Light perception in two mole-rat species, the silvery mole-rat \kur{(Heliophobius argenteocinereus)} and the giant mole-rat \kur{(Fukomys mechowii)}. / Light perception in two mole-rat species, the silvery mole-rat \kur{(Heliophobius argenteocinereus)} and the giant mole-rat \kur{(Fukomys mechowii)}.

KOTT, Ondřej

January 2008

Sight in subterranean mammals living in a dark ecotope has generally been assumed as not needed and therefore greatly diminished in its function. Recent neuroanatomical studies demonstrate unexpected preservation of the visual system of several African mole-rats (Bathyergidae, Rodentia). Only a few behavioural studies, testing visual abilities and discussing their adaptive significance in these rodents, have been published to date. A spontaneous preference to light stimuli of two mole-rat species, the silvery mole-rat (Heliophobius argenteocinereus) and the giant mole-rat (Fukomys mechowii), was tested in this study. Assessed results showed convincingly that both species are able to perceive light. The following experiments provided the first behavioural support to the perception of short-wavelengths in this intensively studied group of subterranean rodents.

Hodnocení oslnění exteriérových osvětlovacích soustav / Glare evaluation of exterior lighting systems

Rampák, Dominik

January 2021

Glare is an important, but often overlooked parameter in lighting systems design. This parameter can significantly affect human biorhythm, causing a discomfort or in the worst cases it can dazzle drivers, which can lead to car accidents. Therefore, it´s necessary for lighting designers to consider glare in their designs, specifically threshold increment value. This thesis focuses on glare measurement caused by exterior lighting systems and comparison of usage different types of camera lens for threshold increment measurements with luminance analyser. For a better understanding of the whole issue, there is a part describing how human eye perceives light, which is followed by definition and division of the glare. Afterwards, there is part describing calculation procedure of the threshold increment, which serves as a basis for the practical part of the thesis. Practical part of the thesis is dedicated to experimental measurement of glare from exterior lighting system on Technická street, right behind VUT FEKT T12 building. The measurement is done using luminance analyser and the LumiDISP program, while 3 lenses are used for the measurements. The output of this thesis are values of threshold increment obtained by using 4 different methods (3 lenses) and subsequent comparison of the suitability of the lenses for the glare measurements. To supplement, a simulation of the measured lighting system in the Relux program and a subsequent comparison of the results with the measured values are performed.

Caractérisation moléculaire de la transmission lumineuse vers l'horloge circadienne de la microalgue Ostreococcus tauri / Molecular characterization of light input to the circadian clock of the microalga Ostrococcus tauri

Djouani Tahri, El-batoul

21 November 2011

Les microalgues du phytoplancton sont exposées à des variations fréquentes et rapides de la qualité et de l'intensité spectrale en milieu marin. On peut donc supposer qu'il existe des mécanismes de photoperception spécifiques aux microalgues, différents de ceux identifiés chez les organismes terrestres. L'importance de l'horloge circadienne dans la transmission de l'information lumineuse et notamment la photopériode a largement été caractérisée chez plusieurs organismes modèles terrestres. Le principal objectif de ma thèse était d'étudier les régulations des gènes de l'horloge en réponse à la lumière, chez la microalgue Ostreococcus tauri. Le développement récent des techniques de génomique fonctionnelle chez cette microalgue eucaryote l'a promue comme un nouvel organisme modèle pour l'étude de mécanismes complexes tels que horloge circadienne. Mon étude s'est focalisée sur la caractérisation d'une voie de signalisation de type système à deux composants susceptible de transmettre le signal lumineux vers l'oscillateur central de l'horloge. J'ai étudié les régulations des principaux acteurs de l'horloge d'Ostreococcus par la lumière, et en particulier celles du gène TOC1. J'ai aussi caractérisé la protéine LOV-HK, un nouveau type de photorécepteur à la lumière bleue chez les eucaryotes, dont l'activité est requise pour le bon fonctionnement de l'horloge d'Ostreococcus. L'importance des régulations transcriptionnelles de TOC1 et de LOV-HK, ainsi que leurs fonctions dans l'oscillateur central ont été abordées par l'utilisation d'un promoteur inductible. Enfin, j'ai montré que LOV-HK et plus globalement l'horloge régulent la croissance cellulaire et la biomasse, démontrant leur rôle central dans le contrôle de la physiologie d'Ostreococcus tauri. / Light quality and intensity change frequently in the water column. Therefore marine microalgae are exposed to large changes in light spectrum. Photoperception mechanisms in microalgae are expected to differ from those of land plants since the marine environment has unique properties of light transmission. The focus of my PhD project concerns two mains topics, circadian clock regulation and photoperception in the microalga Ostreococcus tauri. In recent years, O. tauri has emerged as a promising model organism using functional genomics approaches to study complex processes such as the circadian clock regulations. My study was focused on the involvement of a two components system in light transmission to the circadian clock of Ostreococcus. I have studied the molecular mechanisms underlying the regulation of the core clock component TOC1. I have also characterized a novel eukaryotic blue light photoreceptor called LOV-HK, which regulates circadian clock function in Ostreococcus. Using an inducible promoter system to modulate the levels of TOC1 and LOV-HK, I have analyzed the importance of their transcriptional regulations in the clock. Finally, I have shown that LOV-HK and more generally the circadian clock, regulates cell growth and biomass in Ostreococcus tauri.

Horloge circadienne

Ostreococcus tauri

Perception de la lumière

Photorecepteur

Circadian clock

Ostreococcus tauri

Light perception

Photoreceptor