Analysis of Maize Subgenomes Reveals No Pronounced Bias in Pericentromeric Regions

Yin, Liangwei

19 November 2021

No description available.

Bioinformatics

Study of the organisation and the transcriptional activity of mouse major satellites / L’étude de l’organisation et l’activité transcriptionnelle des satellites majeurs de la souris

Kolar-Znika, Lorena

12 May 2015

Dans les cellules de souris, l'hétérochromatine péricentromérique, caractérisée par les répétitions des satellites majeurs et une signature épigénétique spécifique, la triméthylation de l'histone H3 sur la lysine 9 (H3K9me3), est organisée en structures nucléaires particulières appelées chromocentres. Cette région est transcriptionnellement active, produisant des ARN non-codants. Pour caractériser le profil transcriptionnel des satellites majeurs, nous avons utilisé des oligonucléotides LNA séquence spécifiques, pour des expériences de northern blot. Nous avons mis en évidence un profil de transcription complexe, révélé avec les sondes conçues pour cibler les deux brins des répétitions des satellites majeurs. Ce profil est modulé en réponse au choc thermique, condition dans laquelle un court ARN transcrit par l'ARN polymérase III, est surexprimé. Cependant, des problèmes de spécificité inhérents à l'utilisation de ces sondes LNA, ne nous ont pas permis de confirmer que les transcrits détectés ont pour origine les satellites majeurs. La seconde partie de ce travail a consisté en l'étude de l'impact de la modification ciblée de H3K9me3 aux satellites majeurs par une protéine TALE fusionnée à l'histone déméthylase mJMJD2D. Nous avons montré que le signal H3K9me3 est aboli dans les cellules transfectées avec cette protéine TALE. La déméthylation provoque des changements morphologiques des chromocentres, tels que l'augmentation de la taille des foci de satellites majeurs, accompagnés par la diminution de leur nombre, suggérant la fusion de plusieurs chromocentres. / In mouse cells, pericentromeric heterochromatin, characterized by major satellite repeats and a specific epigenetic signature, the trimethylation of the histone H3 at lysine 9 (H3K9me3) is organised in particular nuclear structures called chromocenters. This region is actively transcribed, producing non-coding RNA. To investigate the transcriptional profile of major satellites, we made used of the sequence specific LNA modified oligonucleotides in northern blot experiments. We have shown that a complex transcriptional pattern is revealed with the probes designed to target both strands of the major satellite repeat. This pattern is modified in response to heat shock, in which we reveal that a short, RNA polymerase III-transcribed RNA is overexpressed. However, specificity problems encountered with the use of these LNA probes inabled us to confirm with certainty the major satellite origin of the detected transcripts. The second part of this work consisted in the studying of the impact of the targeted modification of the H3K9me3 at the major satellites by a TALE protein fused to a histone demethylase, mJMJD2D. We have shown that the H3K9me3 signal is abolished in the cells transfected with this TALE protein. The demethylation triggers morphological changes of the chromocenters such as the increase of the major satellite foci size, that are accompanied by the decrease in the foci number, suggesting the merging of several chromocenters.

Satellites majeurs

Centromère

Pericentromère

Lna

Arn

Non-Codant

Pericentromeric

Major satellite

570

Epigenetika v genové regulaci a struktuře chromatinu. / Epigenetics in gene regulation and chromatin structure.

Lađinović, Dijana

January 2019

2. Abstract Histone methylation plays an important role in almost all cellular processes and its homeostasis is maintained by histone methyltransferases and histone demethylases. Misregulation of histone methylation levels is associated with gene expression misregulation and consequently also with various developmental defects and diseases. In this thesis we focus on the lysine demethylases KDM2A and KDM2B and on their demethylation deficient isoforms KDM2A-SF and KDM2B-SF. The lysine specific demethylases KDM2A and KDM2B have been predominantly studied for their demethylation function on CpG island-rich gene promoters. However, KDM2A-SF and KDM2B-SF have not been studied in detail. Therefore, the main goal of this thesis was to characterize KDM2A-SF more in detail and to focus on the role that KDM2A/B-SF might potentially play in canonical Wnt signaling pathway. We found that the KDM2A-SF mRNA arises through the action of an alternative intronic promoter and not by alternative splicing. We showed that the KDM2A-SF start codon is located in the exon that corresponds to KDM2A exon 14 and we thus determined the exact amino acid sequence of the KDM2A-SF protein. Furthermore, using an isoform specific knockdown assay we showed that KDM2A-SF, unlike KDM2A-LF, forms distinct nuclear foci on pericentromeric...

Epigenetika v genové regulaci a struktuře chromatinu. / Epigenetics in gene regulation and chromatin structure.

Lađinović, Dijana

January 2019

2. Abstract Histone methylation plays an important role in almost all cellular processes and its homeostasis is maintained by histone methyltransferases and histone demethylases. Misregulation of histone methylation levels is associated with gene expression misregulation and consequently also with various developmental defects and diseases. In this thesis we focus on the lysine demethylases KDM2A and KDM2B and on their demethylation deficient isoforms KDM2A-SF and KDM2B-SF. The lysine specific demethylases KDM2A and KDM2B have been predominantly studied for their demethylation function on CpG island-rich gene promoters. However, KDM2A-SF and KDM2B-SF have not been studied in detail. Therefore, the main goal of this thesis was to characterize KDM2A-SF more in detail and to focus on the role that KDM2A/B-SF might potentially play in canonical Wnt signaling pathway. We found that the KDM2A-SF mRNA arises through the action of an alternative intronic promoter and not by alternative splicing. We showed that the KDM2A-SF start codon is located in the exon that corresponds to KDM2A exon 14 and we thus determined the exact amino acid sequence of the KDM2A-SF protein. Furthermore, using an isoform specific knockdown assay we showed that KDM2A-SF, unlike KDM2A-LF, forms distinct nuclear foci on pericentromeric...

Rôle de la chaperonne d'histone DAXX dans le maintien et l'établissement de l'hétérochromatine / Role of the histone chaperone DAXX in the maintenance and establishment of heterochromatin

Yettou, Guillaume

26 October 2012

Le rôle fonctionnel des transcrits de l’hétérochromatine péricentromérique reste à ce jour largement incompris chez les eucaryotes supérieurs. Néanmoins, il a été montré que ces transcrits sont soumis à un contrôle très précis, fonction du cycle cellulaire. La régulation de la transcription est fortement contrôlée par la structure de la chromatine qui peut être modifiée localement en changeant la composition biochimique du nucléosome, notamment par l’utilisation des variantes d’histones. L’objectif de ma thèse a été de mieux comprendre le rôle de la protéine chaperonne d’histone DAXX et de sa variante d’histone H3.3 dans la régulation de la transcription des séquences répétées péricentromériques. Par la méthode de purification TAP-TAG, les partenaires spécifiques de DAXX ont été identifiés à partir d’extraits solubles nucléaires de fibroblastes embryonnaires murins. Ces analyses ont mis en évidence que CAF-1, classiquement associé à H3.1, et les facteurs de remodelage de la chromatine ATRX et CHD4 interagissent spécifiquement avec DAXX. Le rôle de ces protéines dans le contrôle de la transcription de l’hétérochromatine péricentromérique a ensuite été mis en évidence par une approche combinant l’interférence ARN et la Q-PCR. Enfin, les résultats suggèrent fortement que ces mécanismes de régulation ont lieu au niveau des corps nucléaires PML. L’ensemble de ces données montre qu’il existe une régulation spatio-temporel très fine de la structure de la chromatine régulant la transcription de l’hétérochromatine péricentromérique. / The functional role of pericentromeric heterochromatin transcripts remains largely unknown in higher eukaryotes. Nevertheless, it has been shown that these transcripts are subject to very precise control, depending on the cell cycle. Regulation of transcription is tightly controlled by chromatin structure that can be modified locally by changing the biochemical composition of the nucleosome, including the use of histone variants. The aim of my thesis was to better understand the role of the histone chaperone protein DAXX and its histone variant H3.3 in the regulation of transcription of pericentromeric repeats. By the method of TAP-TAG purification, DAXX specific partners were identified from soluble nuclear extracts of murine embryonic fibroblasts. These analyzes revealed that CAF-1, classically associated with H3.1, and the chromatin remodeling factors, ATRX and CHD4, specifically interact with DAXX. The role of these proteins in the control of transcription of pericentromeric heterochromatin was then highlighted by an approach combining RNAi and Q-PCR. Finally, the results strongly suggest that these regulatory mechanisms take place at PML nuclear bodies. Taken together, these data show that there is a spatio-temporal regulation of the fine structure of chromatin regulates transcription of pericentromeric heterochromatin.

Variante d’histones

Chaperonne d’histones

Hétérochromatine péricentromérique

DAXX

H3.3

CAF-1

ATRX

CHD4

Corps nucléaires PML.

Histone variants

Histone chaperones

Pericentromeric heterochromatin

DAXX

H3.3

CAF-1

ATRX

CHD4

PML nuclear bodies

572.8