Your search keyword '"van Steensel, Bas"' showing total 18 results

1. Comprehensive analysis of nucleocytoplasmic dynamics of mRNA in Drosophila cells.

Author

Chen, Tao and van Steensel, Bas

Subjects

*NUCLEOCYTOPLASMIC interactions, *MESSENGER RNA, *DROSOPHILA genetics, *RNA-binding proteins, *RIBOSOMAL proteins

Abstract

Eukaryotic mRNAs undergo a cycle of transcription, nuclear export, and degradation. A major challenge is to obtain a global, quantitative view of these processes. Here we measured the genome-wide nucleocytoplasmic dynamics of mRNA in Drosophila cells by metabolic labeling in combination with cellular fractionation. By mathematical modeling of these data we determined rates of transcription, export and cytoplasmic decay for 5420 genes. We characterized these kinetic rates and investigated links with mRNA features, RNA-binding proteins (RBPs) and chromatin states. We found prominent correlations between mRNA decay rate and transcript size, while nuclear export rates are linked to the size of the 3'UTR. Transcription, export and decay rates are each associated with distinct spectra of RBPs. Specific classes of genes, such as those encoding cytoplasmic ribosomal proteins, exhibit characteristic combinations of rate constants, suggesting modular control. Binding of splicing factors is associated with faster rates of export, and our data suggest coordinated regulation of nuclear export of specific functional classes of genes. Finally, correlations between rate constants suggest global coordination between the three processes. Our approach provides insights into the genome-wide nucleocytoplasmic kinetics of mRNA and should be generally applicable to other cell systems. [ABSTRACT FROM AUTHOR]

Published

2017

2. High-throughput assessment of context-dependent effects of chromatin proteins.

Author

Brueckner, Laura, van Arensbergen, Joris, Akhtar, Waseem, Pagie, Ludo, and van Steensel, Bas

Subjects

CHROMATIN, DROSOPHILA proteins, HETEROCHROMATIN, REPORTER genes, GENE silencing, GENE expression

Abstract

Background: Chromatin proteins control gene activity in a concerted manner. We developed a high-throughput assay to study the effects of the local chromatin environment on the regulatory activity of a protein of interest. The assay combines a previously reported multiplexing strategy based on barcoded randomly integrated reporters with Gal4-mediated tethering. We applied the assay to Drosophila heterochromatin protein 1a (HP1a), which is mostly known as a repressive protein but has also been linked to transcriptional activation. Results: Recruitment to over 1000 genomic locations revealed that HP1a is a potent repressor able to silence even highly expressing reporter genes. However, the local chromatin context can modulate HP1a function. In pericentromeric regions, HP1a-induced repression was enhanced by twofold. In regions marked by a H3K36me3-rich chromatin signature, HP1a-dependent silencing was significantly decreased. We found no evidence for an activating function of HP1a in our experimental system. Furthermore, we did not observe stable transmission of repression over mitotic divisions after loss of targeted HP1a. Conclusions: The multiplexed tethered reporter assay should be applicable to a large number of chromatin proteins and will be a useful tool to dissect combinatorial regulatory interactions in chromatin. [ABSTRACT FROM AUTHOR]

Published

2016

3. Mechanisms and dynamics of nuclear lamina–genome interactions.

Author

Amendola, Mario and van Steensel, Bas

Subjects

*NUCLEAR membranes, *CHROMOSOMES, *GENE expression, *DNA-protein interactions, *NUCLEOTIDE sequence, *RNA editing, *CELL differentiation

Abstract

The nuclear lamina (NL) interacts with the genomic DNA and is thought to influence chromosome organization and gene expression. Both DNA sequences and histone modifications are important for NL tethering of the genomic DNA. These interactions are dynamic in individual cells and can change during differentiation and development. Evidence is accumulating that the NL contributes to the repression of transcription. Advances in mapping, genome-editing and microscopy techniques are increasing our understanding of the molecular mechanisms involved in NL–genome interactions. [ABSTRACT FROM AUTHOR]

Published

2014

4. Differential Programming of B Cells in AID Deficient Mice.

Author

Hogenbirk, Marc A., Heideman, Marinus R., Velds, Arno, van den Berk, Paul CM., Kerkhoven, Ron M., van Steensel, Bas, and Jacobs, Heinz

Subjects

B cells, LOCUS (Genetics), CYTIDINE deaminase, GENETIC code, GERMINAL centers, GENE expression, ENZYME deficiency, SOMATIC mutation, LABORATORY mice

Abstract

The Aicda locus encodes the activation induced cytidine deaminase (AID) and is highly expressed in germinal center (GC) B cells to initiate somatic hypermutation (SHM) and class switch recombination (CSR) of immunoglobulin (Ig) genes. Besides these Ig specific activities in B cells, AID has been implicated in active DNA demethylation in non-B cell systems. We here determined a potential role of AID as an epigenetic eraser and transcriptional regulator in B cells. RNA-Seq on different B cell subsets revealed that Aicda−/− B cells are developmentally affected. However as shown by RNA-Seq, MethylCap-Seq, and SNP analysis these transcriptome alterations may not relate to AID, but alternatively to a CBA mouse strain derived region around the targeted Aicda locus. These unexpected confounding parameters provide alternative, AID-independent interpretations on genotype-phenotype correlations previously reported in numerous studies on AID using the Aicda−/− mouse strain. [ABSTRACT FROM AUTHOR]

Published

2013

5. Hox in space.

Author

Pindyurin, Alexey V. and van Steensel, Bas

Subjects

*CHROMATIN, *GENE expression, *GENETIC regulation, *HOMEOBOX genes, *MOLECULAR conformation

Abstract

The spatial folding of chromatin has been proposed to be involved in the regulation and coordination of gene expression. The mammalian Hox gene clusters form a particularly interesting case of coordinated gene regulation. Within each Hox cluster, the linear order of the genes closely reflects their temporal and anatomical expression pattern. This striking phenomenon suggests that the overall structure of the Hox clusters is important for their regulation. Recent studies employing chromatin conformation capture techniques indicate that Hox clusters adopt a remarkable spatial configuration, in which active and inactive genes are segregated into two distinct chromatin compartments. Here we discuss the possible underlying mechanisms and regulatory roles of this spatial compartmentalization. [ABSTRACT FROM AUTHOR]

Published

2012

6. The inner nuclear membrane proteins Man1 and Ima1 link to two different types of chromatin at the nuclear periphery in S. pombe.

Author

Steglich, Babett, Filion, Guillaume, van Steensel, Bas, and Ekwall, Karl

Subjects

CHROMATIN, SCHIZOSACCHAROMYCES pombe, NUCLEAR membranes, MEMBRANE proteins, RNA polymerases, GENE expression, GENETIC transcription

Abstract

Metazoan chromatin at the nuclear periphery is generally characterized by lowly expressed genes and repressive chromatin marks and presents a sub-compartment with properties distinct from the nuclear interior. To test whether the S. pombe nuclear periphery behaves similarly, we used DNA adenine methyltransferase identification (DamID) to map the target loci of two inner nuclear membrane proteins, Ima1 and Man1. We found that peripheral chromatin shows low levels of RNA-Polymerase II and nucleosome occupancy, both characteristic of repressed chromatin regions. Consistently, lowly expressed genes preferentially associate with the periphery and highly expressed genes are depleted from it. When looking at peripheral intergenic regions (IGRs), we found that divergent IGRs are enriched compared with convergent IGRs, indicating that transcription preferentially points away from the periphery rather than toward it. Interestingly, we found that Ima1 and Man1 have common, but also separate target regions in the genome. Ima1-interacting loci were enriched for the RNAi components Dcr1 and Rdp1. This agrees with previous findings that Dcr1 is localized at the nuclear periphery. In contrast, Man1 target loci were bound by the heterochromatin protein Swi6, especially at subtelomeric regions. Subtelomeric chromatin was shown to form a unique chromatin type lacking both repressive and active chromatin features and containing low levels of the histone variant H2A.Z. Thus, we find that the fission yeast nuclear periphery shows similar properties to those of metazoan cells, despite the absence of a nuclear lamina. Our results point to a role of nuclear membrane proteins in organizing chromatin domains and loops [ABSTRACT FROM AUTHOR]

Published

2012

7. Interactions among Polycomb Domains Are Guided by Chromosome Architecture.

Author

Tolhuis, Bas, Blom, Marleen, Kerkhoven, Ron M., Pagie, Ludo, Teunissen, Hans, Nieuwland, Marja, Simonis, Marieke, de Laat, Wouter, van Lohuizen, Maarten, and van Steensel, Bas

Subjects

CHROMOSOMES, PROTEINS, GENES, DROSOPHILA melanogaster, GENE expression, CHROMATIN, GENETIC regulation

Published

2011

8. The Insulator Protein SU(HW) Fine-Tunes Nuclear Lamina Interactions of the Drosophila Genome.

Author

van Bemmel, Joke G., Pagie, Ludo, Braunschweig, Ulrich, Brugman, Wim, Meuleman, Wouter, Kerkhoven, Ron M., and van Steensel, Bas

Subjects

DROSOPHILA, PROTEINS, GENE expression, GENETIC regulation, CELL nuclei, CHROMOSOMES

Abstract

Specific interactions of the genome with the nuclear lamina (NL) are thought to assist chromosome folding inside the nucleus and to contribute to the regulation of gene expression. High-resolution mapping has recently identified hundreds of large, sharply defined lamina-associated domains (LADs) in the human genome, and suggested that the insulator protein CTCF may help to demarcate these domains. Here, we report the detailed structure of LADs in Drosophila cells, and investigate the putative roles of five insulator proteins in LAD organization. We found that the Drosophila genome is also organized in discrete LADs, which are about five times smaller than human LADs but contain on average a similar number of genes. Systematic comparison to new and published insulator binding maps shows that only SU(HW) binds preferentially at LAD borders and at specific positions inside LADs, while GAF, CTCF, BEAF-32 and DWG are mostly absent from these regions. By knockdown and overexpression studies we demonstrate that SU(HW) weakens genome - NL interactions through a local antagonistic effect, but we did not obtain evidence that it is essential for border formation. Our results provide insights into the evolution of LAD organization and identify SU(HW) as a fine-tuner of genome - NL interactions. [ABSTRACT FROM AUTHOR]

Published

2010

9. Linking Cohesin to Gene Regulation

Author

Peric-Hupkes, Daniel and van Steensel, Bas

Subjects

*CELL division, *CELL proliferation, *CHROMOSOMES, *GENE expression

Abstract

During cell division the cohesin complex mediates the pairing of sister chromatids. Emerging evidence shows that cohesin also has roles in interphase cells. New studies, including that of in this issue, reveal how cohesin is targeted to specific sites on chromosomes and implicate cohesin in the regulation of gene expression. [Copyright &y& Elsevier]

Published

2008

10. HP1 controls genomic targeting of four novel heterochromatin proteins in Drosophila.

Author

Greil, Frauke, de Wit, Elzo, Bussemaker, Harmen J., and van Steensel, Bas

Subjects

HETEROCHROMATIN, DROSOPHILA, GENOMES, GENE expression, PROTEINS, IMMUNOFLUORESCENCE

Abstract

Heterochromatin is important for the maintenance of genome stability and regulation of gene expression; yet our knowledge of heterochromatin structure and function is incomplete. We identified four novel Drosophila heterochromatin proteins (HPs). Three of these proteins (HP3, HP4 and HP5) interact directly with HP1, whereas HP6 in turn binds to each of these three proteins. Immunofluorescence microscopy and genome-wide mapping of in vivo binding sites shows that all four proteins are components of heterochromatin. Depletion of HP1 causes redistribution of all four proteins, indicating that HP1 is essential for their heterochromatic targeting. Finally, mutants of HP4 and HP5 are dominant suppressors of position effect variegation, demonstrating their importance in heterochromatic gene silencing. These results indicate that HP1 acts as a docking platform for several mediator proteins that contribute to heterochromatin function. [ABSTRACT FROM AUTHOR]

Published

2007

11. Characterization of the Drosophila melanogaster genome at the nuclear lamina.

Author

Pickersgill, Helen, Kalverda, Bernike, de Wit, Elzo, Talhout, Wendy, Fornerod, Maarten, and van Steensel, Bas

Subjects

DROSOPHILA melanogaster, CHROMATIN, HISTONES, GENE expression, GENOMES, GENETIC research

Abstract

The nuclear lamina binds chromatin in vitro and is thought to function in its organization, but genes that interact with it are unknown. Using an in vivo approach, we identified ∼500 Drosophila melanogaster genes that interact with B-type lamin (Lam). These genes are transcriptionally silent and late replicating, lack active histone marks and are widely spaced. These factors collectively predict lamin binding behavior, indicating that the nuclear lamina integrates variant and invariant chromatin features. Consistently, proximity of genomic regions to the nuclear lamina is partly conserved between cell types, and induction of gene expression or active histone marks reduces Lam binding. Lam target genes cluster in the genome, and these clusters are coordinately expressed during development. This genome-wide analysis gives clear insight into the nature and dynamic behavior of the genome at the nuclear lamina, and implies that intergenic DNA functions in the global organization of chromatin in the nucleus. [ABSTRACT FROM AUTHOR]

Published

2006

12. Systematic analysis of intrinsic enhancer-promoter compatibility in the mouse genome.

Author

Martinez-Ara, Miguel, Comoglio, Federico, van Arensbergen, Joris, and van Steensel, Bas

Subjects

*MICE, *GENOMES, *GENETIC regulation, *TRANSCRIPTION factors, *GENE expression, *CIS-regulatory elements (Genetics)

Abstract

Gene expression is in part controlled by cis -regulatory elements (CREs) such as enhancers and repressive elements. Anecdotal evidence has indicated that a CRE and a promoter need to be biochemically compatible for promoter regulation to occur, but this compatibility has remained poorly characterized in mammalian cells. We used high-throughput combinatorial reporter assays to test thousands of CRE-promoter pairs from three Mb-sized genomic regions in mouse cells. This revealed that CREs vary substantially in their promoter compatibility, ranging from striking specificity to broad promiscuity. More than half of the tested CREs exhibit significant promoter selectivity. Housekeeping promoters tend to have similar CRE preferences, but other promoters exhibit a wide diversity of compatibilities. Higher-order transcription factors (TF) motif combinations may account for compatibility. CRE-promoter selectivity does not correlate with looping interactions in the native genomic context, suggesting that chromatin folding and compatibility are two orthogonal mechanisms that confer specificity to gene regulation. [Display omitted] • Intrinsic compatibility of thousands of enhancer-promoter combinations was tested • Compatibilities exhibit a broad spectrum, from promiscuous to highly specific • Enhancer-promoter compatibility and chromatin looping appear to be independent A major question in genome biology is how enhancers "choose" their target promoter. Using high-throughput reporter assays, Martinez-Ara and colleagues surveyed the intrinsic compatibilities of thousands of enhancer-promoter pairs in mouse cells. They found a wide diversity of specificities, mostly likely driven by a complex grammar of sequence motifs. [ABSTRACT FROM AUTHOR]

Published

2022

13. Chromatin Position Effects Assayed by Thousands of Reporters Integrated in Parallel.

Author

Akhtar, Waseem, de?Jong, Johann, Pindyurin, Alexey?V., Pagie, Ludo, Meuleman, Wouter, de?Ridder, Jeroen, Berns, Anton, Wessels, Lodewyk?F.A., van?Lohuizen, Maarten, and van?Steensel, Bas

Subjects

*CHROMATIN, *REPORTER genes, *GENE expression, *GENETIC transcription, *EMBRYONIC stem cells, *PROMOTERS (Genetics)

Abstract

Summary: Reporter genes integrated into the genome are a powerful tool to reveal effects of regulatory elements and local chromatin context on gene expression. However, so far such reporter assays have been of low throughput. Here, we describe a multiplexing approach for the parallel monitoring of transcriptional activity of thousands of randomly integrated reporters. More than 27,000 distinct reporter integrations in mouse embryonic stem cells, obtained with two different promoters, show ∼1,000-fold variation in expression levels. Data analysis indicates that lamina-associated domains act as attenuators of transcription, likely by reducing access of transcription factors to binding sites. Furthermore, chromatin compaction is predictive of reporter activity. We also found evidence for crosstalk between neighboring genes and estimate that enhancers can influence gene expression on average over ∼20 kb. The multiplexed reporter assay is highly flexible in design and can be modified to query a wide range of aspects of gene regulation. [ABSTRACT FROM AUTHOR]

Published

2013

14. A Direct Role for Cohesin in Gene Regulation and Ecdysone Response in Drosophila Salivary Glands

Author

Pauli, Andrea, van Bemmel, Joke G., Oliveira, Raquel A., Itoh, Takehiko, Shirahige, Katsuhiko, van Steensel, Bas, and Nasmyth, Kim

Subjects

*GENETIC regulation, *DROSOPHILA, *ECDYSONE, *SALIVARY glands, *HUMAN abnormalities, *SISTER chromatid exchange, *GENE expression, *STEROID hormones

Abstract

Summary: Background: Developmental abnormalities observed in Cornelia de Lange syndrome have been genetically linked to mutations in the cohesin machinery. These and other recent experimental findings have led to the suggestion that cohesin, in addition to its canonical function of mediating sister chromatid cohesion, might also be involved in regulating gene expression. Results: We report that cleavage of cohesin''s kleisin subunit in postmitotic Drosophila salivary glands induces major changes in the transcript levels of many genes. Kinetic analyses of changes in transcript levels upon cohesin cleavage reveal that a subset of genes responds to cohesin cleavage within a few hours. In addition, cohesin binds to most of these loci, suggesting that cohesin is directly regulating their expression. Among these genes are several that are regulated by the steroid hormone ecdysone. Cytological visualization of transcription at selected ecdysone-responsive genes reveals that puffing at Eip74EF ceases within an hour or two of cohesin cleavage, long before any decline in ecdysone receptor could be detected at this locus. Conclusion: We conclude that cohesin regulates expression of a distinct set of genes, including those mediating the ecdysone response. [Copyright &y& Elsevier]

Published

2010

15. Molecular Maps of the Reorganization of Genome-Nuclear Lamina Interactions during Differentiation

Author

Peric-Hupkes, Daan, Meuleman, Wouter, Pagie, Ludo, Bruggeman, Sophia W.M., Solovei, Irina, Brugman, Wim, Gräf, Stefan, Flicek, Paul, Kerkhoven, Ron M., van Lohuizen, Maarten, Reinders, Marcel, Wessels, Lodewyk, and van Steensel, Bas

Subjects

*GENOMES, *CELL differentiation, *CHROMOSOMES, *EMBRYONIC stem cells, *GENE expression, *CELL lines, *MOLECULAR biology

Abstract

Summary: The three-dimensional organization of chromosomes within the nucleus and its dynamics during differentiation are largely unknown. To visualize this process in molecular detail, we generated high-resolution maps of genome-nuclear lamina interactions during subsequent differentiation of mouse embryonic stem cells via lineage-committed neural precursor cells into terminally differentiated astrocytes. This reveals that a basal chromosome architecture present in embryonic stem cells is cumulatively altered at hundreds of sites during lineage commitment and subsequent terminal differentiation. This remodeling involves both individual transcription units and multigene regions and affects many genes that determine cellular identity. Often, genes that move away from the lamina are concomitantly activated; many others, however, remain inactive yet become unlocked for activation in a next differentiation step. These results suggest that lamina-genome interactions are widely involved in the control of gene expression programs during lineage commitment and terminal differentiation. [Copyright &y& Elsevier]

Published

2010

16. Distinct HP1 and Su(var)3-9 complexes bind to sets of developmentally coexpressed genes depending on chromosomal location.

Author

Greil, Frauke, Van der Kraan, Ineke, Delrow, Jeffrey, Smothers, James F., De Wit, Elzo, Bussemaker, Harmen J., Van Driel, Roel, Henikoff, Steven, and Van Steensel, Bas

Subjects

*HETEROCHROMATIN, *PROTEINS, *CHROMATIN, *GENETIC regulation, *GENES, *CHROMOSOMES

Abstract

Heterochromatin proteins are thought to play key roles in chromatin structure and gene regulation, yet very few genes have been identified that are regulated by these proteins. We performed large-scale mapping and analysis of in vivo target loci of the proteins HP1, HP1c, and Su(var)3-9 in Drosophila Kc cells, which are of embryonic origin. For each protein, we identified ∼100-200 target genes among >6000 probed loci. We found that HP1 and Su(var)3-9 bind together to transposable elements and genes that are predominantly pericentric. In addition, Su(var)3-9 binds without HP1 to a distinct set of nonpericentric genes. On chromosome 4, HP1 binds to many genes, mostly independent of Su(var)3-9. The binding pattern of HP1c is largely different from those of HP1 and Su(var)3-9. Target genes of HP1 and Su(var)3-9 show lower expression levels in Kc cells than do nontarget genes, but not if they are located in pericentric regions. Strikingly, in pericentric regions, target genes of Su(var)3-9 and HP1 are predominantly embryo-specific genes, whereas on the chromosome arms Su(var)3-9 is preferentially associated with a set of male-specific genes. These results demonstrate that, depending on chromosomal location, the HP1 and Su(var)3-9 proteins form different complexes that associate with specific sets of developmentally coexpressed genes. [ABSTRACT FROM AUTHOR]

Published

2003

17. The Cohesin Release Factor WAPL Restricts Chromatin Loop Extension.

Author

Haarhuis, Judith H.I., van der Weide, Robin H., Blomen, Vincent A., Yáñez-Cuna, J. Omar, Amendola, Mario, van Ruiten, Marjon S., Krijger, Peter H.L., Teunissen, Hans, Medema, René H., van Steensel, Bas, Brummelkamp, Thijn R., de Wit, Elzo, and Rowland, Benjamin D.

Subjects

*COHESINS, *CHROMATIN, *CHROMOSOMES, *GENE expression, *TRANSCRIPTIONAL repressor CTCF

Abstract

Summary The spatial organization of chromosomes influences many nuclear processes including gene expression. The cohesin complex shapes the 3D genome by looping together CTCF sites along chromosomes. We show here that chromatin loop size can be increased and that the duration with which cohesin embraces DNA determines the degree to which loops are enlarged. Cohesin’s DNA release factor WAPL restricts this loop extension and also prevents looping between incorrectly oriented CTCF sites. We reveal that the SCC2/SCC4 complex promotes the extension of chromatin loops and the formation of topologically associated domains (TADs). Our data support the model that cohesin structures chromosomes through the processive enlargement of loops and that TADs reflect polyclonal collections of loops in the making. Finally, we find that whereas cohesin promotes chromosomal looping, it rather limits nuclear compartmentalization. We conclude that the balanced activity of SCC2/SCC4 and WAPL enables cohesin to correctly structure chromosomes. [ABSTRACT FROM AUTHOR]

Published

2017

18. Chromosome-wide gene-specific targeting of the Drosophila dosage compensation complex.

Author

Gilfillan, Gregor D., Straub, Tobias, De Wit, Elzo, Greil, Frauke, Lamm, Rosemarie, Van Steensel, Bas, and Becker, Peter B.

Subjects

*X chromosome, *DROSOPHILA melanogaster, *PROTEIN binding, *CHROMATIN, *PROTEIN microarrays

Abstract

The dosage compensation complex (DCC) of Drosophila melanogaster is capable of distinguishing the single male X from the other chromosomes in the nucleus. It selectively interacts in a discontinuous pattern with much of the X chromosome. How the DCC identifies and binds the X, including binding to the many genes that require dosage compensation, is currently unknown. To identify bound genes and attempt to isolate the targeting cues, we visualized male-specific lethal 1 (MSL1) protein binding along the X chromosome by combining chromatin immunoprecipitation with high-resolution microarrays. More than 700 binding regions for the DCC were observed, encompassing more than half the genes found on the X chromosome. In addition, several rare autosomal binding sites were identified. Essential genes are preferred targets, and genes binding high levels of DCC appear to experience the most compensation (i.e., greatest increase in expression). DCC binding clearly favors genes over intergenic regions, and binds most strongly to the 3' end of transcription units. Within the targeted genes, the DCC exhibits a strong preference for exons and coding sequences. Our results demonstrate gene-specific binding of the DCC, and identify several sequence elements that may partly direct its targeting. [ABSTRACT FROM AUTHOR]

Published

2006