579 research outputs found
Étude sur le rôle des déséquilibres génomiques dans le Syndrome d’Impatiences Musculaires de l’Éveil
Le Syndrome d’Impatiences Musculaires de l’Éveil (SIME) est une maladie neurologique caractérisée par un besoin urgent de bouger les jambes. C’est également l’une des causes les plus fréquentes d’insomnie. C’est une maladie très répandue, avec une prévalence de presque 15 % dans la population générale. Les maladies multifactorielles comme le SIME sont souvent le résultat de l’évolution d’une composante génétique et d’une composante environnementale. Dans le cadre du SIME, les études d’association génomique ont permis l’identification de 4 variants à effet modéré ou faible. Cependant, ces quatre variants n’expliquent qu’une faible partie de la composante génétique de la maladie, ce qui confirme que plusieurs nouveaux variants sont encore à identifier. Le rôle des déséquilibres génomiques (Copy Number Variations ou CNVs) dans le mécanisme génétique du SIME est à ce jour inconnu. Cependant, les CNVs se sont récemment positionnés comme une source d’intérêt majeur de variation génétique potentiellement responsable des phénotypes. En collaboration avec une équipe de Munich, nous avons réalisé deux études CNVs à échelle génomique (biopuces à SNP et hybridation génomique comparée (CGH)) sur des patients SIME d’ascendance germanique. À l’aide d’une étude cas-contrôle, nous avons pu identifier des régions avec une occurrence de CNVs différentes pour les patients SIME, comparés à différents groupes contrôles. L’une de ces régions est particulièrement intéressante, car elle est concordante à la fois avec des précédentes études familiales ainsi qu’avec les récentes études d’associations génomiques.Restless Legs syndrome (RLS) is a neurological disorder characterized by the urge to move one’s limbs. It is also one of the most frequent causes of insomnia. The prevalence of RLS is estimated to be around 15% in the general population. Complexes disorders like RLS are often the result of the evolution of genetic and environmental components. For RLS, recent Genome Wide Association Study (GWAS) have identified four variants with mild to moderate effects. However, those four variants explain only a small part of the disease heritability and thus, we expect that many new variants are still to be found. The impact of Copy-Number Variation (CNV) in the genetic mechanism of RLS is still unknown. However, many studies have recently position the CNVs as a significant source of genetic variation potentially responsible of phenotypes. In collaboration with a team from Munich, we conducted two genome-wide CNVs studies (Genome Wide SNP chips and Comparative Genomic Hybridization (CGH)) on RLS patients from Germany. Using cases-controls studies, we identified regions with a different occurrence of CNVs for RLS patients, compared to different groups of controls. One of these regions is particularly interesting, as it has already been identified by both linkage and association studies
Étude sur le rôle des mutations de novo dans l’étiologie génétique de la schizophrénie
La schizophrénie est une maladie psychiatrique grave qui affecte approximativement 1 % de la population. Il est clairement établi que la maladie possède une composante génétique très importante, mais jusqu’à présent, les études ont été limitées au niveau de l’identification de facteurs génétiques spécifiquement liés à la maladie. Avec l’avènement des nouvelles avancées technologiques dans le domaine du séquençage de l’ADN, il est maintenant possible d’effectuer des études sur un type de variation génétique jusqu’à présent laissé pour compte : les mutations de novo, c.-à-d. les nouvelles mutations non transmises de manière mendélienne par les parents. Ces mutations peuvent avoir deux origines distinctes : une origine germinale au niveau des gamètes chez les parents ou une origine somatique, donc au niveau embryonnaire directement chez l’individu.
L’objectif général de la présente recherche est de mieux caractériser les mutations de novo dans la schizophrénie. Comme le rôle de ces variations est peu connu, il sera également nécessaire de les étudier dans un contexte global au niveau de la population humaine. La première partie du projet consiste en une analyse exhaustive des mutations de novo dans la partie codante (exome) de patients atteints de schizophrénie. Nous avons pu constater que non seulement le taux de mutations était plus élevé qu’attendu, mais nous avons également été en mesure de relever un nombre anormalement élevé de mutations non-sens, ce qui suggère un profil pathogénique. Ainsi, nous avons pu fortement suggérer que les mutations de novo sont des actrices importantes dans le mécanisme génétique de la schizophrénie.
La deuxième partie du projet porte directement sur les gènes identifiés lors de la première partie. Nous avons séquencé ces gènes dans une plus grande cohorte de cas et de contrôles afin d’établir le profil des variations rares pour ces gènes. Nous avons ainsi conclu que l’ensemble des gènes identifiés par les études de mutations de novo possède un profil pathogénique, ce qui permet d’établir que la plupart de ces gènes ont un rôle réel dans la maladie et ne sont pas des artéfacts expérimentaux. De plus, nous avons pu établir une association directe avec quelques gènes qui montrent un profil aberrant de variations rares.
La troisième partie du projet se concentre sur l’effet de l’âge paternel sur le taux de mutations de novo. En effet, pour la schizophrénie, il est démontré que l’âge du père est un facteur de risque important. Ainsi, nous avons tenté de caractériser l’effet de l’âge du père chez des patients en santé. Nous avons observé une grande corrélation entre l’âge du père et le taux de mutations germinales et nous avons ainsi pu répertorier certaines zones avec un grand nombre de mutations de novo, ce qui suggère l’existence de zone chaude pour les mutations.
Nos résultats ont été parmi les premiers impliquant directement les mutations de novo dans le mécanisme génétique de la schizophrénie. Ils permettent de jeter un nouveau regard sur les réseaux biologiques à l’origine de la schizophrénie en mettant sous les projecteurs un type de variations génétiques longtemps laissé pour compte.Schizophrenia is a severe psychiatric disorder that affects roughly 1% of the general population. It has been clearly demonstrated that the disease possesses a strong genetic component, but thus far, studies have had limited success in identifying key schizophrenia genes. With the advent of new DNA sequencing technologies it is now possible to study a type of genetic variation that has been previously looked over: de novo mutations (new mutations not transmitted by parents)
The main aim of the present thesis is to better characterize de novo mutations in schizophrenia. As the role of these variations is not very well known, it was also necessary to study them in a global context in the human population. The first part of our project was to do a comprehensive study of de novo mutations found in the coding section (exome) of patients affected with schizophrenia. We found that the mutation rate was higher than expected. We also observed an aberrant number of nonsense mutations, which suggests a pathogenic profile of mutations. Thus, we strongly suggested that de novo mutations are key players in the genetic mechanism of schizophrenia.
The second part of the work builds on the genes bearing mutations identified in the exome sequencing analysis. We sequenced these genes in a larger cohort of cases and controls in order to establish the profile of rare variants for these genes. We were able to conclude that the global mutational profile of the genes identified during de novo mutation studies are indeed pathogenic, which confirms that some of those genes are really involved in the disease and are not sequencing artefacts. Additionally, we were also able to identify some genes that had an aberrant rare variation profile.
The third part of the work aimed to characterize the paternal age effect on the de novo mutation rate. Indeed, in schizophrenia, it has been shown numerous times that paternal age is a risk factor for the disease. Thus, we have chosen to characterize this effect in a cohort of healthy subjects. We were able to observe a high correlation between paternal age and an elevated germline mutation rate. We were also able to confirm the existence of genomic regions that present an elevated number of de novo mutations, supporting the notion of mutational hotspots.
Our results were amongst the first to be published on the scientific area to directly involve de novo mutations in the genetic mechanism of schizophrenia. Those results bring new clues on the biological networks underlying schizophrenia by investigating a genetic variation type long overlooked
Proof Relevant Corecursive Resolution
Resolution lies at the foundation of both logic programming and type class
context reduction in functional languages. Terminating derivations by
resolution have well-defined inductive meaning, whereas some non-terminating
derivations can be understood coinductively. Cycle detection is a popular
method to capture a small subset of such derivations. We show that in fact
cycle detection is a restricted form of coinductive proof, in which the atomic
formula forming the cycle plays the role of coinductive hypothesis.
This paper introduces a heuristic method for obtaining richer coinductive
hypotheses in the form of Horn formulas. Our approach subsumes cycle detection
and gives coinductive meaning to a larger class of derivations. For this
purpose we extend resolution with Horn formula resolvents and corecursive
evidence generation. We illustrate our method on non-terminating type class
resolution problems.Comment: 23 pages, with appendices in FLOPS 201
Deciphering the genetic structure of the Quebec founder population using genealogies
Using genealogy to study the demographic history of a population makes it possible to overcome the models and assumptions often used in population genetics. The Quebec founder population is one of the few populations in the world having access to the complete genealogy of the last 400 years. The goal of this study is to follow the evolution of the Quebec population structure over time from the beginning of European colonization until the present day. To do so, we calculated the kinship coefficients of all ancestors’ pairs in the ascending genealogy of 665 subjects from eight regional and ethnocultural groups per 25-year period. We show that the Quebec population structure appeared progressively in the St. Lawrence valley as early as 1750 with the distinction of the Saguenay and Gaspesian groups. At that time, the ancestors of two groups, the Sagueneans and the Acadians from the Gaspé Peninsula, experienced a marked increase in kinship and inbreeding levels which have shaped the structure and led to the contemporary population structure. Interestingly, this structure arose before the colonization of the Saguenay region and at the very beginning of the Gaspé Peninsula settlement. The resulting regional founder effects in these groups led to differences in the present-day identity-by-descent sharing, the Gaspé and North Shore groups sharing more large segments and the Sagueneans more short segments. This is also reflected by the distribution of the number of most recent common ancestors at different generations and their genetic contribution to the studied subjects
The mimetic politics of lone-wolf terrorism
Written at a time of crisis in the project of social and political modernity, Fyodor Dostoevsky’s 1864 novel Notes from Underground offers an intriguing parallel for the twenty-first century lone-wolf; it portrays an abject, outcast, spiteful unnamed anti-hero boiling with rage, bitter with resentment and on the verge of radicalisation. A Girardian reading of the poetic truths contained in Dostoevsky’s work is able to provide important keys to explain the contemporary transformation from ‘fourth-wave’ religious terrorism to ‘fifth-wave’ lone-wolf terrorism. Such a reading argues that it is mimetic rivalry – rather than much-trumpeted forms of religious violence or cultural differences – that fuels the triangular relation between governments, terrorists and civilian victims at heart of terrorist acts. This approach is further able to blend social inquiry with an account of the individual, in fact anthropological, conditions of lone-wolf terrorism by tracing the globalisation of resentment and the individualisation of violence to the hyper-mimeticism characterising the globalisation of late modernity. Finally, a mimetic reading of ‘fifth-wave’ terrorism accounts for the turbulence of a global politics in which victimhood and scapegoating no longer have the ability to stabilise social order and warns against a future where violence proliferates and escalates unchecked
Assessment of burden and segregation profiles of CNVs in patients with epilepsy
Objective:
Microdeletions are associated with different forms of epilepsy but show incomplete penetrance, which is not well understood. We aimed to assess whether unmasked variants or double CNVs could explain incomplete penetrance.
Methods:
We analyzed copy number variants (CNVs) in 603 patients with four different subgroups of epilepsy and 945 controls. CNVs were called from genotypes and validated on whole-genome (WGS) or whole-exome sequences (WES). CNV burden difference between patients and controls was obtained by fitting a logistic regression. CNV burden was assessed for small and large (>1 Mb) deletions and duplications and for deletions overlapping different gene sets.
Results:
Large deletions were enriched in genetic generalized epilepsies (GGE) compared to controls. We also found enrichment of deletions in epilepsy genes and hotspots for GGE. We did not find truncating or functional variants that could have been unmasked by the deletions. We observed a double CNV hit in two patients. One patient also carried a de novo deletion in the 22q11.2 hotspot.
Interpretation:
We could corroborate previous findings of an enrichment of large microdeletions and deletions in epilepsy genes in GGE. We could also replicate that microdeletions show incomplete penetrance. However, we could not validate the hypothesis of unmasked variants nor the hypothesis of double CNVs to explain the incomplete penetrance. We found a de novo CNV on 22q11.2 that could be of interest. We also observed GGE families carrying a deletion on 15q13.3 hotspot that could be investigated in the Quebec founder population
Paternal age explains a major portion of de novo germline mutation rate variability in healthy individuals
De novo mutations (DNM) are an important source of rare variants and are increasingly being linked to the development of many diseases. Recently, the paternal age effect has been the focus of a number of studies that attempt to explain the observation that increasing paternal age increases the risk for a number of diseases. Using disease-free familial quartets we show that there is a strong positive correlation between paternal age and germline DNM in healthy subjects. We also observed that germline CNVs do not follow the same trend, suggesting a different mechanism. Finally, we observed that DNM were not evenly distributed across the genome, which adds support to the existence of DNM hotspots
'Throughout my life I've had people walk all over me': trauma in the lives of violent men
In this article we present original qualitative data gathered during prolonged ethnographic fieldwork with violent men in deindustrialised communities in the north of England. We use the data as an empirical platform for a theoretical exploration of the symbolism and subjectivising influences of traumatic life experiences in these men’s biographies. We conclude by making the tentative suggestion that there is a complex and mediated causal link between traumatic experience and a deep subjective commitment to aggression and violence in adulthood
A multi-site campaign to measure solar-like oscillations in Procyon. II. Mode frequencies
We have analyzed data from a multi-site campaign to observe oscillations in
the F5 star Procyon. The data consist of high-precision velocities that we
obtained over more than three weeks with eleven telescopes. A new method for
adjusting the data weights allows us to suppress the sidelobes in the power
spectrum. Stacking the power spectrum in a so-called echelle diagram reveals
two clear ridges that we identify with even and odd values of the angular
degree (l=0 and 2, and l=1 and 3, respectively). We interpret a strong, narrow
peak at 446 muHz that lies close to the l=1 ridge as a mode with mixed
character. We show that the frequencies of the ridge centroids and their
separations are useful diagnostics for asteroseismology. In particular,
variations in the large separation appear to indicate a glitch in the
sound-speed profile at an acoustic depth of about 1000 s. We list frequencies
for 55 modes extracted from the data spanning 20 radial orders, a range
comparable to the best solar data, which will provide valuable constraints for
theoretical models. A preliminary comparison with published models shows that
the offset between observed and calculated frequencies for the radial modes is
very different for Procyon than for the Sun and other cool stars. We find the
mean lifetime of the modes in Procyon to be 1.29 +0.55/-0.49 days, which is
significantly shorter than the 2-4 days seen in the Sun.Comment: accepted for publication in Ap
The role of the melanoma gene MC1R in Parkinson disease and REM sleep behavior disorder
The MC1R gene, suggested to be involved in Parkinson disease (PD) and melanoma, was
sequenced in PD patients (n=539) and controls (n=265) from New-York, and PD patients (n=551),
rapid eye movement sleep behavior disorder (RBD) patients (n=351) and controls (n=956) of
European ancestry. Sixty-eight MC1R variants were identified, including 7 common variants with
frequency>0.01. None of the common variants was associated with PD or RBD in the different
regression models. In a meta-analysis with fixed-effect model, the p.R160W variant was
associated with an increased risk for PD (OR=1.22, 95%CI 1.02-1.47, p=0.03) but with significant
heterogeneity (p=0.048). Removing one study that introduced the heterogeneity resulted in nonsignificant
association (OR=1.11, 95%CI 0.92-1.35, p=0.27, heterogeneity p=0.57). Rare variants
had similar frequencies in patients and controls (10.54% and 10.15%, respectively, p=0.75), and
no cumulative effect of carrying more than one MC1R variant was found. The current study does
not support a role for the MC1R p.R160W and other variants in susceptibility for PD or RBD
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