Analysis of the Frequency Locking Region of Coupled Oscillators Applied to 1-D Antenna Arrays

International audienceDuring the past decade, coupled oscillators have shown their efficiency as simple methods for phase control in microwave antenna arrays, and hence as alternatives to conventional electronic beam steering methods. In this paper, a new writing of the nonlinear equations proposed by R. York to describe the oscillators' locked states is presented. This has allowed the elaboration of a CAD tool which provides, in a considerably short simulation time, the frequency locking region of the coupled oscillators. This region is plotted versus the oscillators' tunings referred to the resonant frequency of the coupling circuit. A prototype circuit consisting of a five oscillators array is currently under test to validate the theory

A 2.4 GHz 1-Dimensional Array Antenna driven by Vector Modulators

International audienceThis paper aims to develop an intelligent radio-communication prototype using multiple-antenna phased array whose bearing can be controlled electronically. Such a system has proved its efficiency in terms of gain and SNR improvement. The architecture presented in this article runs at 2.4 GHz with a bandwidth channel of 11 MHz which is well suited for WIFI 802.11b applications. This original system uses quadrature modulators as active phase-shifters, and noise sensitivity is studied and simulated to prove the interest of this architecture. A circuit is under tests and first elementary active parts RF measurements are given

Endocrine Disruptors and nuclear hormone receptors : Study in fish models

Depuis le début des années 1990, de nombreuses équipes de recherche ont consacré leurs travaux à étudier les effets des perturbateurs endocriniens (PEs) sur l'homme et les espèces animales. Plusieurs polluants libérés dans l’environnement tels que les pesticides, les herbicides, les plastifiants industriels ou les résidus de médicaments ont ainsi le potentiel de perturber les équilibres hormonaux des organismes, induisant ainsi de graves conséquences sur leur développement et leur reproduction. Pour lutter contre ces dommages, diverses réglementations spécifiques et des systèmes de criblages se mettent en place pour détecter ces molécules. Ces systèmes doivent être rapides et fiables et les poissons téléostéens comme le medaka ou le poisson zèbre constituent d'excellents modèles pour détecter la présence de ces molécules et étudier leurs effets in vivo. Durant cette thèse nous avons étudié l’impact de certains PEs sur le développement embryonnaire en utilisant le poisson zèbre et le médaka comme modèle. Nous avons pu caractériser l'action du Bisphenol A sur la formation des otholites de l’oreille interne du poisson zèbre. En alliant des approches pharmacologiques et génétiques, nous avons identifié le récepteur nucléaire orphelin ERR comme une nouvelle cible in vivo de cette molécule. En parallèle, nous avons développé des lignées transgéniques rapportrices de médaka permettant de détecter la présence de polluants à activités androgénique ou anti-androgénique ce qui accroît ainsi la gamme des outils disponibles pour évaluer la présence des PEs dans les effluents liquides.Since the early 1990s, many research teams have devoted their work to study the effects of endocrine disruptors (EDCs) in humans and animal species. Many pollutants released into the environment such as pesticides, herbicides, industrial plasticizers or drug residues have the potential to disrupt bodies’ hormonal balances, thus inducing a severe impact on their development and reproduction. To fight against these damages, various specific regulations and screening systems are setting up to detect these molecules. These systems must be fast, reliable. Teleost fish such as medaka and zebrafish are excellent models to detect the presence of these molecules and study their effects in vivo. In this thesis, we studied the impact of certain EDCs on the embryonic development using zebrafish and medaka as models. We characterized the action of Bisphenol A on the otoliths formation in the inner ear of zebrafish. By combining genetic and pharmacological approaches, we identified the orphan nuclear receptor ERRγas a new target of this molecule in vivo. In parallel, we have developed reporter transgenic lines of medaka to detect the presence of pollutants containing androgenic or anti-androgenic activities and thereby increasing the range of tools available to assess the presence of EDCs in liquid effluents

Actualité du réseau ReCOL, un an après où en est la recherche clinique ?

International audienceUne proportion importante de l’actualité en dentisterie porte sur la longévité des obturations et les critères de décision objectifs pour leur réparation/remplacement. Ce sujet concerne directement la prise en charge quotidienne des patients en cabinet et fait l’objet d’un grand nombre de publications scientifiques. Nous proposons ici les résumés de trois d’entre elles ainsi qu’un exposé des initiatives développées actuellement au sein du réseau ReCOL, réseau présenté dans ces pages en octobre 2018

Tinkering signaling pathways by gain and loss of protein isoforms: the case of the EDA pathway regulator EDARADD

International audienceBACKGROUND: Only a handful of signaling pathways are major actors of development and responsible for both the conservation and the diversification of animal morphologies. To explain this twofold nature, gene duplication and enhancer evolution were predominantly put forth as tinkering mechanisms whereas the evolution of alternative isoforms has been, so far, overlooked. We investigate here the role of gain and loss of isoforms using Edaradd, a gene of the Ecodysplasin pathway, implicated in morphological evolution. A previous study had suggested a scenario of isoform gain and loss with an alternative isoform (A) newly gained in mammals but secondarily lost in mouse lineage. RESULTS: For a comprehensive view of A and B Edaradd isoforms history during mammal evolution, we obtained sequences for both isoforms in representative mammals and performed in vitro translations to support functional predictions. We showed that the ancestral B isoform is well conserved, whereas the mammal-specific A isoform was lost at least 7 times independently in terminal lineages throughout mammal phylogeny. Then, to gain insights into the functional relevance of this evolutionary pattern, we compared the biological function of these isoforms: i) In cellulo promoter assays showed that they are transcribed from two alternative promoters, only B exhibiting feedback regulation. ii) RT-PCR in various tissues and ENCODE data suggested that B isoform is systematically expressed whereas A isoform showed a more tissue-specific expression. iii) Both isoforms activated the NF-\kappaB pathway in an in cellulo reporter assay, albeit at different levels and with different dynamics since A isoform exhibited feedback regulation at the protein level. Finally, only B isoform could rescue a zebrafish edaradd knockdown. CONCLUSIONS: These results suggest that the newly evolved A isoform enables modulating EDA signaling in specific conditions and with different dynamics. We speculate that during mammal diversification, A isoform regulation may have evolved rapidly, accompanying and possibly supporting the diversity of ectodermal appendages, while B isoform may have ensured essential roles. This study makes the case to pay greater attention to mosaic loss of evolutionarily speaking "young" isoforms as an important mechanism underlying phenotypic diversity and not simply as a manifestation of neutral evolution

Needs for re-intervention on restored teeth in adults: a practice-based study

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Estrogen-related receptor γ is an in vivo receptor of bisphenol A

Bisphenol A (BPA) is an endocrine disruptor that displays estrogenic activity. Several reports suggest that BPA may have estrogen receptor-independent effects. In zebrafish, 50 μM BPA exposure induces otic vesicle abnormalities, including otolith aggregation. The purpose of this study was to test if BPA action was mediated in vivo during zebrafish development by the orphan nuclear estrogen related receptor (ERR) γ. Combining pharmacological and functional approaches, we demonstrate that the zebrafish ERRγ mediates BPA-induced malformations in otoliths. Using different bisphenol derivatives, we show that different compounds can induce a similar otolith phenotype than BPA and that the binding affinity of these derivatives to the zebrafish ERRγ correlates with their ability to induce otolith malformations. Morpholino knockdown of ERRγ function suppresses the BPA effect on otoliths whereas overexpression of ERRγ led to a BPA-like otolith phenotype. Moreover, a subphenotypical dose of BPA (1 μM) combined with ERRγ overexpression led to a full-dose (50 μM) BPA otolith phenotype. We therefore conclude that ERRγ mediates the otic vesicle phenotype generated by BPA. Our results suggest that the range of pathways perturbed by this compound and its potential harmful effect are larger than expected.—Tohmé, M., Prud’homme, S. M., Boulahtouf, A., Samarut, E., Brunet, F., Bernard, L., Bourguet, W., Gibert, Y., Balaguer, P., Laudet, V. Estrogen-related receptor γ is an in vivo receptor of bisphenol A