Three-dimensional nuclear organization in cancer: examples from mouse plasmacytoma and human neuroblastoma

Kuzyk, Alexandra

02 March 2017

Three-dimensional (3D) nuclear organization is the study of the spatial distribution of nuclear contents and components. Aspects of nuclear organization that are examined in this thesis were chromosome territories, chromosomal sub-regions and telomeres. We began by examining nuclear disorganization in a transgenic mouse model. Fast-onset PCTs, compared to slow-onset PCTs and wild-type mice, had higher numbers of telomeres and telomeric aggregates per cell, more short telomeres, an altered distribution of telomeres throughout the nucleus, and a larger nuclear volume (P < 0.0001). We further examined this in a human context, looking for changes in nuclear organization in MYCN amplified compared to non-amplified neuroblastomas. Using dual-colored FISH and MYCN immunofluorescence on 16 neuroblastoma tissue samples, the unbalanced gain of 17q was found to be associated with high MYCN expression, no gain of 17q to be associated with medium MYCN expression, and numerical gain of chromosome 17 to be associated with low expression (P < 0.0001). The nuclear location of 17q also correlated with chromosome 17 copy number status. Telomere Q-FISH on 74 neuroblastoma tissue samples identified three tumor subgroups based on the measured telomere parameters, which represented unique levels of telomere dysfunction and genomic instability. Subgroups with higher levels of telomere dysfunction had more telomeres and telomeric aggregates per cell, and greater percentages of short and long telomeres (P < 0.0001); these subgroups also were associated with poor prognostic clinical features (P < 0.001). This thesis illustrates the significance of multiple parameters of 3D nuclear organization in both PCT and neuroblastoma. The changes observed in the nuclear architecture of these cancers reflect increased telomere-mediated genomic instability that is driven by MYC and MYCN. Furthermore, the differences between aggressive and less-aggressive forms of the tumors suggest 3D nuclear organization could be used as a novel biomarker in cancer. / May 2017

Nuclear architecture

Multi-scale analysis of chromosome and nuclear architecture

Olivares Chauvet, Pedro

January 2013

Mammalian nuclear function depends on the complex interaction of genetic and epi-genetic elements coordinated in space and time. Structure and function overlap to such a degree that they are usually considered as being inextricably linked. In this work I combine an experimental approach with a computational one in order to answer two main questions in the field of mammalian chromosome organization. In the first section of this thesis, I attempted to answer the question, to what extent does chromatin from different chromosome territories share the same space inside the nucleus? This is a relatively open question in the field of chromosome territories. It is well-known and accepted that interphase chromosomes are spatially constrained inside the nucleus and that they occupy their own territory, however, the degree of spatial interaction between neighbouring chromosomes is still under debate. Using labelling methods that directly incorporate halogenated DNA precursors into newly replicated DNA without the need for immuno-detection or in situ hybridization, we show that neighbouring chromosome territories colocalise at very low levels. We also found that the native structure of DNA foci is partially responsible for constraining the interaction of chromosome territories as disruption of the innate architecture of DNA foci by treatment with TSA resulted in increased colocalisation signal between adjacent chromosomes territories. The second major question I attempted to answer concerned the correlation between nuclear function and the banding pattern observed in human mitotic chromosomes. Human mitotic chromosomes display characteristic patterns of light and dark bands when visualized under the light microscope using specific chemical dyes such as Giemsa. Despite the long standing use of the Giemsa banding pattern in human genetics for identifying chromosome abnormalities and mapping genes, little is known about the molecular mechanisms that generate the Giemsa banding pattern or its biological relevance. The recent availability of many genetic and epigenetic features mapped to the human genome permit a high-resolution investigation of the molecular correlates of Giemsa banding. Here I investigate the relationship of more than 50 genomic and epigenomic features with light (R) and dark (G) bands. My results confirm many classical results, such as the low gene density of the most darkly staining G bands and their late replication time, using genome-wide data. Surprisingly, I found that for virtually all features investigated, R bands show intermediate properties between the lightest and darkest G bands, suggesting that many R bands contain G-like sequences within them. To identify R bands that show properties of G bands, I employed an unsupervised learning approach to classify R bands on their genomic and epigenomic properties and show that the smallest R bands show a tendency to have characteristics typical of G bands. I revisit the evidence supporting the boundaries of G and R bands in the current cytogenomic map and conclude that inaccurate placement of weakly supported band boundaries can explain the intermediate pattern of R bands. Finally, I propose an approach based on aggregating data from multiple genomic and epigenomic features to improve the positioning of band boundaries in the human cytogenomic map. My results suggest that contiguous domains showing a high degree of uniformity in the ratio of heterochromatin and euchromatin sub-domains define the Giemsa banding pattern in human chromosomes.

660.65

ROLE OF NUCLEAR ORGANIZATION, GENE TOPOLOGY AND CHROMATIN ARCHITECTURE IN GENE REARRANGEMENTS

GANDHI, MANOJ SURESH

28 September 2006

No description available.

Health Sciences, Pathology

Chromosomal Rearrangements

Nuclear Architecture

Chromosomal Territories

FISH

The 3D nuclear organization of telomeres during endometrial carcinoma development

Danescu, Adrian

04 April 2012

Early diagnosis of endometrial cancer (EC) is uncertain and women undergo preventive hysterectomy in cases where a non-invasive treatment can be used instead. To contribute to solving this challenge we investigated if early changes in the nuclear 3D telomere architecture during carcinoma development can be detected prior to the first morphological evidence of precancerous lesions. We utilized Pten heterozygous mice that develop progressive carcinoma in the endometrial tissue similar to EC development in women. We used telomere fluorescence in situ hybridization (FISH), 3D molecular imaging and analysis techniques on interphase nuclei of endometrial glandular epithelial cells to identify alterations in the 3D-telomere profile. We found that telomere dysfunction in Pten heterozygous mice is present already in endometrial simple hyperplasia lesions prior to detectable loss of PTEN protein expression and that the 3D telomere architecture has a specific signature that indicates early telomere dysfunction predictive for endometrial malignant transformation.

endometrial cancer

3D telomere profile

PTEN

nuclear architecture

Genome organizing function of SATB1 in tumor progression.

Kohwi-Shigematsu, T., Poterlowicz, Krzysztof, Ordinario, E., Han, H.J., Botchkarev, Vladimir A., Kohwi, Y.

January 2013

no / When cells change functions or activities (such as during differentiation, response to extracellular stimuli, or migration), gene expression undergoes large-scale reprogramming, in cell type- and function-specific manners. Large changes in gene regulation require changes in chromatin architecture, which involve recruitment of chromatin remodeling enzymes and epigenomic modification enzymes to specific genomic loci. Transcription factors must also be accurately assembled at these loci. SATB1 is a genome organizer protein that facilitates these processes, providing a nuclear architectural platform that anchors hundreds of genes, through its interaction with specific genomic sequences; this activity allows expression of all these genes to be regulated in parallel, and enables cells to thereby alter their function. We review and describe future perspectives on SATB1 function in higher-order chromatin structure and gene regulation, and its role in metastasis of breast cancer and other tumor types.

Chromosome evolution and mechanisms of speciation in the Anopheles gambiae complex

Liang, Jiang-tao

01 June 2020

Malaria is a life-threatening disease caused by Plasmodium parasites that are transmitted through the bites of infected females of a few Anopheles mosquito species. Understanding the chromosome evolution and mechanisms of speciation can shed light on developing novel ecological-friendly vector control techniques. Sibling species of the An. gambiae complex provide an excellent model system for these topics. To understand the mechanisms of speciation, we investigated the cellular basis and phenotypes of hybrid male sterility in species crosses of the An. gambiae complex. By performing inter-species crosses of An. coluzzii/An. gambiae and An. merus lab strains, we found an asymmetric pattern of hybrid male sterility existed in sons from reciprocal interspecies crosses. Compared with pure species, hybrid males from crosses of ♀An. merus  ♂An. gambiae/An. coluzzii were normal in the morphology of male reproductive tracts; however, the testes of which that process the reductional meiotic division failed to produce primary spermatocytes and were accompanied with unpaired and insufficiently condensed chromosomes. As a result, primary spermatocytes undergo a mitosis-like anaphase division, producing nonmotile and malfunctional diploid sperm with two tails. However, individuals can mate with females normally and form the mating plug to induce the female monogamy. In contrast, hybrid males from the opposite crosses manifest severely underdeveloped reproductive tracts and a premeiotic arrest of germline stem cells in the testis, accompanied by a strong suppression of premeiotic and meiotic genes. In addition, hybrid males from this cross suffered from a shorter copulation time and failed to form mating plugs to induce female monogamous behaviors, albeit the expression of male accessory gland specific genes were similar between hybrids and pure species. To figure out chromosome evolution in the An. gambiae complex, we studied the molecular organization of heterochromatin and investigated the spatial organizations of autosomal regions of polytene chromosomes in soma and germline cells. We found that molecular composition of pericentrometric autosome and sex chromosome repetitive DNA differs among sibling species of An. gambiae complex with highly similarity between An. coluzzii and An. arabiensis. In addition, heterochromatin blocks of chromosomes have distinct compositions of satellite DNA sequences. Next, in order to address the relationship between inter-chromosomal (Chr-Chr) contacts and chromosome-nuclear envelope (Chr-NE) attachments during the development of the organism, we conducted microscopic analyses of the 3D organization of polytene chromosome in An. gambiae, An. coluzzii, and An. merus. Our quantitative study on chromosome territories in larval salivary gland cells and adult ovarian nurse cells showed that, compared with autosomal arms, the X chromosome has a significantly smaller volume and occupies more compact territories. The number of Chr-Chr contacts and the percentage of Chr-NE attachment were conserved among the species within the same cell type. Our data also demonstrated that there is a significantly and consistently inverse relationship between the frequencies of Chr–NE and Chr–Chr attachments on autosomes of two cell types in all tested species. / Doctor of Philosophy / Malaria is a life-threatening disease caused by Plasmodium parasites that are transmitted through the bites of infected females of a few Anopheles mosquito species. Despite being treatable and preventable, malaria is estimated to cause large numbers of deaths every year. Since 2015, the malaria elimination program has stalled largely due to increased insecticide resistance. Novel transgenic techniques have a huge potential in reducing malaria transmission more effectively. However, there are large concerns about the potential negative effects of releasing genetically modified mosquitoes, such as a possibility of accidental spread to non-target species with incomplete reproductive barriers and unpredicted ecological damage. Understanding the mechanisms of speciation about how reproductive isolation occurred and developed as well as chromosome evolution can not only empower the development of ecologically friendly vector control techniques but also improve our basic knowledge. To study mechanisms of speciation, we mated males and females from different closely related species in the Anopheles gambiae complex to investigate the fecundity of hybrid generations. Our study identified two different types of reproductive abnormalities leading to hybrid male sterility. Hybrid males from female An. merus and male An. gambiae or An. coluzzii have normal appearing testes and male accessary glands but the testes produce abnormal sperms, which cannot move and have two tails. Hybrid males from female An. gambiae or An. coluzzii and An. merus have severely underdeveloped testes and male accessary glands. The sperm producing process stops unusually very early in their tiny underdeveloped testes. We also investigated chromosome evolution in species of An. gambiae complex. We found that chromosomal parts containing repetitive DNA, the sequence in the genome not producing proteins, evolve rapidly in An. coluzzii, An. arabiensis, An. quadriannulatus, and An. merus. In contrast, chromosome territories of gene rich regions in giant polytene chromosomes from larval salivary gland cells and adult ovarian nurse cells of An. gambiae, An. coluzzii, and An. merus, were relatively conserved within the same cell type among different species. However, the chromosomal 3D distribution pattern is different among various cell types in these species.

Anopheles gambiae complex

speciation

hybrid male sterility

repetitive DNA

chromosome evolution

nuclear architecture

Role of Poly-(ADP-ribose)-ylation signaling pathway in the chromatin remodeling after DNA damage / Étude de la voie de signalisation Poly-(ADP-ribose)-ylation dans les mécanismes de remodelage de la chromatine suite aux dommages à l'ADN

Sellou, Hafida

30 September 2016

Chaque cellule humaine est constamment soumise à des agressions extérieures comme l'exposition aux rayons Ultra-Violets, agents chimiques, etc. ou endogènes provenant de la production de métabolites par la cellule elle-même. Ces agressions induisent des dommages dans l'ADN. Ces dommages, s'ils ne sont pas réparés correctement, peuvent induire un dérèglement des fonctions de base de la cellule qui peut alors devenir cancéreuse. Pour réparer leur ADN, les cellules activent divers mécanismes de réparation et établissent une signalisation au niveau des sites endommagés. Dans le noyau, l'ADN est associé à des protéines appelées histones pour former la chromatine. La chromatine se caractérise par différents niveaux d'organisation, aboutissant à la formation d'une structure très compacte. Cette compaction élevée de la chromatine peut représenter une barrière pour la machinerie de réparation. En effet, pour être réparé, l'ADN endommagé doit être accessible à la machinerie de réparation. Pour cela, les cellules ont développé des mécanismes permettant d'accéder à l'ADN endommagé. Ces mécanismes de réponse aux dommages à l'ADN impliquent l'activation de voies de signalisation. L'un des signaux précurseurs activés après dommage à l'ADN est la Poly-ADP-Ribosylation (PARylation). La PARylation est une modification post-traductionnelle composée d'une répétition de petites molécules appelées Poly-ADP-Riboses, qui s'accrochent notamment sur les histones pour signaler la présence de cassures dans l'ADN et permettent ainsi de recruter les protéines impliquées dans la réparation des dommages. Lorsque l'ADN est endommagé, l'activation de processus de réparation induit de manière précoce le recrutement de facteurs de remodelage de la chromatine. Le rôle exact de la signalisation via la PARylation durant les étapes précoces de la réponse aux dommages à l'ADN et plus particulièrement lors du remodelage de la chromatine reste encore mal caractérisé. Durant ma thèse, j'ai utilisé des techniques avancées en microscopie pour étudier la dynamique de la chromatine après induction de dommages à l'ADN. J'ai ainsi tenté d'élucider le rôle de la PARylation dans le mécanisme de remodelage de la chromatine au niveau des dommages dans l'ADN, en recherchant des facteurs permettant d'altérer de manière spécifique la dynamique de la chromatine. Cette méthodologie nous a permis d'identifier différents facteurs impliqués dans le remodelage de la chromatine après dommage à l'ADN. / In each human cell, many thousands of DNA lesions arise every day, challenging continuously the genome integrity. The majority of these lesions results from byproducts of normal cell metabolism or DNA replication, but they are also induced by exposure to radiations and genotoxic chemicals. The integrity of the genome is preserved by a plethora of different DNA damage signalling and repair machinery arranged by the cells. In the cell nucleus, DNA associates with scaffolding proteins to form the chromatin. The chromatin is tightly packed in the nucleus through several levels of organization. Such high-packing state poses a significant challenge for the repair machinery. Indeed, the damaged DNA needs to be accessible to repair proteins, and for that, cells have developed several mechanisms to allow the access to the damaged chromatin. The early steps of the DNA damage response involve the activation of proteins that are part of signalling pathways. One of the proteins activated upon DNA damage is PARP1, which synthetizes long and branched chains of ADP-ribose (poly-ADP-ribose or PAR) on itself and other chromatin factors, including histones. The activation of PARP1 leads to the recruitment of several effectors involved in DNA repair and chromatin remodeling. However the exact function of the PAR-signalling during early DNA damage response and in particular during chromatin remodeling at DNA breaks remains unclear. During my PhD, I used advanced fluorescent imaging tools to study in living cells the dynamics of chromatin in the nucleus at a local scale upon DNA damage. I used these tools to study PAR-dependent chromatin relaxation after DNA damage and to screen factors that selectively alter the dynamic behaviour of the damaged chromatin. This methodology allowed us to identify PAR-dependent factors involved in the local chromatin remodeling upon DNA damage.

Noyau

Chromatine

Histones

Dommages à l'ADN

Réparation de l'ADN

Intégrité de l'information génétique

Microscopie de fluorescence

Nucleus

Nuclear architecture

Chromatin

Chromosome dynamics

DNA damage

DNA repair

Fluorescence microscopy

Nuclear architecture and DNA repair : double-strand breaks repair at the nuclear periphery / Architecture nucléaire et réparation de l'ADN : réparation des cassures double brins de l'ADN en périphérie du noyau

Lemaître, Charlène

19 December 2014

L'ADN peut être endommagé par des facteurs environnementaux ou intrinsèques au fonctionnement des cellules. Ces facteurs induisent différents types de lésions dont les cassures double brins (CDBs). Les CDBs sont particulièrement dangereuses pour les cellules et une réparation inefficace ou non précise de ces cassures peut entraîner des mutations ou des translocations qui peuvent être à l'origine de cancer. Afin d'éviter l'instabilité génétique que peuvent induire les CDBs, les cellules ont développé deux principaux mécanismes de réparation: la ligature d'extrémités non homologues (NHEJ pour non homologous end joining) et la recombinaison homologue (HR pour homologous recombination). L’utilisation de l’un ou de l’autre de ces mécanismes est finement régulée et une dérégulation de cet équilibre induit une importante instabilité génomique.Tous ces mécanismes ont lieu dans le noyau des cellules qui, chez les mammifères est fortement hétérogène, comportant différents compartiments et des régions où la chromatine est plus ou moins compacte. Cette hétérogénéité implique que la réparation de l’ADN doit pouvoir être efficace dans différents contextes nucléaires. Au cours de ma thèse, j’ai étudié l’influence de l’architecture nucléaire sur le choix des mécanismes de réparation des CDBs. J’ai montré d’une part que la protéine appartenant au pore nucléaire Nup153 influence l’équilibre entre HR et NHEJ et d’autre part que la position d’une CDB influe sur le choix du mécanisme de réparation.Mes résultats démontrent que l’organisation des gènes dans le noyau est un nouveau paramètre à prendre en compte dans l’étude des mécanismes de réparation de l’ADN et de tumorigénèse. / DNA is constantly assaulted by various damaging agents, leading to different types of lesions including double-strand breaks (DSBs). DSBs are the most harmful lesions to the cells and their inaccurate or inefficient repair can trigger genomic instability and tumorigenesis. To cope with DSBs, cells evolved several repair pathways, including non-homologous end joining (NHEJ) and homologous recombination (HR). A fine regulation of the balance between these two pathways is necessary to avoid genomic instability.All of these mechanisms happen in the nucleus, which is highly heterogeneous in mammalian cells. Indeed, it encompasses several compartments and regions of various chromatin compaction levels. My PhD project focused on the influence of nuclear architecture on DNA repair pathway choice. I demonstrated on one hand that the nuclear pore protein Nup153 influences the balance between HR and NHEJ and on the other hand that the position of a DSB influences the choice of the repair pathway that will be used.My results demonstrate that gene positioning is a new important parameter in the study of DNA repair and tumorigenesis.

Réparation de l’ADN

Architecture nucléaire

Position des gènes

Pores nucléaires

Enveloppe nucléaire

DNA repair

Nuclear architecture

Gene positioning

Nuclear pores

Nuclear envelope

572.8

616.994

Statistical analysis and modeling of nuclear architecture in Arabidopsis Thaliana / Analyse statistique et modélisation de l'architecture nucléaire chez Arabidopsis thaliana

Arpón, Javier

09 November 2016

Les noyaux des cellules eucaryotes contiennent différents compartiments définis fonctionnellement ou structurellement et à multiples échelles qui présentent une distribution spatiale très ordonnée. Un défi majeur est alors d'identifier les règles selon lesquelles les compartiments nucléaires sont organisés dans l'espace et de décrire comment ces règles peuvent varier en fonction des conditions physiologiques ou expérimentales. Les statistiques spatiales ont rarement été utilisées à cette fin et se sont généralement limitées à l'évaluation de l'aléatoire complet. Ici, nous développons une approche de statistiques spatiales qui combine la cytologie, l'analyse d'image et la modélisation spatiale pour mieux comprendre les configurations spatiales à l'intérieur du noyau. Notre première contribution est un cadre méthodologique qui permet de tester des modèles d'organisation spatiale au niveau de la population. Plusieurs modèles spatiaux ont été proposés et mis en œuvre, en particulier l'aléatoire, l'aléatoire orbitale, la régularité maximale, l'aléatoire territoriale et l'aléatoire territoriale orbitale, pour analyser la distribution d'objets biologiques dans des domaines 3D finis et de formes arbitraires. De nouveaux descripteurs spatiaux, combinés aux descripteurs classiques, sont utilisés pour comparer les motifs observés à des configurations attendues sous les modèles testés. Une version non biaisée d'un test statistique publié précédemment est proposé pour évaluer la qualité de l'ajustement des modèles spatiaux sur les distributions observées. Après, nous étudions les propriétés de l'approche proposée à partir de données réelles et simulées. La robustesse de l'approche proposée aux erreurs de segmentation et la fiabilité des évaluations spatiales sont examinées. En outre, la base d'une méthode pour comparer les distributions spatiales entre différents groupes expérimentaux est proposée. Dans la dernière partie de ce travail, notre approche est appliquée à des images de noyaux cellulaires de la feuille chez A. thaliana, pour analyser la distribution spatiale de compartiments dynamiques et plastiques d'hétérochromatine, les chromocentres, qui ont un rôle important dans la structure du génome. Des noyaux isolés et des cryo-sections provenant de plantes de type sauvage ont été analysés. Nous montrons que les chromocentres présentent une distribution très régulière, ce qui confirme les résultats publiés précédemment. En utilisant nos nouveaux descripteurs, nous démontrons pour la première fois, objectivement et quantitativement, que les chromocentres présentent une localisation préférentielle périphérique. En employant un nouveau modèle spatial, nous rejetons l'hypothèse selon laquelle l'organisation régulière observée est uniquement expliquée par un positionnement périphérique. Nous démontrons en outre que les chromocentres affichent une régularité spatiale proche de la régularité maximale à l'échelle globale, mais pas à l'échelle locale. Enfin, nous utilisons des simulations pour tester un modèle selon lequel le positionnement des chromocentres est déterminé par les territoires chromosomiques et par des interactions avec l'enveloppe nucléaire. Nous avons ensuite vérifié s'il la distribution des chromocentres pouvait être modifiée par différentes mutations. Nous avons analysé les données de noyaux des mutants crwn et kaku, qui sont connus pour influencer la morphologie nucléaire. Les résultats suggèrent que ces mutations impactent en effet la morphologie nucléaire et les caractéristiques de l'hétérochromatine, mais ne modifient pas la régularité de la distribution des chromocentres même si la distance à la frontière du noyau est affectée. La généricité du cadre proposé pour analyser les distributions d'objets dans des domaines 3D finis et la possibilité d'ajouter de nouveaux modèles et descripteurs spatiaux devrait permettre d'analyser des organisations spatiales au sein de différents systèmes biologiques et à différentes échelles. / Eukaryotic cell nuclei contain distinct functionally or structurally defined compartments at multiple scale that present a highly ordered spatial arrangement. Several studies in plants and animals have pointed out to links between nuclear organization and genome functions. A key challenge is to identify rules according to which nuclear compartments are organized in space and to describe how these rules may vary according to physiological or experimental conditions. Spatial statistics have been rarely used for this purpose, and were generally limited to the evaluation of complete spatial randomness. In this Thesis, we develop a spatial statistical approach, which combines cytology, image analysis and spatial modeling to better understand spatial configurations inside the nucleus. Our first contribution is a methodological framework that allows to test models of spatial organization at the population level. Several spatial models have been developed and implemented, including randomness, orbital randomness, maximum regularity, territorial randomness or orbital territorial randomness of biological objects within finite 3D domains of arbitrary shape. New spatial descriptors, in combination with classical ones, are used to compare observed patterns to expected configurations under the tested models. An unbiased version of a previously published statistical test is proposed to evaluate the goodness-of-fit of spatial models over populations of observed patterns. In the second part of this Thesis, we investigate the properties of the proposed approach using simulated and real data. The robustness of the proposed approach to segmentation errors and the reliability of the spatial evaluations are examined. Besides, the basis for a method to compare spatial distributions between different experimental groups is proposed. In the last part of this work, the proposed approach is applied on A. thaliana leaf cell nuclei images to analyze the spatial distribution of chromocenters, which are dynamic and plastic heterochromatic compartments that have an important structural role in the genome. A first application was to analyze isolated and cryo-section nuclei from wild type plants. We show that chromocenters present a highly regular distribution, confirming previously published results. Using new spatial statistical descriptors, we then demonstrate objectively and quantitatively, for the first time, that chromocenters exhibit a preferentially peripheral localization. Employing a new spatial model, we then reject the hypothesis that the regular organization is explained solely by the peripheral positioning. We further demonstrate that chromocenters organization displays a close-to-maximum spatial regularity at the global scale, but not at the local one. Lastly, we use simulations to examine a model according to which chromocenters positioning is constrained by chromosome territories and by interactions with the nuclear boundary. The second application was to elucidate whether chromocenters distribution could be altered under different mutations. We analyze nuclei data from crwn and kaku mutants, which are known to affect nuclear morphology. The results suggest that these mutations impact on nuclear morphology and on heterochromatin features but do not alter the regularity of chromocenters distribution even when the relative distance to the border is affected. The genericity of the proposed framework to analyze object distributions in finite 3D domains and its expandability to add more spatial models and spatial descriptors should be of interest to decipher spatial organizations within biological systems at various scales.

Statistiques spatiales

Processus pontuels

Imagerie biologique 3D

Architecture nucléaire

Hétérochromatine constitutive

A. thaliana

Statistical spatial analysis

Point processes

3D biological imaging

Nuclear architecture

Constitutive heterochromatin

A. thaliana

Vztah vyšších chromatinových struktur a genové umlčování / The relationship between higher order chromain structure and gene silencing

Šmigová, Jana

January 2012

No description available.