Search results for "Dros"
showing 10 items of 1330 documents
DROSOPHILA
1993
Estudio biológico de este organismo. Ciclo biológico de la drosophila.
Separation of presynaptic Cav2 and Cav1 channel function in synaptic vesicle exo- and endocytosis by the membrane anchored Ca2+ pump PMCA
2021
Significance Synaptic vesicle (SV) release from presynaptic terminals requires nanometer precise control of action potential (AP)–triggered calcium influx through voltage-gated calcium channels (VGCCs). SV recycling also depends on calcium signals, though in different spatiotemporal domains. Mechanisms for separate control of SV release and recycling by AP-triggered calcium influx remain elusive. Here, we demonstrate largely independent regulation of release and recycling by two different populations of VGCCs (Cav2, Cav1), identify Cav1 as one of potentially multiple calcium entry routes for endocytosis regulation, and show functional separation of simultaneous calcium signals in the nanome…
How is the inner circadian clock controlled by interactive clock proteins?
2015
AbstractMost internationally travelled researchers will have encountered jetlag. If not, working odd hours makes most of us feel somehow dysfunctional. How can all this be linked to circadian rhythms and circadian clocks? In this review, we define circadian clocks, their composition and underlying molecular mechanisms. We describe and discuss recent crystal structures of Drosophila and mammalian core clock components and the enormous impact they had on the understanding of circadian clock mechanisms. Finally, we highlight the importance of circadian clocks for the daily regulation of human/mammalian physiology and show connections to overall fitness, health and disease.
Data from: Rapid diversification of sperm precedence traits and processes among three sibling Drosophila species
2013
Postcopulatory sexual selection is credited with driving rapid evolutionary diversification of reproductive traits and the formation of reproductive isolating barriers between species. This judgment, however, has largely been inferred rather than demonstrated due to general lack of knowledge about processes and traits underlying variation in competitive fertilization success. Here, we resolved processes determining sperm fate in twice-mated females, using transgenic Drosophila simulans and D. mauritiana populations with fluorescently-labeled sperm heads. Comparisons among these two species and D. melanogaster revealed a shared motif in the mechanisms of sperm precedence, with postcopulatory…
effects of early combined pheromone and food exposure on the behavioral development of adult drosophila melanogaster
2023
In Drosophila melanogaster, pheromonal communication is mainly mediated through sex-specific cuticular hydrocarbons (and derived compounds) and the male lipidic pheromone 11 - cis - Vaccényl Acétate (cVA). When deposited together on the feeding substrate they attract conspecifics males and females, promoting mating and collective behaviors. Initially described as stereotyped, recent findings showed that adult response to pheromones could be plastic and depend on the juvenile experience of an individual (i.e. imprinting). In this context, we studied cVA imprinting through its aggregative effect in individuals whose imprinting has been manipulated.The first goal, behavioral, was to study long…
Immuno-Fluorescence (IF) on interphase polytene chromosomes of Drosophila melanogaster
2008
The Function of Plastic Reproductive Behaviour in Drosophila melanogaster
2022
Phenotypic plasticity is a widespread phenomenon across the tree of life, with far reaching consequences for ecological and evolutionary processes. In species facing strong sexual selection and marked variation in the socio-sexual context in which they reproduce, adaptive plasticity in reproductive behaviour is expected to evolve. In this thesis, we aimed to contribute to this area of evolutionary biology research using the model organism Drosophila melanogaster. The results of this thesis offer a twist to the steadily growing literature of ageing via sensory perception by showing that socio-sexual cues so far documented to accelerate ageing mostly bear fitness benefits in ecologically rele…
Klf15 Is Critical for the Development and Differentiation of Drosophila Nephrocytes
2015
Insect nephrocytes are highly endocytic scavenger cells that represent the only invertebrate model for the study of human kidney podocytes. Despite their importance, nephrocyte development is largely uncharacterised. This work tested whether the insect ortholog of mammalian Kidney Krüppel-Like Factor (Klf15), a transcription factor required for mammalian podocyte differentiation, was required for insect nephrocyte development. It was found that expression of Drosophila Klf15 (dKlf15, previously known as Bteb2) was restricted to the only two nephrocyte populations in Drosophila, the garland cells and pericardial nephrocytes. Loss of dKlf15 function led to attrition of both nephrocyte populat…
How Many Clocks, How Many Times? On the Sensory Basis and Computational Challenges of Circadian Systems
2018
A vital task for every organism is not only to decide what to do but also when to do it. For this reason, “circadian clocks” have evolved in virtually all forms of life. Conceptually, circadian clocks can be divided into two functional domains; an autonomous oscillator creates a ~24 h self-sustained rhythm and sensory machinery interprets external information to alter the phase of the autonomous oscillation. It is through this simple design that variations in external stimuli (for example, daylight) can alter our sense of time. However, the clock’s simplicity ends with its basic concept. In metazoan animals, multiple external and internal stimuli, from light to temperature and even metaboli…
Serotonīna ietekme uz augļu mušu (Drosophila melanogaster) fototaksi
2022
Serotonīns ir iesaistīts daudzos svarīgos procesos dzīvo būtņu organismos, sākot no nervu impulsu pārraidi, garastāvokļa izmaiņām, depresiju un beidzot ar peristaltikas un zarnu trakta darbības regulēšanu. Cilvēka centrālā nervu sistēma psihisko slimību kontekstā ir sarežģīts mehānisms un tā izpēte tiešā veidā nav iespējama. Līdz ar to eksperimentos, depresijas un ar to saistītās uzvedības, izpētei vieglāk izmantot bioloģijā klasisko modeli – augļu mušas Drosophila melanogaster. Šī organisma bāziskas ķīmiskas reakcijas smadzenēs ir līdzīgas reakcijām, kas norisinās cilvēka smadzenēs; turklāt augļu mušas jau tiek izmantotas par cilvēka depresijas modeļorganismu. Eksperimentā tika izmantotas …