| scholarly article | Q13442814 |
| P50 | author | Peter B Becker | Q40307364 |
| P2093 | author name string | Peter B Becker | |
| Charlotte Grimaud | |||
| P2860 | cites work | A novel role for Xist RNA in the formation of a repressive nuclear compartment into which genes are recruited when silenced | Q24672840 |
| Targeting determinants of dosage compensation in Drosophila | Q25257850 | ||
| A genome-wide transgenic RNAi library for conditional gene inactivation in Drosophila | Q28236209 | ||
| Nuclear organization of the genome and the potential for gene regulation | Q28303751 | ||
| Drosophila Male-Specific Lethal-4 Protein: Structure/Function Analysis and Dependence on MSL-1 for Chromosome Association | Q30429073 | ||
| The X chromosome is organized into a gene-rich outer rim and an internal core containing silenced nongenic sequences | Q30477370 | ||
| The chromosomal high-affinity binding sites for the Drosophila dosage compensation complex. | Q33392676 | ||
| Ordered assembly of roX RNAs into MSL complexes on the dosage-compensated X chromosome in Drosophila | Q33890539 | ||
| The Drosophila MSL complex activates the transcription of target genes. | Q34055907 | ||
| GAL4 system in Drosophila: a fly geneticist's Swiss army knife | Q34151737 | ||
| Chromatin remodeling in dosage compensation | Q34467174 | ||
| An evaluation of 3C-based methods to capture DNA interactions | Q34584382 | ||
| High-resolution ChIP-chip analysis reveals that the Drosophila MSL complex selectively identifies active genes on the male X chromosome | Q34649143 | ||
| X chromosome dosage compensation: how mammals keep the balance | Q34657007 | ||
| Chromosome-wide gene-specific targeting of the Drosophila dosage compensation complex | Q34666656 | ||
| Chromosome territory reorganization in a human disease with altered DNA methylation | Q36082296 | ||
| The onset of homologous chromosome pairing during Drosophila melanogaster embryogenesis | Q36232393 | ||
| Three-dimensional reconstruction of painted human interphase chromosomes: active and inactive X chromosome territories have similar volumes but differ in shape and surface structure | Q36257706 | ||
| Inheritance of Polycomb-dependent chromosomal interactions in Drosophila | Q36335787 | ||
| Transcription-coupled methylation of histone H3 at lysine 36 regulates dosage compensation by enhancing recruitment of the MSL complex in Drosophila melanogaster | Q36710885 | ||
| The nuclear envelope and transcriptional control. | Q36840615 | ||
| Chromosome kissing | Q36969427 | ||
| Gene regulation through nuclear organization. | Q36994161 | ||
| A sequence motif within chromatin entry sites directs MSL establishment on the Drosophila X chromosome | Q37034847 | ||
| DNA sequence and the organization of chromosomal domains. | Q37092824 | ||
| Drosophila dosage compensation: a complex voyage to the X chromosome | Q37171990 | ||
| Chromatin domains in higher eukaryotes: insights from genome-wide mapping studies | Q37293276 | ||
| Megator, an essential coiled-coil protein that localizes to the putative spindle matrix during mitosis in Drosophila. | Q37594854 | ||
| Distinct functions of the Drosophila Nup153 and Nup214 FG domains in nuclear protein transport | Q39744547 | ||
| Nuclear pore components are involved in the transcriptional regulation of dosage compensation in Drosophila | Q40303626 | ||
| MSL complex is attracted to genes marked by H3K36 trimethylation using a sequence-independent mechanism | Q47072647 | ||
| The facultative heterochromatin of the inactive X chromosome has a distinctive condensed ultrastructure | Q51962163 | ||
| Epigenetic spreading of the Drosophila dosage compensation complex from roX RNA genes into flanking chromatin. | Q52572942 | ||
| P4510 | describes a project that uses | ImageJ | Q1659584 |
| P433 | issue | 21 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | Drosophila | Q312154 |
| P304 | page(s) | 2490-2495 | |
| P577 | publication date | 2009-11-01 | |
| P1433 | published in | Genes & Development | Q1524533 |
| P1476 | title | The dosage compensation complex shapes the conformation of the X chromosome in Drosophila | |
| P478 | volume | 23 |
| Q35861800 | A negative feedback loop at the nuclear periphery regulates GAL gene expression |
| Q36076860 | A role for siRNA in X-chromosome dosage compensation in Drosophila melanogaster. |
| Q37676975 | Are we there yet? Initial targeting of the Male-Specific Lethal and Polycomb group chromatin complexes in Drosophila |
| Q34995772 | Buffering and the evolution of chromosome-wide gene regulation |
| Q47671546 | Chromosome topology guides the Drosophila Dosage Compensation Complex for target gene activation. |
| Q34590236 | Differential spatial and structural organization of the X chromosome underlies dosage compensation in C. elegans |
| Q38978308 | Dosage Compensation in Drosophila-a Model for the Coordinate Regulation of Transcription |
| Q35663949 | Dosage compensation in Drosophila |
| Q37976525 | Dosage compensation in Drosophila melanogaster: epigenetic fine-tuning of chromosome-wide transcription |
| Q35079071 | Drosophila dosage compensation: males are from Mars, females are from Venus |
| Q37804574 | Functional interactions between nucleoporins and chromatin |
| Q91451586 | Global chromatin conformation differences in the Drosophila dosage compensated chromosome X |
| Q36726403 | High-Affinity Sites Form an Interaction Network to Facilitate Spreading of the MSL Complex across the X Chromosome in Drosophila |
| Q26787215 | Identification of the Drosophila X chromosome: The long and short of it |
| Q36191743 | Linking dosage compensation and X chromosome nuclear organization in C. elegans. |
| Q35002469 | Mechanisms of x chromosome dosage compensation |
| Q34680462 | Non-coding roX RNAs prevent the binding of the MSL-complex to heterochromatic regions |
| Q34241149 | Nuclear Organization and Dosage Compensation |
| Q36829705 | Nuclear Pore Complexes: Guardians of the Nuclear Genome |
| Q38054510 | Nuclear pore complex composition: a new regulator of tissue-specific and developmental functions |
| Q27003991 | Posttranscriptional control of X-chromosome dosage compensation |
| Q36480899 | Rapid evolutionary turnover underlies conserved lncRNA-genome interactions |
| Q34247942 | Revealing long noncoding RNA architecture and functions using domain-specific chromatin isolation by RNA purification |
| Q52664987 | Satellite Repeats Identify X Chromatin for Dosage Compensation in Drosophila melanogaster Males |
| Q36124752 | Sex chromosome evolution: life, death and repetitive DNA. |
| Q27673981 | Solution Structure of MSL2 CXC Domain Reveals an Unusual Zn3Cys9 Cluster and Similarity to Pre-SET Domains of Histone Lysine Methyltransferases |
| Q26999229 | Sumoylation and transcription regulation at nuclear pores |
| Q33889307 | The DNA binding CXC domain of MSL2 is required for faithful targeting the Dosage Compensation Complex to the X chromosome |
| Q35098579 | The inactive X chromosome adopts a unique three-dimensional conformation that is dependent on Xist RNA. |
| Q35125239 | Transcriptional control of a whole chromosome: emerging models for dosage compensation |
| Q89185640 | Transcriptional modulation of entire chromosomes: dosage compensation |
| Q37834443 | roX RNAs and Genome Regulation in Drosophila Melanogaster |
| Q34581018 | siRNAs from an X-linked satellite repeat promote X-chromosome recognition in Drosophila melanogaster |
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