High resolution spectroscopy of methyltrioxorhenium: towards the observation of parity violation in chiral molecules

Originating from the weak interaction, parity violation in chiral molecules has been considered as a possible origin of the biohomochirality. It was predicted in 1974 but has never been observed so far. Parity violation should lead to a very tiny frequency difference in the rovibrational spectra of the enantiomers of a chiral molecule. We have proposed to observe this predicted frequency difference using the two photon Ramsey fringes technique on a supersonic beam. Promising candidates for this experiment are chiral oxorhenium complexes, which present a large effect, can be synthesized in large quantity and enantiopure form, and can be seeded in a molecular beam. As a first step towards our objective, a detailed spectroscopic study of methyltrioxorhenium (MTO) has been undertaken. It is an ideal test molecule as the achiral parent molecule of chiral candidates for the parity violation experiment. For the 187Re MTO isotopologue, a combined analysis of Fourier transform microwave and infrared spectra as well as ultra-high resolution CO2 laser absorption spectra enabled the assignment of 28 rotational lines and 71 rovibrational lines, some of them with a resolved hyperfine structure. A set of spectroscopic parameters in the ground and first excited state, including hyperfine structure constants, was obtained for the antisymmetric Re=O stretching mode of this molecule. This result validates the experimental approach to be followed once a chiral derivative of MTO will be synthesized, and shows the benefit of the combination of several spectroscopic techniques in different spectral regions, with different set-ups and resolutions. First high resolution spectra of jet-cooled MTO, obtained on the set-up being developed for the observation of molecular parity violation, are shown, which constitutes a major step towards the targeted objective.Comment: 20 pages, 6 figure

Adiposity, hormone replacement therapy use and breast cancer risk by age and hormone receptor status: a large prospective cohort study

INTRODUCTION: Associations of hormone-receptor positive breast cancer with excess adiposity are reasonably well characterized; however, uncertainty remains regarding the association of body mass index (BMI) with hormone-receptor negative malignancies, and possible interactions by hormone replacement therapy (HRT) use. METHODS: Within the European EPIC cohort, Cox proportional hazards models were used to describe the relationship of BMI, waist and hip circumferences with risk of estrogen-receptor (ER) negative and progesterone-receptor (PR) negative (n = 1,021) and ER+PR+ (n = 3,586) breast tumors within five-year age bands. Among postmenopausal women, the joint effects of BMI and HRT use were analyzed. RESULTS: For risk of ER-PR- tumors, there was no association of BMI across the age bands. However, when analyses were restricted to postmenopausal HRT never users, a positive risk association with BMI (third versus first tertile HR = 1.47 (1.01 to 2.15)) was observed. BMI was inversely associated with ER+PR+ tumors among women aged ≤49 years (per 5 kg/m2 increase, HR = 0.79 (95%CI 0.68 to 0.91)), and positively associated with risk among women ≥65 years (HR = 1.25 (1.16 to 1.34)). Adjusting for BMI, waist and hip circumferences showed no further associations with risks of breast cancer subtypes. Current use of HRT was significantly associated with an increased risk of receptor-negative (HRT current use compared to HRT never use HR: 1.30 (1.05 to 1.62)) and positive tumors (HR: 1.74 (1.56 to 1.95)), although this risk increase was weaker for ER-PR- disease (Phet = 0.035). The association of HRT was significantly stronger in the leaner women (BMI ≤22.5 kg/m2) than for more overweight women (BMI ≥25.9 kg/m2) for, both, ER-PR- (HR: 1.74 (1.15 to 2.63)) and ER+PR+ (HR: 2.33 (1.84 to 2.92)) breast cancer and was not restricted to any particular HRT regime. CONCLUSIONS: An elevated BMI may be positively associated with risk of ER-PR- tumors among postmenopausal women who never used HRT. Furthermore, postmenopausal HRT users were at an increased risk of ER-PR- as well as ER+PR+ tumors, especially among leaner women. For hormone-receptor positive tumors, but not for hormone-receptor negative tumors, our study confirms an inverse association of risk with BMI among young women of premenopausal age. Our data provide evidence for a possible role of sex hormones in the etiology of hormone-receptor negative tumors

Etude du rôle de la kinésine KIF21B au cours du développement cortical

The development of the cerebral cortex is a highly regulated process that is crucial for the establishment of functional cortical networks. Disruption of one or several of these steps can lead severe neurodevelopmental disorders that are associated with intellectual disabilities, epilepsies and cognitive impairment. Over the past few years, several genetic mutations in genes encoding either tubulin or microtubule-associated motors such as kinesins, have been found in individuals with neurodevelopmental disorders. Although kinesins have been found to be essential for a proper cortical development, the exact functions of kinesins in these processes are still poorly understood. My work clearly identified Kif21b, a poorly-known kinesin, as a novel key regulator of cortical development both in mouse and human. We show that Kif21b regulates both radial and tangential migration of cortical neurons, and identify four KIF21B variants in individuals presenting neurodevelopmental disorders. We show that ectopic expression of variants recapitulate phenotypes both in mice and zebrafish.Le développement du cortex cérébral se déroule selon des étapes bien définies qui sont essentielles à la formation d’un cerveau fonctionnel. La perturbation de l’une ou plusieurs de ces étapes peut conduire à des malformations neuro-développementales, responsables de différents troubles cognitifs, d’épilepsies ou encore de déficience intellectuelle. De nombreuses mutations dans des gènes codant pour les tubulines ou bien les kinésines, sont retrouvées chez des individus présentant diverses anomalies neuro-développementales. Bien que les kinésines soient impliquées dans le développement cortical, les mécanismes fonctionnels par lesquels elles conduisent aux malformations demeurent encore méconnus. Mon travail de thèse identifie la kinésine Kif21b, jusqu’alors peu connue, comme étant essentielle au développement cortical. Nous montrons que Kif21b régule la migration neuronale dans le cortex et identifions quatre variants chez des individus présentant des malformations neuro-développementales. Nous montrons que l’expression ectopique des variants chez la souris et le poisson zèbre récapitulent les phénotypes observés chez ces patients

Deciphering the role of Kif21b during cortical development

Le développement du cortex cérébral se déroule selon des étapes bien définies qui sont essentielles à la formation d’un cerveau fonctionnel. La perturbation de l’une ou plusieurs de ces étapes peut conduire à des malformations neuro-développementales, responsables de différents troubles cognitifs, d’épilepsies ou encore de déficience intellectuelle. De nombreuses mutations dans des gènes codant pour les tubulines ou bien les kinésines, sont retrouvées chez des individus présentant diverses anomalies neuro-développementales. Bien que les kinésines soient impliquées dans le développement cortical, les mécanismes fonctionnels par lesquels elles conduisent aux malformations demeurent encore méconnus. Mon travail de thèse identifie la kinésine Kif21b, jusqu’alors peu connue, comme étant essentielle au développement cortical. Nous montrons que Kif21b régule la migration neuronale dans le cortex et identifions quatre variants chez des individus présentant des malformations neuro-développementales. Nous montrons que l’expression ectopique des variants chez la souris et le poisson zèbre récapitulent les phénotypes observés chez ces patients.The development of the cerebral cortex is a highly regulated process that is crucial for the establishment of functional cortical networks. Disruption of one or several of these steps can lead severe neurodevelopmental disorders that are associated with intellectual disabilities, epilepsies and cognitive impairment. Over the past few years, several genetic mutations in genes encoding either tubulin or microtubule-associated motors such as kinesins, have been found in individuals with neurodevelopmental disorders. Although kinesins have been found to be essential for a proper cortical development, the exact functions of kinesins in these processes are still poorly understood. My work clearly identified Kif21b, a poorly-known kinesin, as a novel key regulator of cortical development both in mouse and human. We show that Kif21b regulates both radial and tangential migration of cortical neurons, and identify four KIF21B variants in individuals presenting neurodevelopmental disorders. We show that ectopic expression of variants recapitulate phenotypes both in mice and zebrafish

Deciphering the role of Kif21b during cortical development

Le développement du cortex cérébral se déroule selon des étapes bien définies qui sont essentielles à la formation d’un cerveau fonctionnel. La perturbation de l’une ou plusieurs de ces étapes peut conduire à des malformations neuro-développementales, responsables de différents troubles cognitifs, d’épilepsies ou encore de déficience intellectuelle. De nombreuses mutations dans des gènes codant pour les tubulines ou bien les kinésines, sont retrouvées chez des individus présentant diverses anomalies neuro-développementales. Bien que les kinésines soient impliquées dans le développement cortical, les mécanismes fonctionnels par lesquels elles conduisent aux malformations demeurent encore méconnus. Mon travail de thèse identifie la kinésine Kif21b, jusqu’alors peu connue, comme étant essentielle au développement cortical. Nous montrons que Kif21b régule la migration neuronale dans le cortex et identifions quatre variants chez des individus présentant des malformations neuro-développementales. Nous montrons que l’expression ectopique des variants chez la souris et le poisson zèbre récapitulent les phénotypes observés chez ces patients.The development of the cerebral cortex is a highly regulated process that is crucial for the establishment of functional cortical networks. Disruption of one or several of these steps can lead severe neurodevelopmental disorders that are associated with intellectual disabilities, epilepsies and cognitive impairment. Over the past few years, several genetic mutations in genes encoding either tubulin or microtubule-associated motors such as kinesins, have been found in individuals with neurodevelopmental disorders. Although kinesins have been found to be essential for a proper cortical development, the exact functions of kinesins in these processes are still poorly understood. My work clearly identified Kif21b, a poorly-known kinesin, as a novel key regulator of cortical development both in mouse and human. We show that Kif21b regulates both radial and tangential migration of cortical neurons, and identify four KIF21B variants in individuals presenting neurodevelopmental disorders. We show that ectopic expression of variants recapitulate phenotypes both in mice and zebrafish

Retinoic acid controls early neurogenesis in the developing mouse cerebral cortex

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Burning Potential of Fire Refuges in the Boreal Mixedwood Forest

International audienceIn boreal ecosystems, wildfire severity (i.e., the extent of fire-related tree mortality) is affected by environmental conditions and fire intensity. A burned area usually includes tree patches that partially or entirely escaped fire. There are two types of post-fire residual patches: (1) patches that only escaped the last fire; and (2) patches with lower fire susceptibility, also called fire refuges, that escaped several consecutive fires, likely due to particular site characteristics. The main objective of this study was to test if particular environmental conditions and stand characteristics could explain the presence of fire refuges in the mixedwood boreal forest. The FlamMap3 fire behavior model running at the landscape scale was used on the present-day Lake Duparquet forest mosaic and on four other experimental scenarios. FlamMap3 was first calibrated using BehavePlus and realistic rates of fire spread obtained from the Canadian Fire Behavior Prediction system. The results, based on thousands of runs, exclude the effects of firebreaks, topography, fuel type, and microtopography to explain the presence of fire refuges, but rather highlight the important role of moisture conditions in the fuel beds. Moist conditions are likely attributed to former small depressions having been filled with organic matter rather than present-day variations in ground surface topography

The kinesin Kif21b regulates radial migration of cortical projection neurons through a non-canonical function on actin cytoskeleton

International audienceCompletion of neuronal migration is critical for brain development. Kif21b is a plus-end-directed kinesin motor protein that promotes intracellular transport and controls microtubule dynamics in neurons. Here we report a physiological function of Kif21b during radial migration of projection neurons in the mouse developing cortex. In vivo analysis in mouse and live imaging on cultured slices demonstrate that Kif21b regulates the radial glia-guided locomotion of newborn neurons independently of its motility on microtubules. We show that Kif21b directly binds and regulates the actin cytoskeleton both in vitro and in vivo in migratory neurons. We establish that Kif21b-mediated regulation of actin cytoskeleton dynamics influences branching and nucleokinesis during neuronal locomotion. Altogether, our results reveal atypical roles of Kif21b on the actin cytoskeleton during migration of cortical projection neurons

Architectures de mémoire

La situation de transition que nous connaissons et qui fait cohabiter une culture du livre avec une culture de l’écran nous fait peu à peu basculer d’une raison graphique à une raison computationnelle. De la même manière que l’écriture a permis d’engendrer un mode particulier de pensée, où les listes, les tableaux et les formules ont joué un rôle primordial dans la modélisation des connaissances, avec le numérique s’inventent d’autres systèmes de mise en forme de l’information et de sa transmission. En effet, le développement du réseau, d’un vaste cyberespace, induit une rationalité particulière reposant sur le calcul plutôt que sur l’écriture, ce qui est la seule façon de le rendre intelligible. On comprend dès lors que les architectures de mémoire, dans leur actualisation contemporaine, essentiellement numérique, sont au cœur d’une transformation de l’esprit humain. Il est encore trop tôt pour déterminer exactement ce qu’il en est de cette transformation, mais il importe dès maintenant de tracer les contours de cette situation et d’explorer des pistes qui peuvent en baliser certains des aspects les plus saillants

Charcoal dispersion and deposition in boreal lakes from 3 years of monitoring: Differences between local and regional fires

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