| scholarly article | Q13442814 |
| P2093 | author name string | Park Y | |
| Kuroda MI | |||
| Kelley RL | |||
| Chu X | |||
| Meller VH | |||
| Stuckenholz C | |||
| Gordadze PR | |||
| P2860 | cites work | A steroid receptor coactivator, SRA, functions as an RNA and is present in an SRC-1 complex | Q22009369 |
| Requirement for Xist in X chromosome inactivation | Q29614509 | ||
| The rox1 and rox2 RNAs are essential components of the compensasome, which mediates dosage compensation in Drosophila | Q33845717 | ||
| mof, a putative acetyl transferase gene related to the Tip60 and MOZ human genes and to the SAS genes of yeast, is required for dosage compensation in Drosophila | Q33886451 | ||
| The NTPase/helicase activities of Drosophila maleless, an essential factor in dosage compensation | Q33886640 | ||
| Complex formation by the Drosophila MSL proteins: role of the MSL2 RING finger in protein complex assembly | Q33889499 | ||
| Xist has properties of the X-chromosome inactivation centre | Q34064288 | ||
| roX1 RNA paints the X chromosome of male Drosophila and is regulated by the dosage compensation system | Q34416869 | ||
| Genes expressed in neurons of adult male Drosophila | Q34416877 | ||
| Long-range cis effects of ectopic X-inactivation centres on a mouse autosome | Q34419531 | ||
| Sex-lethal autoregulation requires multiple cis-acting elements upstream and downstream of the male exon and appears to depend largely on controlling the use of the male exon 5' splice site | Q36828058 | ||
| Expression of msl-2 causes assembly of dosage compensation regulators on the X chromosomes and female lethality in Drosophila | Q38294245 | ||
| Equality for X chromosomes | Q40383347 | ||
| Histone H4 isoforms acetylated at specific lysine residues define individual chromosomes and chromatin domains in Drosophila polytene nuclei | Q41116253 | ||
| Vive la différence: males vs females in flies vs worms | Q41291389 | ||
| The (epi)genetic control of mammalian X-chromosome inactivation | Q41441701 | ||
| RNA-mediated trans-activation of transcription from a viral RNA. | Q44869950 | ||
| Initial organization of the Drosophila dorsoventral axis depends on an RNA-binding protein encoded by the squid gene | Q47070855 | ||
| Acetylated histone H4 on the male X chromosome is associated with dosage compensation in Drosophila | Q47071572 | ||
| JIL-1: a novel chromosomal tandem kinase implicated in transcriptional regulation in Drosophila | Q47072002 | ||
| Dosage compensation in flies and worms: the ups and downs of X-chromosome regulation | Q48018625 | ||
| A small, stable RNA induced by oxidative stress: role as a pleiotropic regulator and antimutator | Q48047346 | ||
| Sex-specific regulation of the male-specific lethal-1 dosage compensation gene in Drosophila. | Q52541448 | ||
| Targeting of MOF, a putative histone acetyl transferase, to the X chromosome of Drosophila melanogaster. | Q52562207 | ||
| Epigenetic spreading of the Drosophila dosage compensation complex from roX RNA genes into flanking chromatin. | Q52572942 | ||
| Xist-deficient mice are defective in dosage compensation but not spermatogenesis | Q73014374 | ||
| P433 | issue | 3 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | Drosophila | Q312154 |
| P304 | page(s) | 136-143 | |
| P577 | publication date | 2000-02-01 | |
| P1433 | published in | Current Biology | Q1144851 |
| P1476 | title | Ordered assembly of roX RNAs into MSL complexes on the dosage-compensated X chromosome in Drosophila | |
| P478 | volume | 10 |
| Q60304899 | A Functional Interaction Between RHA and Ubc9, an E2-like Enzyme Specific for Sumo-1 |
| Q48077938 | A cross-species comparison of X-chromosome inactivation in Eutheria |
| Q36997406 | A new player in X identification: the CLAMP protein is a key factor in Drosophila dosage compensation |
| Q33881228 | A surrogate approach to study the evolution of noncoding DNA elements that organize eukaryotic genomes |
| Q24548503 | Acetylation of histones and transcription-related factors |
| Q34718369 | An evolutionarily conserved domain of roX2 RNA is sufficient for induction of H4-Lys16 acetylation on the Drosophila X chromosome |
| Q35156901 | Antisense long noncoding RNAs regulate var gene activation in the malaria parasite Plasmodium falciparum |
| Q37676975 | Are we there yet? Initial targeting of the Male-Specific Lethal and Polycomb group chromatin complexes in Drosophila |
| Q34077575 | Association and spreading of the Drosophila dosage compensation complex from a discrete roX1 chromatin entry site. |
| Q27334691 | Autoregulation of the Drosophila Noncoding roX1 RNA Gene |
| Q24791802 | Beyond the proteome: non-coding regulatory RNAs |
| Q24672610 | Cell cycle-dependent localization of macroH2A in chromatin of the inactive X chromosome |
| Q37374136 | Chromatin-associated ncRNA activities |
| Q40851812 | Chromodomains are protein-RNA interaction modules |
| Q78482192 | Definition of transcriptional promoters in the human beta globin locus control region |
| Q36478118 | Distinct contributions of MSL complex subunits to the transcriptional enhancement responsible for dosage compensation in Drosophila |
| 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 |
| Q36155998 | Dosage compensation in flies: mechanism, models, mystery. |
| Q36527441 | Dosage compensation, the origin and the afterlife of sex chromosomes |
| Q35097669 | Dosage compensation: an intertwined world of RNA and chromatin remodelling |
| Q34644186 | Drosophila male-specific lethal 2 protein controls sex-specific expression of the roX genes |
| Q34611217 | Evolution of dosage compensation in Diptera: the gene maleless implements dosage compensation in Drosophila (Brachycera suborder) but its homolog in Sciara (Nematocera suborder) appears to play no role in dosage compensation |
| Q58759684 | Facultative dosage compensation of developmental genes on autosomes in Drosophila and mouse embryonic stem cells |
| Q34348726 | Functional integration of the histone acetyltransferase MOF into the dosage compensation complex |
| Q34618051 | Functional redundancy within roX1, a noncoding RNA involved in dosage compensation in Drosophila melanogaster. |
| Q44919858 | Gene regulation: a reason for reading nonsense |
| Q36808734 | Genetics of antigenic variation in Plasmodium falciparum |
| Q37661361 | Highly constrained intergenic Drosophila ultraconserved elements are candidate ncRNAs |
| Q36161384 | Histone H3 lysine 9 methylation is required for DNA elimination in developing macronuclei in Tetrahymena. |
| Q34364509 | Identification and punctate nuclear localization of a novel noncoding RNA, Ks-1, from the honeybee brain |
| Q36483373 | Incorporation of the noncoding roX RNAs alters the chromatin-binding specificity of the Drosophila MSL1/MSL2 complex |
| Q52610096 | Initiation of dosage compensation in Drosophila embryos depends on expression of the roX RNAs. |
| Q35785816 | Lifting a chromosome: dosage compensation in Drosophila melanogaster |
| Q43668372 | Linking global histone acetylation to the transcription enhancement of X-chromosomal genes in Drosophila males |
| Q35965387 | Local spreading of MSL complexes from roX genes on the Drosophila X chromosome |
| Q52596870 | Localizing transcription factors on chromatin by immunofluorescence. |
| Q38990786 | Long non-coding RNAs: spatial amplifiers that control nuclear structure and gene expression |
| Q52650945 | MLE functions as a transcriptional regulator of the roX2 gene. |
| Q44455868 | MOF-regulated acetylation of MSL-3 in the Drosophila dosage compensation complex |
| Q35175997 | Misregulation of sex-lethal and disruption of male-specific lethal complex localization in Drosophila species hybrids |
| Q35808037 | Modulation of Heterochromatin by Male Specific Lethal Proteins and roX RNA in Drosophila melanogaster Males |
| Q24804998 | Multiple RNA-protein interactions in Drosophila dosage compensation |
| Q34801141 | Non-coding ribonucleic acids--a class of their own? |
| Q34070517 | Noncoding RNA genes in dosage compensation and imprinting |
| Q35159531 | Noncoding regulatory RNAs database |
| Q35744627 | Path to equality strewn with roX. |
| Q35543791 | Phylogenetics and functions of the double-stranded RNA-binding motif: a genomic survey. |
| Q35952763 | Polytene chromosomes: 70 years of genetic research. |
| Q27003991 | Posttranscriptional control of X-chromosome dosage compensation |
| Q102152446 | RNA nucleation by MSL2 induces selective X chromosome compartmentalization |
| Q39373700 | RNA-mediated regulation of heterochromatin |
| Q60907129 | RNA-on-X 1 and 2 in Drosophila melanogaster fulfill separate functions in dosage compensation |
| Q35115821 | RNAs templating chromatin structure for dosage compensation in animals |
| Q38299980 | Recruitment of the male-specific lethal (MSL) dosage compensation complex to an autosomally integrated roX chromatin entry site correlates with an increased expression of an adjacent reporter gene in male Drosophila |
| Q34087814 | Recycling to remodel: evolution of dosage-compensation complexes |
| Q35624262 | Regulation by RNA. |
| Q36846009 | Regulation of histone H4 Lys16 acetylation by predicted alternative secondary structures in roX noncoding RNAs |
| Q36572598 | Regulatory RNAs and chromatin modification in dosage compensation: a continuous path from flies to humans? |
| Q34987479 | Role of the ATPase/helicase maleless (MLE) in the assembly, targeting, spreading and function of the male-specific lethal (MSL) complex of Drosophila |
| Q34198326 | Sequence signatures involved in targeting the Male-Specific Lethal complex to X-chromosomal genes in Drosophila melanogaster |
| Q42598044 | Sequence-specific targeting of Drosophila roX genes by the MSL dosage compensation complex |
| Q37492194 | Sequence-specific targeting of MSL complex regulates transcription of the roX RNA genes |
| Q27673981 | Solution Structure of MSL2 CXC Domain Reveals an Unusual Zn3Cys9 Cluster and Similarity to Pre-SET Domains of Histone Lysine Methyltransferases |
| Q36024017 | Species-specific positive selection of the male-specific lethal complex that participates in dosage compensation in Drosophila |
| Q46717126 | Stable chromosomal association of MSL2 defines a dosage-compensated nuclear compartment |
| Q34590275 | Structural basis of X chromosome DNA recognition by the MSL2 CXC domain during Drosophila dosage compensation. |
| Q64226576 | Structural insights reveal the specific recognition of roX RNA by the dsRNA-binding domains of the RNA helicase MLE and its indispensable role in dosage compensation in Drosophila |
| Q64102421 | Structure, dynamics and roX2-lncRNA binding of tandem double-stranded RNA binding domains dsRBD1,2 of Drosophila helicase Maleless |
| Q36457173 | Structure-function analysis of the RNA helicase maleless. |
| Q42939992 | Tandem stem-loops in roX RNAs act together to mediate X chromosome dosage compensation in Drosophila |
| Q25257850 | Targeting determinants of dosage compensation in Drosophila |
| Q36238510 | Targeting dosage compensation to the X chromosome of Drosophila males |
| Q34489994 | Targeting the chromatin-remodeling MSL complex of Drosophila to its sites of action on the X chromosome requires both acetyl transferase and ATPase activities |
| Q34642977 | The Drosophila GAGA factor is required for dosage compensation in males and for the formation of the male-specific-lethal complex chromatin entry site at 12DE. |
| Q34587867 | The Drosophila dosage compensation complex binds to polytene chromosomes independently of developmental changes in transcription |
| Q34658451 | The Drosophila over compensating males gene genetically inhibits dosage compensation in males |
| Q47423114 | The MSL complex levels are critical for its correct targeting to the chromosomes in Drosophila melanogaster |
| Q26749166 | The biology of DHX9 and its potential as a therapeutic target |
| Q37426760 | The dosage compensation complex shapes the conformation of the X chromosome in Drosophila |
| Q35651163 | The genomic binding sites of a noncoding RNA. |
| Q24522499 | The histone H4 acetyltransferase MOF uses a C2HC zinc finger for substrate recognition |
| Q24607004 | The non-coding RNAs as riboregulators |
| Q35683331 | The right dose for every sex |
| Q34086038 | The roX genes encode redundant male-specific lethal transcripts required for targeting of the MSL complex |
| Q34026952 | The role of chromosomal RNAs in marking the X for dosage compensation |
| Q37138024 | Transcription rate of noncoding roX1 RNA controls local spreading of the Drosophila MSL chromatin remodeling complex |
| Q37378248 | X chromosomal regulation in flies: when less is more |
| Q34683053 | X-chromosome targeting and dosage compensation are mediated by distinct domains in MSL-3. |
| Q73006581 | XIST RNA associates with specific regions of the inactive X chromatin |
| Q40164204 | XIST RNA exhibits nuclear retention and exhibits reduced association with the export factor TAP/NXF1. |
| Q36316433 | Zinc finger protein Zn72D promotes productive splicing of the maleless transcript |
| Q35174680 | msl2 mRNA is bound by free nuclear MSL complex in Drosophila melanogaster |
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