Spatio-temporal regulation of hunchback during the zygotic genome activation in Drosophila / La régulation spatio-temporelle du gène hunchback pendant l'activation du génome zygotique chez la drosophile

Lucas, Tanguy

25 September 2015

Les gradients morphogénétiques contrôlent l'émergence de polarités axiales au cours du développement. Bien que la dynamique d'établissement de ces gradients soit bien comprise, la précision des mécanismes d'activation agissant en aval restent à élucider. Nous abordons cette question avec le gradient de Bicoid qui fournit rapidement une réponse transcriptionnelle robuste dans l'embryon de drosophile. Cette robustesse survient malgré le challenge imposé par de fréquentes mitoses dépourvues de transcription. Un calcul théorique intégrant les paramètres physiques de Bicoid (concentration, diffusion) indique que la mesure précise de concentration de Bicoid ne peut être effectuée à chaque interphase en 5-6mn. Il a donc été proposé que l'acquisition rapide de cette robustesse repose sur une mémorisation de l'état transcriptionnel au cours des divisions. Pour tester cette hypothèse, j'ai adapté à l'embryon de drosophile le système MS2 d'étiquetage des ARN dans les cellules vivantes et démontré qu'il permettait de suivre la dynamique transcriptionnelle dans un organisme pluricellulaire vivant. De manière inattendue, le rapporteur MS2 s'exprime aussi postérieurement ce qui m'a empêché de tester l'hypothèse de mémorisation. J'ai montré que cette expression postérieure est due à la présence de sites de fixation pour le facteur de transcription Zelda dans la cassette MS2. Un nouveau rapporteur MS2, dépourvu de ces sites récapitule l'expression endogène et fournit un outil de choix pour tester l'hypothèse de mémorisation. Ce travail ouvre de nouvelles perspectives pour comprendre la dynamique transcriptionnelle sur laquelle repose l'émergence des patrons d'expression développementaux. / Morphogen gradients provide concentration-dependent positional information along polarity axes. Although the dynamics of these gradients is well described, precision and noise in the activation processes acting downstream remain unclear. To address this question, we study the response to the Bicoid gradient that elicits very rapidly a robust transcriptional response in young fly embryos. This robustness occurs despite the challenge imposed by frequent mitoses during which transcription is interrupted suggesting that nuclei measure the Bicoid concentration during the 5-6 mn interphases. Modeling using statistical mechanics and Bicoid physical parameters do not account for accurate measurement of Bicoid concentration in such a short period. It was proposed that rapid robustness of the Bicoid response relies on a memorization process allowing nuclei to recall Bicoid concentration from previous cycles. To understand how the Bicoid system resists to the challenge imposed by mitosis, I have adapted the MS2 RNA-tagging approach to fly embryos and shown that it can be used to quantify transcription dynamics in a living multicellular organism. Unexpectedly, the MS2 reporter was also expressed in the posterior of the embryo making it impossible to directly test the memorization hypothesis. I have shown that this posterior expression is due to binding sites for the transcription factor Zelda unexpectedly localized in the MS2 cassette. A newly engineered MS2 reporter removing those sites faithfully reproduces the endogenous expression providing a powerful tool to test the memory hypothesis. This work opens new avenue to decipher the transcription dynamics underlying pattern formation.

Transcription

Gradient morphogénétique

Développement

Expression des gènes

Embryon

Bicoid

Hunchback

Morphogen gradient

Embryos

Bicoid

571.8

Noise and Robustness downstream of a morphogen gradient: Quantitative approach by imaging transcription dynamics in living embryos

Perez Romero, Carmina Angelica

January 2019

This thesis was done in collaboration with Sorbonne University as part of a double degree Cotutelle. / During development, cell differentiation frequently occurs upon signaling from concentration or activity gradients of molecules called morphogens. These molecules control in a dose-dependent manner the expression of sets of target genes that determine cell identity. A simple paradigm to study morphogens is the Bicoid gradient, which determines antero-posterior patterning in fruit fly embryos. The Bicoid transcription factor allows the rapid step-like expression of its major target gene hunchback, expressed only in the anterior half of the embryo. The general goal of my thesis was to understand how the information contained in the Bicoid morphogen gradient is rapidly interpreted to provide the precise expression pattern of its target. Using the MS2 system to fluorescently tag specific RNA in living embryos, we were able to show that the ongoing transcription process at the hunchback promoter is bursty and likely functions according to a two-state model. At each nuclear interphase, transcription is first observed in the anterior and it rapidly spreads towards the posterior, as expected for a Bicoid dose-dependent activation process. Surprisingly, it takes only 3 minutes from the first hints of transcription at the anterior to reach steady state with the setting of a sharp expression border in the middle of the embryo. Using modeling taking into account this very fast dynamics, we show that the presence of only 6 Bicoid binding sites (known number of sites in the hunchback promoter) in the promoter, is not sufficient to explain the establishment of a sharp expression border in such a short time. Thus, either more Bicoid binding sites or inputs from other transcription factors could help reconcile the model to the data. To better understand the role of transcription factors other than Bicoid in this process, I used a two-pronged strategy involving synthetic MS2 reporters combined with the analysis of the hunchback MS2 reporter in various mutant backgrounds. I show that the pioneer factor Zelda and the Hunchback protein itself are also critical for hunchback expression, maternal Hunchback acting at nuclear cycle 11-12, while zygotic Hunchback is acting later at nuclear cycle 13-14. The synthetic reporter approach indicate that in contrast to Hunchback and Caudal, Bicoid is able to activate transcription on its own when bound to the promoter. However, the presence of 6 Bicoid binding sites only leads to stochastic activation of the target loci. Interestingly, the binding of Hunchback to the Bicoid-dependent promoter reduces this stochasticity while Caudal might act as a posterior repressor gradient. Confronting these experimental data to theoretical models is ongoing and should allow to better understand the role of transcription factors, other than Bicoid, in hunchback expression at the mechanistic level. / Thesis / Doctor of Philosophy (PhD) / Have you ever wondered how a single cell can become a full grown organism? Well it starts when an egg and sperm fuse together. As time passes this single cell divides over and over again until an organism is formed. During this developmental process, somehow the cells know exactly where they are and what they need to become so that they form the organism. However, we don’t fully understand this process and this is what we hope to answer with our research: How do the cells know where they are and what they need to become during development? We study this process in the fruit fly. Although fruit flies might not look a lot like us, during early embryonic development we are quite similar, so we can try to answer these questions in fruit flies and what we find might be relevant to other organisms like us. During development, the first element that an embryo needs to know is the orientation of its body, where the head and tail, the left and right and the back and front of the body will be. We concentrate on studying how the head to tail axis, which we call the anterior-posterior axis, is formed. To know where the head is going to be, the embryo releases proteins called morphogens that broadcast instructions to other genes so that cells know where they are and what they should become. We study a morphogen called Bicoid. Its concentration is high in the anterior, the region that will become the head of the embryo, and lower as you move towards the posterior where the tail will form. Bicoid activates a gene called hunchback, which ends up dividing the embryo in two large parts, the top and the bottom. However, Bicoid’s message fades away during each cell division and needs to be read again at the beginning of each new nuclear cycle. So how is the message read and how long does this process take? This last question is particularly critical during the period of very fast cell division. My thesis tries to answer this question. We found out that it takes 3 minutes for a nuclei to read the Bicoid concentration, activate hunchback and express it correctly. However, in contrast to what was believed before, or namely, that only Bicoid was involved in this process, we found out that other players are involved in helping relay this message. This way hunchback can accurately divide the body in two parts exactly in the middle and without mistake in such a short period of time.

embryonic development

bicoid

drosphila melanogaster

hunchback

gene networks

quantitative live imaging

Evolution of Bicoid-dependent hunchback Regulation in Diptera / Evolution von Bicoid-abhängiger hunchback Regulation in Diptera

Lemke, Steffen Joachim

26 June 2006

No description available.

570 Biowissenschaften

Biologie

42.21

42.23

WKL 000: Evolution

Phylogenie {Entwicklungsbiologie}

WKF 300: Embryologie

Wachstum {Entwicklungsbiologie}

Svět Arltových povídek / The world of Arlt's tales

Bláhová, Tereza

January 2013

The main focus of this thesis is the interpretation of the view of the world in two of the short stories of Argentinean writer Roberto Arlt. The thesis is based on essay of the foundation, evolution and theory of short story. Both the global point of view and the perspectives of Hispano-American authors Horacio Quiroga, Julio Cortázar and Jorge Luis Borges are considered. In addition, this work describes Argentinean society at the turn of the 19th into the 20th century, the society being the main period of Arlt's pieces. The context of the literature in Buenos Aires in the 1920s and 1930s is also described to introduce the writer's position among his contemporaries. A brief introduction of Roberto Arlt's biography and writings is included as background. All of these factors are addressed in the analysis of the short stories "The Little Hunchback" and "Ester Primavera." The analysis is targeted at the style and method used to create the short stories and about the acts and life situations of its characters. Arlt's integration of lower social class and colloquial language in literature, his interest in the individual existence, and the gradual elimination of the boundary between reality and fiction, inspired many writers of the following generation.