measured flies' conditioned avoidance of either this previously trained MEDIUM intensity or a LOWer or a HIGHer intensity. With respect to 3-octanol, n-amylacetate and 4-methylcyclohexanol, we found that conditioned avoidance is strongest when training and test intensities match, speaking for intensity-specific memories. With respect to a fourth odour, benzaldehyde, on the other hand, we found no such intensity specificity. These results form the basis for further studies of odour intensity processing at the behavioural, neuronal and molecular level. © 2009 The Royal Society.