Global ETD Search

141	Biogenesis of the C. elegans germline syncytium: from nucleation to maturation Amini, Rana 07 1900 (has links) No description available. Cytocinèse incomplète Syncytium Lignée germinale de C. elegans Anilline Abscission Formation du syncytium Midbody Abscission Anillin Germline development Incomplete cytokinesis Midbody Syncytiogenesis
142	Actomyosin mechanics at the cell level Erzberger, Anna 14 January 2016 (has links) Almost all animal cells maintain a thin layer of actin filaments and associated proteins underneath the cell membrane. The actomyosin cortex is subject to internal stress patterns which result from the spatiotemporally regulated activity of non-muscle myosin II motors in the actin network. We study how these active stresses drive changes in cell shape and flows within the cortical layer, and how these cytoskeletal deformations and flows govern processes such as cell migration, cell division and organelle transport. Following a continuum mechanics approach, we develop theoretical descriptions for three different cellular processes, to obtain - in collaboration with experimental groups - a detailed and quantitative understanding of the underlying cytoskeletal mechanics. We investigate the forces and cortex flows involved in adhesion-independent cell migration in confinement. Many types of cell migration rely on the extension of protrusions at the leading edge, where the cells attach to the substrate with specific focal adhesions, and pull themselves forward, exerting stresses in the kPa range. In confined environments however, cells exhibit migration modes which are independent of specific adhesions. Combining hydrodynamic theory, microfluidics and quantitative imaging of motile, non-adherent carcinosarcoma cells, we analyze the mechanical behavior of cells during adhesion-independent migration. We find that the accumulation of active myosin motors in the rear part of these cells results in a retrograde cortical flow as well as the contraction of the cell body in the rear and expansion in the front, and we describe how both processes contribute to the translocation of the cells, depending on the geometric and mechanical parameters of the system. Importantly, we find that the involved propulsive forces are several orders of magnitude lower than during adhesive motility while the achieved migration velocities are similar. Moreover, the distribution of forces on the substrate during non-adhesive migration is fundamentally different, giving rise to a positive force dipole. In contrast to adhesive migration modes, non-adhesive cells move by exerting pushing forces at the rear, acting to expand rather than contract their substrate as they move. These differences may strongly affect hydrodynamic and/or deformational interactions between collectively migrating cells. In addition to the work outlined above, we study contractile ring formation in the actin cytoskeleton before and during cell division. While in disordered actin networks, myosin motor activity gives rise to isotropic stresses, the alignment of actin filaments in the cortex during cell division introduces a preferred direction for motor-filament interactions, resulting in anisotropies in the cortical stress. Actin filaments align in myosin-dependent shear flows, resulting in possible feedback between motor activity, cortical flows and actin organization. We investigate how the mechanical interplay of these different cortical properties gives rise to the formation of a cleavage furrow during cell division, describing the level of actin filament alignment at different points on the cortex with a nematic order parameter, in analogy to liquid crystal physics. We show that cortical anisotropies arising from shear-flow induced alignment patterns are sufficient to drive the ingression of cellular furrows, even in the absence of localized biochemical myosin up-regulation. This mechanism explains the characteristic appearance of pseudocleavage furrows in polarizing cells. Finally, we study the characteristic nuclear movements in pseudostratified epithelia during development. These tissues consist of highly proliferative, tightly packed and elongated cells, with nuclei actively travelling to the apical side of the epithelium before each cell division. We explore how cytoskeletal properties act together with the mechanics of the surrounding tissue to control the shape of single cells embedded in the epithelium, and investigate potential mechanisms underlying the observed nuclear movements. These findings form a theoretical basis for a more detailed characterization of processes in pseudostratified epithelia. Taken together, we present a continuum mechanics description of the actomyosin cell cortex, and successfully apply it to several different cell biological processes. Combining our theory with experimental work from collaborating groups, we provide new insights into different aspects of cell mechanics. info:eu-repo/classification/ddc/530 ddc:530
143	Déchiffrage des mécanismes d’assemblage des filaments de septines Berger, Clothilde 05 1900 (has links) Les septines sont des protéines conservées de la levure à l’homme qui sont impliquées dans divers processus cellulaires tels que la cytokinèse, le transport vésiculaire et l’organisation du cortex cellulaire. Il existe 13 gènes de septines retrouvés en plusieurs isoformes chez l’humain, et seulement cinq chez Drosophila melanogaster, Sep1, Sep2, Pnut, Sep4 et Sep5, ce qui en fait un modèle idéal vu son génome simple. Les septines sont composées d’un domaine de liaison au GTP très conservé entre les espèces, dont le rôle reste à ce jour ambiguë, ainsi que de régions N et C-terminales variables. Les septines s’assemblent entre elles pour former un hexamère, composé de Sep1, Sep2 et Pnut chez Drosophila melanogaster, via l’interface N-C et G des septines. Ces hexamères s’assemblent bout à bout afin de former les filaments de septines. Ces filaments peuvent ensuite se regrouper et s’assembler en structures hautement ordonnées telles que des anneaux, des tubes, des faisceaux de filaments, des cages et elles sont retrouvées au sillon de clivage durant la cytokinèse. Le but était de déchiffrer les mécanismes d’assemblage des filaments de septines qui mènent à la formation des différentes structures, afin de mieux comprendre les mécanismes d’interaction entre les septines. Au sein des cellules S2 de Drosophila melanogaster, les septines sont retrouvées à trois structures hautement ordonnées et dépendantes de Pnut endogène : des tubes cytoplasmiques, des anneaux cytoplasmiques et le sillon de clivage durant la cytokinèse. Notre hypothèse est qu’il existe plusieurs mécanismes qui régissent la formation des structures hautement ordonnées et que ceux-ci sont dépendants des régions N et C terminales variables des septines qui sont impliquées dans plusieurs interactions. Divers mutants de Sep1, Sep2 et Pnut tronqués en N et en C-terminal ont été fusionnés à une protéine fluorescente et caractérisés par microscopie confocale. La localisation de ces mutants a été répertoriée et analysée en présence des septines endogènes ou lors de la déplétion de celles-ci. Nos résultats suggèrent que le domaine de liaison au GTP est suffisant pour le recrutement des septines au sillon de clivage durant la cytokinèse, mais que la région N-terminale est requise la formation des tubes et des anneaux cytoplasmiques dépendants de Pnut. / Septins are conserved from yeast to humans and are implicated in diverse cellular processes such as cytokinesis, vesicular transport and cellular cortical organization. There are 13 known genes that encode for human septins, which also have many isoforms, while there are only five septin genes in Drosophila melanogaster: Sep1, Sep2, Pnut, Sep4 and Sep5, which makes it an ideal model system. Septins have a conserved GTP binding domain, whose role is still not fully understood, and variable N-C-termini. Septins assemble together, via N-C and G interfaces, to form a hexamer, that is composed of Sep1, Sep2 and Pnut in Drosophila melanogaster, which assemble end-to-end to form non polar filaments. These filaments can subsequently assemble together to form higher-ordered structures, such as rings, tubes, bundles, and gauzes. Furthermore, septins are recruited to the cleavage furrow during cytokinesis although their organization there is unclear. The aim of this project is to define septin assembly mechanisms that can lead to the formation of different higher ordered structures. In Drosophila melanogaster S2 cells, septins are recruited to three, readily observable septin dependent structures: cytoplasmic rings, cytoplasmic tubes, and the cleavage furrow during cytokinesis. Our hypothesis is that multiple mechanisms govern septin incorporation into these structures and that these mechanisms differentially depend on septin N-C variable termini. A panel of mutants of Sep1, Sep2 and Pnut truncated in N-C-termini were fused to fluorescent proteins and their localization in S2 cells monitored by confocal microscopy, with or without depletion of endogenous septins. My results suggest that the GTP binding domain is sufficient for septin recruitment to the cleavage furrow during cytokinesis, but that the septin N-termini are required for recruitment to the cytoplasmic tubes and rings. cytokinèse structures hautement ordonnées actine anillin sillon de clivage filaments non polaires cytokinesis higher ordered structures actin cleavage furrow non-polar filaments septine septin
144	Study of the Function and Dynamics of Myosin II and Actin in Cytokinesis: A Dissertation Zhou, Mian 26 May 2009 (has links) Myosin II and actin are two major components of the ingressing cortex during cytokinesis. However, their structural dynamics and functions during cytokinesis are still poorly understood. To study the role of myosin II in cortical actin turnover, dividing normal rat kidney (NRK) cells were treated with blebbistatin, a potent inhibitor of the non-muscle myosin II ATPase. Blebbistatin caused a strong inhibition of actin filament turnover and cytokinesis. Local release of blebbistatin at the equator caused inhibition of cytokinesis, while treatment in the polar region also caused a high frequency of abnormal cytokinesis, suggesting that myosin II may play a global role. These observations indicate that myosin II ATPase is essential for actin turnover and remodeling during cytokinesis. To further study the mechanism of myosin II and actin recruitment to the cytokinetic furrow, equatorial cortex were observed with total internal reflection fluorescence microscope (TIRF-M) coupled with spatial temporal image correlation spectroscopy (STICS) and a new approach termed temporal differential microscopy (TDM). The results indicated at least partially independent mechanisms for the early equatorial recruitment of myosin II and actin filaments. Cortical myosin II showed no detectable directional flow toward the equator. In addition to de novo equatorial assembly, localized inhibition of disassembly appeared to contribute to the formation of the equatorial myosin II band. In contrast, actin filaments underwent a striking, myosin II dependent flux toward the equator. However, myosin II was not required for equatorial actin concentration, suggesting that there was a flux-independent, de novo mechanism. The study was then extended to retraction fibers found typically on mitotic adherent cells, to address the hypothesis that they may facilitate post-mitotic spreading. Cells with retraction fibers showed increased spreading speed in post-mitotic spreading compared to cells without retraction fibers. In addition, micromanipulation study suggested that retraction fibers may guide the direction of post-mitotic spreading. Focal adhesion proteins were present at the tips of retraction fibers, and may act as small nucleators for focal adhesions reassembly that help cell quickly respread and regrow focal adhesions. These findings may suggest a general mechanism utilized by adherent cells to facilitate post-mitotic spreading and reoccupy their previous territory. Cytokinesis Actins Myosin Type II Monomeric GTP-Binding Proteins Mitosis Amino Acids, Peptides, and Proteins Cell and Developmental Biology Cells Life Sciences Macromolecular Substances Medicine and Health Sciences
145	Caractérisation d'une nouvelle voie de signalisation PTEN/PLCXD régulant le PtdIns(4,5)P2 endolysosomal Mondin, Virginie E. 06 1900 (has links) Le Phosphatidylinositol(4,5)P2 (PtdIns(4,5)P2) est essentiel pour réguler divers processus cellulaires, y compris la signalisation cellulaire, le trafic intracellulaire et la cytocinèse. Le contrôle strict de son homéostasie est donc crucial et la dérégulation des kinases, des phosphatases et des phospholipases qui la contrôlent conduit à de multiples pathologies. Parmi elles, le syndrome de Lowe est une maladie rare et incurable causée par des mutations du gène OCRL qui code pour la PtdIns(4,5)P2 phosphatase OCRL1. La déplétion de dOCRL, l’orthologue d’OCRL1 chez la drosophile altère l’homéostasie du PtdIns(4,5)P2 avec (i) une accumulation anormale de PtdIns(4,5)P2 sur les endomembranes conduisant (ii) à des défauts de cytocinèse et à de la multinucléation. L’objectif de cette thèse était de comprendre comment le PtdIns(4,5)P2 est régulé sur les endomembranes. Dans les cellules de drosophile, nous avons découvert une fonction nouvelle et inattendue pour le suppresseur de tumeur PTEN, indépendante de son activité phosphatase. En effet, nous avons constaté que PTEN réduit les niveaux de PtdIns(4,5)P2 sur les endosomes grâce à l’action enzymatique de dPLCXD, une phospholipase C (PLC) atypique. Ainsi la voie de signalisation PTEN/dPLCXD peut compenser pour les défauts de cytocinèse dus à la perte de dOCRL. Enfin, nous avons identifié un activateur chimique des PLC qui restaure la perte fonctionnelle d’OCRL dans trois modèles de syndrome de Lowe distincts. Par la suite, nous avons étudié le rôle de la PTEN/PLCXD pendant l’autophagie, mécanisme d’autodigestion du matériel cellulaire. En effet, l’homéostasie du PtdIns(4,5)P2 lysosomale est essentielle pour l’étape autophagique de fusion des autophagosomes avec lysosomes. Nous avons observé que la déplétion de PLCXD et la surexpression d’un mutant catalytiquement inactif de PTEN altèrent l’autophagie chez les cellules de drosophile et de mammifère. Ces données suggèrent que la voie PTEN/PLCXD nouvellement identifiée régule le flux autophagique. Dans cette thèse, nous avons mis en lumière une nouvelle voie de signalisation PTEN/dPLCXD qui contrôle les niveaux de PtdIns(4,5)P2 sur les endolysosomes. Cette voie peut réguler l’autophagie et compenser la perte de dOCRL. Il s’agit d’une nouvelle fonction de PTEN indépendante de son activité phosphatase et c’est une première fonction biologique connue pour PLCXD. Cette découverte a conduit à l’identification d’une stratégie thérapeutique potentielle pour traiter les patients atteints du syndrome de Lowe. / Phosphatidylinositol(4,5)P2 (PtdIns(4,5)P2) is essential for various cellular processes, including cell signaling, intracellular traffic and cytokinesis. Therefore, strict control of its homeostasis is crucial. Indeed, the deregulation of the kinases, phosphatases and phospholipases which controls PtdIns(4,5)P2 leads to multiple pathologies. Among them, the Lowe syndrome is a rare and incurable disease caused by mutations in the OCRL gene which codes for PtdIns(4,5)P2 phosphatase OCRL1. Depletion of dOCRL, the orthologue of OCRL1 in drosophila, alters the homeostasis of PtdIns(4,5)P2 with (i) an abnormal accumulation of PtdIns(4,5)P2 on the endomembranes leading (ii) to cytokinesis defects and multinucleation. The objective of this thesis was to understand how PtdIns(4,5)P2 is regulated on endomembranes. In drosophila cells, we have discovered a new and unexpected function for the tumor suppressor PTEN independent of its phosphatase activity. Indeed, we have found that PTEN reduces the levels of PtdIns(4,5)P2 on endolysosomes thanks to the enzymatic action of dPLCXD, an atypical phospholipase C (PLC). Thus, the PTEN/dPLCXD signaling pathway can compensate for cytokinesis defects due to the loss of dOCRL. Finally, we identified a chemical activator of PLC that restores the functional loss of OCRL in three distinct Lowe syndrome models. Next, we studied the role of this newly identified PTEN/PLCXD pathway during autophagy, a self-digestion mechanism. Indeed, the homeostasis of lysosomal PtdIns(4,5)P2 is essential for the fusion of autophagosomes with lysosomes during autophagy. We have observed that depletion of PLCXD and overexpression of a catalytically inactive mutant of PTEN both alter autophagy in Drosophila and mammalian cells. These data suggest that this newly identified PTEN/PLCXD pathway regulates the autophagic flux. In this thesis, we have highlighted a new PTEN/dPLCXD signaling pathway which controls the levels of PtdIns(4,5)P2 on endolysosomes. This new PTEN function is independent of its phosphatase activity and the first biological function for PLCXD can regulate autophagy and compensate for the loss of dOCRL. This discovery led to the identification of a potential therapeutic strategy for treating patients with Lowe’s syndrome. Phosphoinositides PtdIns(4,5)P2 PTEN PLC PLCXD OCRL Autophagie Autophagy Cytokinesis Cytocinèse Syndrome de Lowe Lowe syndrome
146	Determining Molecular Mechanisms of Cell Division in Fission Yeast by Testing Major Assumptions of the Search, Capture, Pull, and Release Model of Contractile-Ring Assembly Coffman, Valerie Chest 24 July 2013 (has links) No description available. Cellular Biology Genetics Molecular Biology cytokinesis node contractile ring formin myosin fission yeast centromere Cnp1 Cse4 kinetochore quantitative microscopy cell division tetrad fluorescence microscopy
147	Regulation of the Rab35 GTPase by Rab11FIP1 during cytokinesis, apico-basal polarity and collective cell migration Iannantuono, Nicholas 07 1900 (has links) Le trafic vésiculaire joue un rôle crucial dans la sécrétion et l'internalisation des composantes extracellulaires ou membranaires. De plus, il contrôle la distribution spatio-temporelle de nombreuses protéines. En outre, ce processus peut contrôler la livraison de protéines à divers domaines des membranes plasmiques. Mes travaux de recherche se sont centrés sur l'étude des protéines Rab11-Family of Interacting Proteins de classe I (Rab11FIPs), plus précisément de Rab11FIP1 et de sa fonction dans différents processus cellulaires nécessitant le trafic vésiculaire, tels que la mitose, la cytokinèse, l'établissement de la polarité cellulaire et de la migration cellulaire, individuelle ou collective. En effet, ces processus nécessitent un contrôle vésiculaire finement régulé, par exemple, la mitose/cytokinèse nécessite le recrutement de différents complexes protéiques contenant des cargaisons liées aux vésicules. L'établissement de la polarité cellulaire nécessite le tri et la livraison de complexes protéiques à des membranes spécifiques et la migration cellulaire nécessite une polarisation complète de la cellule pour permettre un mouvement directionnel. Mes travaux ont élucidé une voie impliquant Rab11FIP1 et Rab35 dans le contrôle à la fois de la cytokinèse et de l'établissement de la polarité. En effet, alors que d'autres groupes ont publié que Rab35 est essentiel pour l'élimination de l'actine située au pont intercellulaire via le recrutement de MICAL1 et OCRL, j'ai montré que Rab11FIP1 est critique pour maintenir Rab35 dans cette région. De plus, j'ai montré que l'absence de Rab11FIP1 et la mauvaise localisation subséquente de Rab35 peuvent conduire à des phénotypes similaires à ceux observés lors de la dérégulation de l'abscission, tels que la binucléation et le retard de la cytokinèse, qui sont des défauts qui contribuent au développement de cancers. Ces défauts peuvent cependant être rétablies en utilisant de faibles doses de Latrunculin A pour dépolymériser de l'actine. De plus, j'ai montré que Rab11FIP1 et Rab35 semblent avoir des fonctions dans la polarité apico-basale des cellules Caco-2 et MCF-10a. Enfin, j'ai aussi montré que Rab35 est impliquée dans la régulation de la migration collective. En conclusion, mes données établissent Rab11FIP1 et Rab35 comme des régulateurs importants de divers processus cellulaires. Ces résultats constituent un point de départ important pour une étude plus approfondie de l'abscission, de l'établissement de la polarité cellulaire, de la formation du Apical Membrane Initiation Site (AMIS) et de la migration cellulaire collective. Cela aura des implications de grande envergure, car ces cascades de signalisation peuvent avoir un impact sur pratiquement tous les processus cellulaires. / Vesicular trafficking plays a crucial role in the secretion and internalization of extracellular or plasma membrane components. Moreover, it controls the spatiotemporal distribution of many proteins during different processes. Also, it can control the delivery of proteins to various domains of the plasma membranes. With this in mind, my research focused on the Rab11 Family of Interacting Proteins of Class I (Rab11FIPs), more specifically of Rab11FIP1 and its function in different cellular processes that require vesicular trafficking, those being mitosis, cytokinesis, establishment of cell polarity and cellular migration, both single and collective. Indeed, these processes require exquisite vesicular control, for example, mitosis/cytokinesis require the recruitment of different protein complexes containing vesicle-bound cargoes. Cell polarity establishment requires the sorting and delivery of protein complexes and cell migration requires fine-tuned polarization of the entire cell to allow for directional movement. My work has elucidated one such pathway involving Rab11FIP1 and Rab35 in the control of both cytokinesis and the establishment of polarity. Indeed, while others have shown that Rab35 is critical for the removal of actin in the intercellular bridge via recruitment of its cargoes MICAL1 and OCRL, I showed that Rab11FIP1 is vital for maintaining Rab35 in the midbody. In fact, I showed that lack of Rab11FIP1 and subsequent mislocalization of Rab35 can lead to similar phenotypes observed during dysregulated abscission, such as binucleation and cytokinesis delay, which are hallmarks of cancer. These phenotypes however, can be rescued using low doses of an actin depolymerizing drug called Latrunculin A. Furthermore, I showed that both Rab11FIP1 and Rab35 seem to have functions in the establishment of apico-basal polarity of both Caco-2 and MCF-10a. Finally, I showed that Rab35 seems to regulate the collectiveness of migrating cells. Altogether, these data establish Rab11FIP1 and Rab35 as important regulators of various cellular processes. These results will be an important stepping stone for further studies into abscission, establishment of cellular polarity, Apical Membrane Initiation Site (AMIS) formation, and collective cell migration. This will have far reaching implications, as these signaling cascades can impact virtually all cellular processes. Rab11FIP1 Rab11 Rab35 Cytokinesis Binucleation Collective cell migration Polarity Actin Cytokinèse Migration Cellulaire Collective Polarité
148	Studies on RNA Modification and Editing in <i>Trypanosoma brucei</i> Fleming, Ian Murray Cameron 08 June 2016 (has links) No description available. Microbiology Biochemistry Cellular Biology Parasitology RNA modification RNA editing rRNA tRNA ribosome cytokinesis Trypanosoma brucei kinetoplastid ribosome assembly ribosome biogenesis genetic screen
149	Effect of drinking water disinfection by-products in human peripheral blood lymphocytes and sperm Ali, Aftab H.M., Kurzawa-Zegota, Malgorzata, Najafzadeh, Mojgan, Gopalan, Rajendran C., Plewa, M.J., Anderson, Diana 26 August 2014 (has links) No / Drinking water disinfection by-products (DBPs) are generated by the chemical disinfection of water and may pose hazards to public health. Two major classes of DBPs are found in finished drinking water: haloacetic acids (HAAs) and trihalomethanes (THMs). HAAs are formed following disinfection with chlorine, which reacts with iodide and bromide in the water. Previously the HAAs were shown to be cytotoxic, genotoxic, mutagenic, teratogenic and carcinogenic. OBJECTIVES: To determine the effect of HAAs in human somatic and germ cells and whether oxidative stress is involved in genotoxic action. In the present study both somatic and germ cells have been examined as peripheral blood lymphocytes and sperm. The effects of three HAA compounds: iodoacetic acid (IAA), bromoacetic acid (BAA) and chloroacetic acid (CAA) were investigated. After determining appropriate concentration responses, oxygen radical involvement with the antioxidants, butylated hydroxanisole (BHA) and the enzyme catalase, were investigated in the single cell gel electrophoresis (Comet) assay under alkaline conditions, >pH 13 and the micronucleus assay. In the Comet assay, BHA and catalase were able to reduce DNA damage in each cell type compared to HAA alone. In the micronucleus assay, micronuclei (MNi) were found in peripheral lymphocytes exposed to all three HAAs and catalase and BHA were in general, able to reduce MNi induction, suggesting oxygen radicals play a role in both assays. These observations are of concern to public health since both human somatic and germ cells show similar genotoxic responses. Bromoacetic acid BAA Butylated hydroxyanisole BHA Catalase Chloroacetic acid CAA Comet assay Haloacetic acid HAA Iodoacetic acid IAA Micronuclei MNi
150	The effect of dietary estimates calculated using food frequency questionnaires on micronuclei formation in European pregnant women: a NewGeneris study Vande Loock, K., Botsivali, M., Zangogianni, M., Anderson, Diana, Baumgartner, Adolf, Fthenou, E., Chatzi, L., Marcos, R., Agramunt, S., Namork, E., Granum, B., Knudsen, L.E., Nielssen, J.K.S., Meltzer, H.M., Haugen, M., Kyrtopoulos, S.A., Decordier, I., Plas, G., Roelants, M., Merlo, F., Kleinjans, J.C., Kogevinas, M., Kirsch-Volders, M. 07 October 2014 (has links) No / The use of biomarkers of early genetic effects, predictive for cancer, such as micronuclei (MN) in lymphocytes, may help to investigate the association between diet and cancer. We hypothesised that the presence of mutagens in the diet may increase MN formation. A 'pooled' standardised analysis was performed by applying the same experimental protocol for the cytokinesis block micronucleus assay in 625 young healthy women after delivery from five European study populations (Greece, Denmark, UK, Spain and Norway). We assessed MN frequencies in mono- and binucleated T-lymphocytes (MNMONO and MNBN) and the cytokinesis blocked proliferation index using a semi-automated image analysis system. Food frequency questionnaires (FFQs) were used to estimate intake of fatty acids and a broad range of immunotoxic and genotoxic/carcinogenic compounds through the diet. Pooled difference based on delivery type revealed higher MNMONO frequencies in caesarean than in vaginal delivery (P = 0.002). Statistical analysis showed a decrease in MNMONO frequencies with increasing calculated omega-6 PUFA concentrations and a decrease in MNBN frequencies with increasing calculated omega-3 PUFA concentrations. The expected toxic compounds estimated by FFQs were not associated with MN formation in mothers after delivery. In pregnant women, an omega-3 and -6 rich diet estimated by FFQ is associated with lower MN formation during pregnancy and delivery. Adult Cell proliferation Cohort studies Cytokinesis Diet European continental ancestry group Female Food habits Humans Linear models Micronuclei Middle-aged Mutagens Pregnancy Surveys Questionnaires T-lymphocytes

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