GSE93100 |
Mrg15 allosterically activates Ash1’s H3K36 methyltransferase activity and facilitates Ash1’s trithorax group protein function in Drosophila |
GSE94803 |
small RNAs produced in the mutant Dicer-2 transgenic flies |
GSE98943 |
Gene expression changes associated with loss of KDM5 in drosophila intestine tissue |
GSE98945 |
The histone demethylase KDM5 protein shapes the gut microbiome and regulates innate immunity pathway |
GSE99509 |
Transcriptome analysis of CPSF5 dependent starvation response |
GSE99761 |
Transcriptome-wide survey of binding partner of slam protein in early Drosophila embryos |
GSE100143 |
Drosophila melangoaster Myb mutant wing discs of 3rd instar larvae. |
GSE101554 |
Genomic binding profiling upon expression of AbdA in S2 cells |
GSE101557 |
Expression of Hox transcription factors in Drosophila S2 cells |
GSE102104 |
Transcriptional profile of larval notum and flight muscle in Rbf knockdown and WT Drosophila flies |
GSE102105 |
The dual function of the tumor suppressor Rbf in flight muscle development in DrosophilaThe dual function of the tumor suppressor Rbf in flight muscle development in Drosophila |
GSE102441 |
The transcription factor Grainyhead primes epithelial enhancers for spatiotemporal activation by displacing nucleosomes |
GSE102495 |
Metabolic oscillations on the circadian time scale in Drosophila cells lacking clock genes |
GSE102537 |
Ageing-associated changes in transcription and splicing efficiency influence longevity |
GSE102922 |
Histone locus regulation by the Drosophila dosage compensation adaptor protein CLAMP |
GSE104077 |
Whole genome sequencing of Drosophila melanogaster from different microclimates at 'Evolution Canyon' |
GSE104085 |
Regulation of gene expression and RNA editing in Drosophila adapting to divergent microclimates |
GSE104957 |
Spatially uniform establishment of chromatin accessibility in the early Drosophila embryo |
GSE106093 |
Identification of spatiotemporal RNA expression during Drosophila embryonic neurogenesis [DIV-MARIS] |
GSE106094 |
Subcellular RNA localization during Drosophila embryonic neurogenesis [fractionation-Seq] |
GSE106095 |
Identification of spatiotemporal RNA expression and subcellular RNA localization during Drosophila embryonic neurogenesis |
GSE106308 |
Effect of larval nutrition on maternal mRNA contribution to the Drosophila egg |
GSE106697 |
Transcriptome and Translatome in Drosophila S2 cells treated by tsRNA transfection, serum deprivation, ago2 knockdown and rapamycin |
GSE107451 |
A single-cell transcriptome atlas of the ageing Drosophila brain |
GSE108019 |
The transcription factor Grainyhead primes epithelial enhancers for spatiotemporal activation by displacing nucleosomes [ATAC-seq Grh mutants and Human GRHL] |
GSE108525 |
Mushroom Body Ethanol RNA-seq |
GSE109355 |
Multiplex Chromatin Interactions with Single Molecule Precision |
GSE110349 |
Increased intron retention is a post-transcriptional signature associated with progressive ageing and Alzheimer’s disease |
GSE111046 |
Transcriptomic response of Drosophila melanogaster whole bodies or dissected brains to Entomophthora muscae 'Berkeley' |
GSE111334 |
Prior activity of olfactory receptor neurons is required for proper sensory processing and behavior in Drosophila larvae |
GSE113240 |
Gene regulatory network architecture in different developmental contexts influences the genetic basis of morphological evolution |
GSE114562 |
RNA-binding proteins govern neural progenitor hierarchy during development and tumorigenesis |
GSE116806 |
Genome-wide mapping of UPF1 and Pol II [ChIP-seq] |
GSE116807 |
Nascent RNA and Poly(A) RNA Seq from S2 cells [RNA-seq] |
GSE116808 |
The RNA helicase UPF1 associates with mRNAs cotranscriptionally |
GSE117217 |
Remapping the SRA: Drosophila melanogaster RNA-Seq data from the Sequence Read Archive |
GSE118266 |
NETSeq Analysis of the Effect of PARP-1 Knockdown in Drosophila Melanogaster |
GSE120100 |
Achilles-mediated and sex-specific regulation of circadian mRNA rhythms in Drosophila |
GSE120219 |
TT-TimeLaps-seq of S2 cells response to heat shock |
GSE120220 |
Harnessing enhanced nucleotide chemistry and toehold nanotechnology to reveal lncRNA spreading on chromatin |
GSE121661 |
piRNA-guided co-transcriptional silencing coopts nuclear export factors |
GSE122557 |
Mapping chromatin accessibility in stable cell lines expressing Drosophila Hox proteins, Hox cofactors Extradenticle and Homothorax, and the pioneer factor Gcm [ATAC-seq] |
GSE122573 |
Mapping genomic binding sites of Drosophila Hox proteins, Hox cofactors Extradenticle and Homothorax, and the pioneer factor Glial cells missing in stable cell lines [ChIP-seq_Stable] |
GSE122574 |
Mapping genomic binding sites of Drosophila Hox proteins and Hox cofactors, Extradenticle and Homothorax, in Kc167 cells with transient expression [ChIP-seq_Transient] |
GSE122575 |
ChIP-Seq and ATAC-Seq analysis for Hox protein binding in Drosophila Kc167 cells |
GSE122596 |
A kinesin Klp10A mediates cell cycle-dependent shuttling of Piwi between nucleus and nuage |
GSE122603 |
Chromatin architecture reorganisation during neuronal cell differentiation in Drosophila genome |
GSE122810 |
Finding binding sites for nuclear receptors in S2 Schneider cells |
GSE123272 |
Neuroblast-specific open chromatin allows the temporal transcription factor, Hunchback, to bind neuroblast-specific loci |
GSE124371 |
RNA-sequencing of RNAs found on eRpL22 paralogue-specific ribosomes in Drosophila melanogaster testis |
GSE125031 |
Heterochromatic islands in euchromatin are in spatial contacts with the hierarchically organized heterochromatin domain |
GSE126139 |
Modular transcriptional programs separately define axon and dendrite connectivity |
GSE127329 |
DRIP-seq, Drosophila melanogaster, OregonR 2-6H and 10-14H embryos and S2 cells |
GSE127776 |
Whole transcriptome bisufilte sequencing for multiple species [Drosophila] |
GSE127780 |
Whole transcriptome bisufilte sequencing for multiple species |
GSE127781 |
Expression profiling for wild type and maternal NSUN2 knockout fly |
GSE128403 |
Experimentally-evolved male effects on female gene expression in the head and abdomen |
GSE128404 |
Male reproductive tract gene expression and male effects on female gene expression in populations of Drosophila melanogaster evolving in manipulated mating systems |
GSE128924 |
Distinct and collaborative functions of Yb and Armitage in transposon-targeting piRNA biogenesis |
GSE129292 |
Time series RNA-seq analyses of Drosophila S2R+ cells after insulin stimulation |
GSE129321 |
Daedalus and Gasz recruit Armitage to mitochondria, bringing piRNA precursors to the biogenesis machinery |
GSE130243 |
Quantitative Analysis of Wild Type and scrib mutant Drosophila wing imaginal discs Transcriptomes at different time points |
GSE131811 |
The order and stochasticity in the Drosophila genome folding revealed by single-nucleus Hi-C |
GSE131950 |
Nuclear RNA export factor variant initiates piRNA-guided co-transcriptional silencing |
GSE131971 |
A single cell atlas of the developing Drosophila ovary identifies follicle stem cell progenitors |
GSE133064 |
Comparison of Drosophila melanogaster ovarian transcriptome after germline specific knock down of lid or sin3A genes |
GSE133202 |
H3K4me3 profiling in Drosophila melanogaster ovaries |
GSE133528 |
Specialization of the Drosophila nuclear export family protein, Nxf3, for piRNA precursor export |
GSE133662 |
The Toll signaling pathway targets the insulin-like peptide Dilp6 to inhibit growth in Drosophila |
GSE136136 |
In situ dissection of domain boundaries affects genome topology and gene transcription in Drosophila [RNA-seq] |
GSE136137 |
In situ dissection of domain boundaries affects genome topology and gene transcription in Drosophila |
GSE137075 |
Developmentally regulated requirement for the conserved transcription factor Grainy head in determining chromatin accessibility |
GSE137955 |
Transcriptional silencers in Drosophila serve a dual role as transcriptional enhancers in alternate cellular contexts [Hi-C] |
GSE137958 |
Transcriptional silencers in Drosophila serve a dual role as transcriptional enhancers in alternate cellular contexts |
GSE138116 |
Spaceflight and simulated microgravity conditions increase virulence of Serratia marcescens in the Drosophila melanogaster infection model |
GSE138119 |
Genomics analysis of L-DOPA exposure in Drosophila sechellia |
GSE138373 |
RNA-seq expression analysis of control and Myb mutant wing discs |
GSE138846 |
Drosophila, which Lacks Canonical Transcription-Coupled Repair Proteins, Performs Transcription-Coupled Repair |
GSE138987 |
Molecular profiling of stem cell-like female germ line cells in Drosophila delineates networks important for stemness and differentiation |
GSE139040 |
Next-generation sequencing of Drosophila melanogaster transcriptome upon removal of unique exons encoding Sgg-PA and Sgg-PB (major shaggy isoforms) |
GSE140755 |
Chromatin landscape changes of regenerating wing imaginal discs |
GSE140979 |
K27M and K36M mutations on non canonical Histone 3.3 promote redistribution of antagonistic chromatin marks, disrupted development, and tumorigenesis |
GSE141538 |
Zygotic pioneer factor activity of Odd-paired/Zic is necessary for establishing the Drosophila Segmentation Network |
GSE141589 |
Identification of genomic enhancers through spatial integration of single-cell transcriptomics and epigenomics [10X_scRNAseq] |
GSE141590 |
Identification of genomic enhancers through spatial integration of single-cell transcriptomics and epigenomics |
GSE141807 |
A single-cell transcriptomic atlas of the adult Drosophila ventral nerve cord |
GSE141896 |
Single cell expression data from D. melanogaster guts with suppression of Imd in progenitors |
GSE141897 |
Expression profiling of D. melanogaster guts with suppression of Imd in progenitors |
GSE143821 |
Dynamic FMR1 granule phase switch instructed by m6A modification contributes to maternal RNA decay |
GSE144028 |
Transcriptional signature of prion-induced neurotoxicity in a Drosophila model of transmissible mammalian prion disease |
GSE144433 |
Behavioral and transcriptional response to selection for olfactory behavior in Drosophila |
GSE145975 |
Dissecting the transcriptional regulation during the transition from proliferation to terminal differentiation during fly spermatogenesis |
GSE146531 |
Transcriptome analysis of control (y w) and Paip1 mutant third instar larval wing imaginal discs |
GSE146749 |
CTCF is required to form regulatory and physical boundaries at limited sites in the Drosophila nervous system [ChIP-seq] |
GSE146750 |
CTCF is required to form regulatory and physical boundaries at limited sites in the Drosophila nervous system [Hi-C] |
GSE146751 |
CTCF is required to form regulatory and physical boundaries at limited sites in the Drosophila nervous system [RNA-seq] |
GSE146752 |
CTCF is required to form regulatory and physical boundaries at limited sites in the Drosophila nervous system |
GSE146937 |
Single-molecule regulatory architectures captured by chromatin fiber sequencing [Dm AdMTase-seq] |
GSE146939 |
Single-molecule regulatory architectures captured by chromatin fiber sequencing [DNAseI-seq] |
GSE146942 |
Single-molecule regulatory architectures captured by chromatin fiber sequencing |
GSE146986 |
Exon-activated functional rescue secures neuronal transcript signatures |
GSE147059 |
The role of insulators and transcription in 3D chromatin organisation of flies |
GSE147337 |
RNA-Seq of whole Drosophila brains (mid-pupal stage) with panneuronal pdm3 knockdown and controls |
GSE148761 |
Identifying the impact of NSUN6 mutants on tRNA methylation |
GSE148763 |
Bisulfite sequencing for poly(A)+ RNA |
GSE148764 |
Sequence- and structure-selective mRNA m5C methylation |
GSE149790 |
RNA-binding protein Syncrip regulates Starvation-Induced Hyperactivity in adult Drosophila |
GSE149798 |
Proteasome Stress in Skeletal Muscle Mounts a Long-Range Protective Response that Delays Retinal and Brain Aging [Drosophila] |
GSE149799 |
Proteasome Stress in Skeletal Muscle Mounts a Long-Range Protective Response that Delays Retinal and Brain Aging |
GSE150931 |
Cell-type-specific chromatin occupancy by the pioneer factor Zelda drives key developmental transitions in Drosophila |
GSE151656 |
Transcriptome landscape in fruit flies with mitochondrial methylation deficiency |
GSE151977 |
H3 K27M and EZHIP impede H3K27-methylation spreading by inhibing allosterically stimulated PRC2 [S2_H3K27me3] |
GSE151983 |
H3 K27M and EZHIP impede H3K27-methylation spreading by inhibiting allosterically stimulated PRC2. |
GSE152297 |
Channel Nuclear Pore Complex subunits are required for transposon silencing in Drosophila |
GSE152596 |
CLAMP and Zelda function together as pioneer transcription factors to promote Drosophila zygotic genome activation [ATAC-Seq] |
GSE152613 |
CLAMP and Zelda function together as pioneer transcription factors to promote Drosophila zygotic genome activation |
GSE152636 |
Gene expression profile of supernumerary type II neuroblasts transiently overexpressing Insb |
GSE152770 |
GAF is essential for zygotic genome activation and chromatin accessibility in the early Drosophila embryo [ChIP-seq] |
GSE152773 |
GAF is essential for zygotic genome activation and chromatin accessibility in the early Drosophila embryo |
GSE153165 |
Polyploidy in the adult Drosophila melanogaster brain |
GSE153225 |
Transcriptomics analysis of heterozygous mutant and wild-type flies for presynaptic homeostatic plasticity |
GSE153723 |
The molecular landscape of neural differentiation inthe developing Drosophila brain revealed by targeted scRNA-seq and multi-informatic analysis |
GSE154085 |
RNA-Seq dataset from FACS-isolated L2 and T1 neurons (Drosophila melanogaster). |
GSE154298 |
MicroRNA-mediated control of Drosophila midgut regeneration [miRNA] |
GSE154300 |
MicroRNA-mediated control of Drosophila midgut regeneration |
GSE154502 |
Interphase-arrested Drosophila embryos activate zygotic gene expression and initiate Mid-Blastula Transition events at a low nuclear-cytoplasmic ratio |
GSE155018 |
Identification of genes contributing to a long circadian period in Drosophila melanogaster |
GSE155323 |
Correct dosage of X chromosome transcription is controlled by a nuclear pore component |
GSE155874 |
Modulation of Aub–Tdrd interactions elucidates piRNA amplification and germ plasm formation |
GSE155938 |
NELF-A controls Drosophila healthspan by regulating heat-shock protein-mediated cellular protection and heterochromatin maintenance [ChIP-seq] |
GSE155939 |
NELF-A controls Drosophila healthspan by regulating heat-shock protein-mediated cellular protection and heterochromatin maintenance [RNA-seq] |
GSE155940 |
NELF-A controls Drosophila healthspan by regulating heat-shock protein-mediated cellular protection and heterochromatin maintenance |
GSE156222 |
TDP-43 Interactor and Motor Neuron Tagged Ribosome Affinity Purification in a Drosophila Model of ALS |
GSE156567 |
Comparison of genome architecture at two stages of male germline cell differentiation in Drosophila |
GSE157612 |
Genome-wide mapping of RNA Pol II |
GSE157625 |
Functional analysis of caspase cleavable proteoforms of the Drosophila GSK-3 gene shaggy. |
GSE157775 |
scRNAseq of Aging Drosophila ISCs [NGS1910] |
GSE157796 |
Aging ISCs and Polycomb KD ISCs |
GSE158082 |
Piwi–piRNA complexes induce stepwise changes in nuclear architecture at target loci |
GSE159174 |
Effects of temperature change within the readily tolerated range on transcription and DNA accessibility in the Drosophila S2R+ cell line |
GSE159222 |
Effects of ambient temperature on transcript levels and alternative polyadenylation in Drosophila melanogaster [RNA-seq] |
GSE160441 |
Comparative transcriptome analyses of the Drosophila pupal eye |
GSE160564 |
Ribosome profiling of wild-type and NSUN2 knockout flies |
GSE160591 |
RNA-Seq of whole Drosophila larval central nervous systems (mid-3rd instar stage, central brain + ventral nerve cord) with panneuronal ISWI knockdown and controls |
GSE160778 |
Maternally inherited piRNAs direct transient heterochromatin formation at active transposons during early Drosophila embryogenesis |
GSE160855 |
Dimerisation of the PICTS complex via LC8/Cut-up drives co-transcriptional transposon silencing in Drosophila [ChIP-Seq] |
GSE160857 |
Dimerisation of the PICTS complex via LC8/Cut-up drives co-transcriptional transposon silencing in Drosophila [sRNA-Seq] |
GSE160859 |
Dimerisation of the PICTS complex via LC8/Cut-up drives co-transcriptional transposon silencing in Drosophila [RNA-Seq] |
GSE160860 |
Dimerisation of the PICTS complex via LC8/Cut-up drives co-transcriptional transposon silencing in Drosophila |
GSE162192 |
Adult Drosophila ovary single cell RNA sequencing |
GSE166202 |
STL-seq reveals distinct pause release and termination kinetics for promoter-proximal paused RNA polymerase II transcripts |
GSE166275 |
RNA degradation is required for the germ cell-to-maternal transition in Drosophila |
GSE174250 |
Cut&Run in Drosophila melanogaster control, mutant and knockdown ovaries |
GSE174263 |
Comparison of Drosophila melanogaster ovarian transcriptome after germline specific knock down of Snr1 or mod(mdg4) genes |
GSE178187 |
A Non-Canonical Raf Function Is Required for Dorsal-Ventral Patterning in Drosophila Embryogenesis |
GSE180030 |
RNA-seq: Transcriptome profile between wild type control and kah mutants in Drosophila embryo |
GSE180374 |
Essential role of Cp190 in physical and regulatory boundary formation in Drosophila [ChIP-seq] |
GSE180375 |
Essential role of Cp190 in physical and regulatory boundary formation in Drosophila [HiC] |
GSE180376 |
Essential role of Cp190 in physical and regulatory boundary formation in Drosophila |
GSE181299 |
Hippo pathway and Bonus control developmental cell fate decisions in the Drosophila eye |
GSE181494 |
Bulk ATAC-seq on whole brain across DGRP lines (homozigous fly lines) |
GSE181844 |
Wnt Signaling Rescues Amyloid Beta-Induced Gut Stem Cell Loss |
GSE183035 |
Impaired function of rDNA transcription initiation machinery leads to derepression of ribosomal genes with insertions of R2 retrotransposon |
GSE183734 |
Gene expression changes in 48hr APF retinas and optic lobes in Blimp-1 loss of function and gain of function flies |
GSE184389 |
Prolonged blue light exposure mimics age-dependent gene expression changes in white eyed Drosophila photoreceptors |
GSE185176 |
Genomics analysis of hexanoic acid exposure in Drosophila species |
GSE185473 |
Ataxin-2 is essential for cytoskeletal dynamics and neurodevelopment in Drosophila |
GSE186867 |
Complex Genetic Interactions between Piwi and HP1a in the Repression of Transposable Elements and Tissue-Specific Genes in the Ovarian Germline |
GSE190116 |
RNA-Seq analysis of 9G8-RNAi fat bodies in Drosophila |
GSE190210 |
NanoDam identifies novel temporal transcription factors conserved between the Drosophilacentral brain and visual system |
GSE190714 |
A global timing mechanism regulates cell-type specific wiring programs |
GSE192879 |
To perform a standard RNAseq experiment to evaluate the impact of the knockout of Zeus gene(CG9573) in D. melanogaster |
GSE193105 |
Evolutionary and phenotypically plastic response of adult gene expression to larval undernutrition in Drosophila melanogaster |
GSE195496 |
Natural variation in the maternal and zygotic mRNA complements of the early embryo in Drosophila melanogaster |
GSE196213 |
A circular RNA Edis-Relish-castor axis regulates neuronal development in Drosophila |
GSE197747 |
N6-adenine DNA-immunoprecipitation-based genomic profiling in eukaryotes |
GSE197896 |
The RNA-seq analysis of RNAi-GLAD fruit flies |
GSE198361 |
NURF301 contributes to gypsy chromatin insulator-mediated nuclear organization |
GSE198812 |
RNA-seq: Transcriptome profile between wild type control and Alk-YS mutant in the Drosophila larval CNS. |
GSE199146 |
NuRD independent Mi2 activity represses ectopic gene expression during neuronal maturation |
GSE200966 |
Calcium bursts allow rapid reorganization of EFhD2/Swip-1 crosslinked actin networks in epithelial wound closure |
GSE201338 |
Combining Stem Cell Rejuvenation and Senescence Targeting to Synergistically Extend Lifespan |
GSE202465 |
The Drosophila ZAD zinc finger protein Kipferl guides Rhino to piRNA clusters (ChIP-Seq) |
GSE202468 |
The Drosophila ZAD zinc finger protein Kipferl guides Rhino to piRNA clusters |
GSE203473 |
Recycling of parental histones preserves the epigenetic landscape during embryonic development (ATAC-seq) |
GSE203478 |
Recycling of parental histones preserves the epigenetic landscape during embryonic development |
GSE203601 |
An essential role for PTIP in mediating Hox gene regulation along PcG and trxG pathways |
GSE204894 |
Gene expression profiling of NUAK kinase overexpression in Drosophila larval muscle development |
GSE205399 |
Shared enhancer gene regulatory networks between wound and oncogenic programs [scRNA] |
GSE205401 |
Shared enhancer gene regulatory networks between wound and oncogenic programs |
GSE207236 |
M1BP RNAi during Drosophila flight myogenesis: Analyses at 48h APF stage |
GSE207237 |
M1BP RNAi during Drosophila flight myogenesis: Analyses at 64h APF stage |
GSE207238 |
M1BP RNAi during Drosophila flight myogenesis: Analyses at 2-day adult stage |
GSE207239 |
M1BP RNAi during Drosophila flight myogenesis: Analyses at 0h APF stage |
GSE207241 |
M1BP is an essential transcriptional activator of oxidative metabolism during Drosophila development |
GSE207849 |
Systemic coagulopathy promotes host lethality in a new Drosophila model |
GSE208649 |
Effect of bantam knockdown on mRNA levels in the the γ5β′2a/β′2mp/β′2mp_bilateral Mushroom Body Output Neurons (MBONs) in Drosophila Melanogaster |
GSE210427 |
Role of H3K4me1 and H3K27ac histone marks in aging Drosophila |
GSE210507 |
Mechanisms of muscle degeneration in Drosophila third instar larval musculature upon Tropomodulin (Tmod) knockdown. |
GSE211399 |
RNA-seq analysis of miR-2b-1 testes in Drosophila melanogaster |
GSE211573 |
A modERN Resource: Identification of Drosophila Transcription Factor candidate target genes using RNAi |
GSE212132 |
Effects of upregulated JAK/STAT signaling on gene expression in Drosophila airway epithelial cells |
GSE214705 |
Chromosome-level organization of the regulatory genome in the Drosophila nervous system [scATAC-seq] |
GSE214707 |
Chromosome-level organization of the regulatory genome in the Drosophila nervous system |
GSE216339 |
Single-cell transcriptomics identifies new blood cell populations in Drosophila released at the onset of metamorphosis |
GSE218019 |
Localization of the pioneer factor GAF to subnuclear foci is driven by DNA binding and required to silence satellite repeat expression [ChIP-Seq] |
GSE218020 |
Localization of the Drosophila pioneer factor GAF to subnuclear foci is driven by DNA binding and required to silence satellite repeat expression |
GSE219063 |
Smurfness-based two-phase model of ageing helps deconvolve the ageing transcriptional signature [RNA-seq] |
GSE220053 |
Identifying differential binding of transcription factor CLAMP on chromatin in S2 (male) and Kc (female) emmbryonic cell lines |
GSE220887 |
The identification of Dwg downstream targets using ChIP-seq |
GSE221239 |
Single-cell transcriptomics reveals glial cells integrate homeostatic and circadian processes to drive sleep-wake cycle |
GSE222660 |
Single-cell transcriptomics illuminates anterior-posterior patterning of the mesoderm in Drosophila embryos at gastrulation |
GSE225499 |
Knockdown of the transcription regulators Spt5 and dom in Drosophila photoreceptors results in premature retinal degeneration and transcriptional signature similar to old flies |
GSE225561 |
Identification of putative encoding smORF genes in drosophila imaginal discs |
GSE227882 |
Protein-intrinsic properties and context-dependent effects regulate pioneer-factor binding and function [ChIP-Seq] |
GSE227884 |
Protein-intrinsic properties and context-dependent effects regulate pioneer-factor binding and function |
GSE235505 |
Efficient trans-differentiation/ de-differentiation of mature intestinal cells in adult Drosophila midgut by depleting a single transcription factor |
GSE236166 |
The ecdysone receptor promotes or suppresses proliferation according to ligand level |
GSE237617 |
Macrophage-derived insulin antagonist ImpL2 induces lipoprotein mobilization upon bacterial infection |
GSE239982 |
Functional Adaptations of Endogenous Retroviruses to the Drosophila host Reveal Principles of their Evolutionary Diversification [RNA-seq] |
GSE239984 |
Functional Adaptations of Endogenous Retroviruses to the Drosophila host Reveal Principles of their Evolutionary Diversification [sRNA-seq] |
GSE239985 |
Functional Adaptations of Endogenous Retroviruses to the Drosophila host Reveal Principles of their Evolutionary Diversification |
GSE245408 |
The Wnt co-receptor PTK7/Otk in Neurogenesis and Patterning |
GSE246393 |
Two distinct waves of transcriptome and translatome remodelling drive germline stem cell differentiation |
GSE247965 |
Comparative single-cell transcriptomic atlases reveal conserved and divergent features of drosophilid central brains |
GSE248346 |
DmCFL KD in Drosophila musculature of late third instar larvae |
GSE256556 |
Control ChIP-seq from whole organism (ENCSR102QDH) |
GSE256561 |
TF ChIP-seq from whole organism (ENCSR104XOO) |
GSE256564 |
TF ChIP-seq from whole organism (ENCSR186ZKW) |
GSE256567 |
TF ChIP-seq from whole organism (ENCSR187IVR) |
GSE256569 |
Control ChIP-seq from whole organism (ENCSR283MGP) |
GSE256573 |
Control ChIP-seq from whole organism (ENCSR188ZKB) |
GSE256580 |
Control ChIP-seq from whole organism (ENCSR105HNS) |
GSE256598 |
TF ChIP-seq from whole organism (ENCSR109RMR) |
GSE256601 |
TF ChIP-seq from whole organism (ENCSR008NYP) |
GSE256609 |
TF ChIP-seq from whole organism (ENCSR110JFN) |
GSE256619 |
Control ChIP-seq from whole organism (ENCSR111RAO) |
GSE256632 |
Control ChIP-seq from whole organism (ENCSR114LFX) |
GSE256640 |
Control ChIP-seq from whole organism (ENCSR116ZCQ) |
GSE256648 |
Control ChIP-seq from whole organism (ENCSR010TXY) |
GSE256654 |
TF ChIP-seq from whole organism (ENCSR118TAH) |
GSE256655 |
Control ChIP-seq from whole organism (ENCSR119OOH) |
GSE256656 |
TF ChIP-seq from whole organism (ENCSR119OUI) |
GSE256659 |
TF ChIP-seq from whole organism (ENCSR120ICM) |
GSE256664 |
Control ChIP-seq from whole organism (ENCSR286EOA) |
GSE256665 |
Control ChIP-seq from whole organism (ENCSR286HLA) |
GSE256666 |
TF ChIP-seq from whole organism (ENCSR287NIU) |
GSE256673 |
Control ChIP-seq from whole organism (ENCSR196IIL) |
GSE256675 |
TF ChIP-seq from whole organism (ENCSR121SPZ) |
GSE256676 |
Control ChIP-seq from whole organism (ENCSR122CCQ) |
GSE256679 |
TF ChIP-seq from whole organism (ENCSR288BZG) |
GSE256684 |
TF ChIP-seq from whole organism (ENCSR012MXT) |
GSE256690 |
Control ChIP-seq from whole organism (ENCSR013WUH) |
GSE256693 |
TF ChIP-seq from whole organism (ENCSR014ETB) |
GSE256697 |
TF ChIP-seq from whole organism (ENCSR122VFA) |
GSE256700 |
TF ChIP-seq from whole organism (ENCSR015ZUX) |
GSE256703 |
TF ChIP-seq from whole organism (ENCSR017FMO) |
GSE256705 |
TF ChIP-seq from whole organism (ENCSR290OJD) |
GSE256711 |
TF ChIP-seq from whole organism (ENCSR018VBD) |
GSE256721 |
TF ChIP-seq from whole organism (ENCSR199FME) |
GSE256725 |
TF ChIP-seq from whole organism (ENCSR125CNZ) |
GSE256730 |
TF ChIP-seq from whole organism (ENCSR292EYZ) |
GSE256732 |
TF ChIP-seq from whole organism (ENCSR199TFG) |
GSE256735 |
TF ChIP-seq from whole organism (ENCSR021VXG) |
GSE256737 |
Control ChIP-seq from whole organism (ENCSR022ZVU) |
GSE256740 |
TF ChIP-seq from whole organism (ENCSR292WNJ) |
GSE256741 |
Control ChIP-seq from whole organism (ENCSR292YZL) |
GSE256742 |
TF ChIP-seq from whole organism (ENCSR125NWX) |
GSE256743 |
Control ChIP-seq from whole organism (ENCSR125WOY) |
GSE256744 |
Control ChIP-seq from whole organism (ENCSR293DLH) |
GSE256755 |
TF ChIP-seq from whole organism (ENCSR025MAQ) |
GSE256757 |
TF ChIP-seq from whole organism (ENCSR128VHN) |
GSE256763 |
TF ChIP-seq from whole organism (ENCSR027AMS) |
GSE256767 |
Control ChIP-seq from whole organism (ENCSR027VEH) |
GSE256770 |
TF ChIP-seq from whole organism (ENCSR028DHQ) |
GSE256772 |
TF ChIP-seq from whole organism (ENCSR295CRU) |
GSE256773 |
Control ChIP-seq from whole organism (ENCSR130GIJ) |
GSE256774 |
Control ChIP-seq from whole organism (ENCSR130OWB) |
GSE256782 |
TF ChIP-seq from whole organism (ENCSR295UVI) |
GSE256786 |
Control ChIP-seq from whole organism (ENCSR203PPN) |
GSE256793 |
TF ChIP-seq from whole organism (ENCSR296MRL) |
GSE256797 |
Control ChIP-seq from whole organism (ENCSR300JHR) |
GSE256802 |
TF ChIP-seq from whole organism (ENCSR302AQS) |
GSE256806 |
Control ChIP-seq from whole organism (ENCSR303RFP) |
GSE256808 |
Control ChIP-seq from whole organism (ENCSR303ZWP) |
GSE256826 |
Control ChIP-seq from whole organism (ENCSR306EEX) |
GSE256833 |
TF ChIP-seq from whole organism (ENCSR132VFF) |
GSE256836 |
TF ChIP-seq from whole organism (ENCSR032DLA) |
GSE256837 |
TF ChIP-seq from whole organism (ENCSR132XDY) |
GSE256846 |
Control ChIP-seq from whole organism (ENCSR213QMS) |
GSE256854 |
Control ChIP-seq from whole organism (ENCSR032KWU) |
GSE256855 |
Control ChIP-seq from whole organism (ENCSR033NNL) |
GSE256858 |
TF ChIP-seq from whole organism (ENCSR033ZHC) |
GSE256859 |
TF ChIP-seq from whole organism (ENCSR134NKA) |
GSE256862 |
Control ChIP-seq from whole organism (ENCSR034KIV) |
GSE256866 |
TF ChIP-seq from whole organism (ENCSR035GCI) |
GSE256868 |
Control ChIP-seq from whole organism (ENCSR136DEQ) |
GSE256870 |
Control ChIP-seq from whole organism (ENCSR036PHI) |
GSE256872 |
TF ChIP-seq from whole organism (ENCSR214LWK) |
GSE256874 |
Control ChIP-seq from whole organism (ENCSR214WCZ) |
GSE256876 |
Control ChIP-seq from whole organism (ENCSR215MXM) |
GSE256881 |
Control ChIP-seq from whole organism (ENCSR216KNP) |
GSE256886 |
Control ChIP-seq from whole organism (ENCSR308YQB) |
GSE256890 |
Control ChIP-seq from whole organism (ENCSR137DAC) |
GSE256892 |
TF ChIP-seq from whole organism (ENCSR138MDE) |
GSE256894 |
TF ChIP-seq from whole organism (ENCSR139BJY) |
GSE256900 |
TF ChIP-seq from whole organism (ENCSR310ZJI) |
GSE256903 |
TF ChIP-seq from whole organism (ENCSR038HZR) |
GSE256911 |
Control ChIP-seq from whole organism (ENCSR139WZD) |
GSE256917 |
Control ChIP-seq from whole organism (ENCSR142HMN) |
GSE256922 |
TF ChIP-seq from whole organism (ENCSR143AWF) |
GSE256933 |
TF ChIP-seq from whole organism (ENCSR312RCJ) |
GSE256935 |
TF ChIP-seq from whole organism (ENCSR313TWF) |
GSE256938 |
TF ChIP-seq from whole organism (ENCSR315AML) |
GSE256942 |
TF ChIP-seq from whole organism (ENCSR219AHM) |
GSE256945 |
TF ChIP-seq from whole organism (ENCSR316FKJ) |
GSE256948 |
Control ChIP-seq from whole organism (ENCSR317QFT) |
GSE256950 |
TF ChIP-seq from whole organism (ENCSR220HPB) |
GSE256952 |
TF ChIP-seq from whole organism (ENCSR317XOG) |
GSE256975 |
TF ChIP-seq from whole organism (ENCSR224YOT) |
GSE256992 |
TF ChIP-seq from whole organism (ENCSR150QNB) |
GSE256994 |
TF ChIP-seq from whole organism (ENCSR227BSJ) |
GSE257002 |
Control ChIP-seq from whole organism (ENCSR153GHW) |
GSE257008 |
TF ChIP-seq from whole organism (ENCSR321YHE) |
GSE257025 |
TF ChIP-seq from whole organism (ENCSR155UQM) |
GSE257031 |
Control ChIP-seq from whole organism (ENCSR231WZH) |
GSE257035 |
TF ChIP-seq from whole organism (ENCSR324QVN) |
GSE257036 |
TF ChIP-seq from whole organism (ENCSR042FCJ) |
GSE257042 |
TF ChIP-seq from whole organism (ENCSR156QJC) |
GSE257047 |
Control ChIP-seq from whole organism (ENCSR157XVL) |
GSE257048 |
Control ChIP-seq from whole organism (ENCSR158HVZ) |
GSE257056 |
TF ChIP-seq from whole organism (ENCSR233UXG) |
GSE257062 |
Control ChIP-seq from whole organism (ENCSR233YTV) |
GSE257064 |
TF ChIP-seq from whole organism (ENCSR161OBF) |
GSE257065 |
Control ChIP-seq from whole organism (ENCSR161QIN) |
GSE257068 |
TF ChIP-seq from whole organism (ENCSR161YRO) |
GSE257073 |
Control ChIP-seq from whole organism (ENCSR044YAD) |
GSE257074 |
Control ChIP-seq from whole organism (ENCSR235ERJ) |
GSE257081 |
Control ChIP-seq from whole organism (ENCSR163EWH) |
GSE257086 |
Control ChIP-seq from whole organism (ENCSR163RIQ) |
GSE257091 |
TF ChIP-seq from whole organism (ENCSR164WWJ) |
GSE257095 |
TF ChIP-seq from whole organism (ENCSR165KWP) |
GSE257099 |
TF ChIP-seq from whole organism (ENCSR167BID) |
GSE257105 |
Control ChIP-seq from whole organism (ENCSR236JJO) |
GSE257108 |
TF ChIP-seq from whole organism (ENCSR237AMN) |
GSE257109 |
TF ChIP-seq from whole organism (ENCSR327ZQL) |
GSE257115 |
TF ChIP-seq from whole organism (ENCSR237PJC) |
GSE257117 |
Control ChIP-seq from whole organism (ENCSR238IHN) |
GSE257118 |
Control ChIP-seq from whole organism (ENCSR331EDA) |
GSE257119 |
Control ChIP-seq from whole organism (ENCSR238YEP) |
GSE257120 |
Control ChIP-seq from whole organism (ENCSR331RGH) |
GSE257125 |
TF ChIP-seq from whole organism (ENCSR332BCD) |
GSE257129 |
Control ChIP-seq from whole organism (ENCSR239LBE) |
GSE257137 |
TF ChIP-seq from whole organism (ENCSR239MPW) |
GSE257140 |
Control ChIP-seq from whole organism (ENCSR333QIL) |
GSE257142 |
Control ChIP-seq from whole organism (ENCSR333ZYI) |
GSE257143 |
Control ChIP-seq from whole organism (ENCSR051HCW) |
GSE257150 |
Control ChIP-seq from whole organism (ENCSR054LVI) |
GSE257151 |
TF ChIP-seq from whole organism (ENCSR055BAQ) |
GSE257163 |
Control ChIP-seq from whole organism (ENCSR171ADY) |
GSE257169 |
Control ChIP-seq from whole organism (ENCSR174KFQ) |
GSE257178 |
TF ChIP-seq from whole organism (ENCSR240NHL) |
GSE257181 |
TF ChIP-seq from whole organism (ENCSR335NNR) |
GSE257193 |
TF ChIP-seq from whole organism (ENCSR335WXQ) |
GSE257195 |
Control ChIP-seq from whole organism (ENCSR335XZL) |
GSE257199 |
TF ChIP-seq from whole organism (ENCSR336HCG) |
GSE257213 |
TF ChIP-seq from whole organism (ENCSR059LML) |
GSE257216 |
Control ChIP-seq from whole organism (ENCSR336MGM) |
GSE257222 |
TF ChIP-seq from whole organism (ENCSR059YLP) |
GSE257224 |
TF ChIP-seq from whole organism (ENCSR060CFV) |
GSE257226 |
TF ChIP-seq from whole organism (ENCSR336ZDD) |
GSE257238 |
Control ChIP-seq from whole organism (ENCSR065VFN) |
GSE257241 |
TF ChIP-seq from whole organism (ENCSR066ITF) |
GSE257248 |
Control ChIP-seq from whole organism (ENCSR067XAN) |
GSE257250 |
TF ChIP-seq from whole organism (ENCSR245QIG) |
GSE257257 |
TF ChIP-seq from whole organism (ENCSR183WTG) |
GSE257261 |
TF ChIP-seq from whole organism (ENCSR184CKS) |
GSE257278 |
Control ChIP-seq from whole organism (ENCSR248DUF) |
GSE257282 |
Control ChIP-seq from whole organism (ENCSR071KGD) |
GSE257284 |
Control ChIP-seq from whole organism (ENCSR072FJD) |
GSE257287 |
Control ChIP-seq from whole organism (ENCSR072SDA) |
GSE257289 |
Control ChIP-seq from whole organism (ENCSR072SOX) |
GSE257290 |
Control ChIP-seq from whole organism (ENCSR072UGA) |
GSE257292 |
Control ChIP-seq from whole organism (ENCSR073DRW) |
GSE257293 |
Control ChIP-seq from whole organism (ENCSR250MXW) |
GSE257294 |
TF ChIP-seq from whole organism (ENCSR073PHL) |
GSE257297 |
Control ChIP-seq from whole organism (ENCSR074DEG) |
GSE257302 |
Control ChIP-seq from whole organism (ENCSR076KHT) |
GSE257311 |
Control ChIP-seq from whole organism (ENCSR080DBI) |
GSE257312 |
Control ChIP-seq from whole organism (ENCSR080OFD) |
GSE257325 |
TF ChIP-seq from whole organism (ENCSR082FZF) |
GSE257330 |
TF ChIP-seq from whole organism (ENCSR342YUI) |
GSE257331 |
Control ChIP-seq from whole organism (ENCSR082WMZ) |
GSE257332 |
Control ChIP-seq from whole organism (ENCSR082YVU) |
GSE257350 |
TF ChIP-seq from whole organism (ENCSR085FSS) |
GSE257362 |
Control ChIP-seq from whole organism (ENCSR089YGV) |
GSE257370 |
Control ChIP-seq from whole organism (ENCSR349TJN) |
GSE257377 |
Control ChIP-seq from whole organism (ENCSR251JRS) |
GSE257379 |
TF ChIP-seq from whole organism (ENCSR092TNF) |
GSE257382 |
TF ChIP-seq from whole organism (ENCSR094HIY) |
GSE257392 |
Control ChIP-seq from whole organism (ENCSR098GAV) |
GSE257394 |
Control ChIP-seq from whole organism (ENCSR254VFL) |
GSE257401 |
TF ChIP-seq from whole organism (ENCSR255PHG) |
GSE257405 |
Control ChIP-seq from whole organism (ENCSR256ESG) |
GSE257413 |
Control ChIP-seq from ovary (ENCSR354RHJ) |
GSE257416 |
Control ChIP-seq from whole organism (ENCSR257AYE) |
GSE257423 |
Control ChIP-seq from whole organism (ENCSR357JFV) |
GSE257433 |
TF ChIP-seq from whole organism (ENCSR360ERR) |
GSE257446 |
Control ChIP-seq from whole organism (ENCSR363YDF) |
GSE257450 |
TF ChIP-seq from whole organism (ENCSR365BOA) |
GSE257453 |
TF ChIP-seq from whole organism (ENCSR261RKJ) |
GSE257454 |
TF ChIP-seq from whole organism (ENCSR263AYM) |
GSE257455 |
TF ChIP-seq from whole organism (ENCSR365IMJ) |
GSE257458 |
Control ChIP-seq from whole organism (ENCSR264BNK) |
GSE257464 |
TF ChIP-seq from whole organism (ENCSR367SBM) |
GSE257467 |
TF ChIP-seq from whole organism (ENCSR266CSS) |
GSE257469 |
TF ChIP-seq from whole organism (ENCSR266HYG) |
GSE257473 |
Control ChIP-seq from whole organism (ENCSR370OIE) |
GSE257484 |
Control ChIP-seq from whole organism (ENCSR268FFL) |
GSE257492 |
TF ChIP-seq from whole organism (ENCSR271ZJI) |
GSE257493 |
TF ChIP-seq from whole organism (ENCSR272DEA) |
GSE257501 |
TF ChIP-seq from whole organism (ENCSR274AAR) |
GSE257505 |
TF ChIP-seq from whole organism (ENCSR276LGX) |
GSE257507 |
TF ChIP-seq from whole organism (ENCSR278IBK) |
GSE257508 |
Control ChIP-seq from whole organism (ENCSR278PHU) |
GSE257514 |
Control ChIP-seq from whole organism (ENCSR280HPE) |
GSE257518 |
TF ChIP-seq from whole organism (ENCSR280XEB) |
GSE257522 |
TF ChIP-seq from whole organism (ENCSR281ORM) |
GSE257527 |
Control ChIP-seq from whole organism (ENCSR282UQU) |
GSE257566 |
Control ChIP-seq from whole organism (ENCSR843PNA) |
GSE257575 |
TF ChIP-seq from whole organism (ENCSR844XMJ) |
GSE257584 |
TF ChIP-seq from whole organism (ENCSR680NFF) |
GSE257593 |
TF ChIP-seq from whole organism (ENCSR681RZY) |
GSE257597 |
Control ChIP-seq from whole organism (ENCSR541KJI) |
GSE257602 |
Control ChIP-seq from whole organism (ENCSR846JYS) |
GSE257606 |
TF ChIP-seq from whole organism (ENCSR846PTH) |
GSE257607 |
TF ChIP-seq from whole organism (ENCSR682YQM) |
GSE257613 |
Control ChIP-seq from whole organism (ENCSR684VZM) |
GSE257621 |
Control ChIP-seq from whole organism (ENCSR849IRM) |
GSE257624 |
Control ChIP-seq from whole organism (ENCSR544ESS) |
GSE257630 |
TF ChIP-seq from whole organism (ENCSR850IRM) |
GSE257638 |
TF ChIP-seq from whole organism (ENCSR547IVT) |
GSE257640 |
TF ChIP-seq from whole organism (ENCSR851UBK) |
GSE257651 |
TF ChIP-seq from whole organism (ENCSR855JSV) |
GSE257653 |
Control ChIP-seq from whole organism (ENCSR377KXD) |
GSE257655 |
Control ChIP-seq from whole organism (ENCSR378LQR) |
GSE257659 |
TF ChIP-seq from whole organism (ENCSR856SZD) |
GSE257660 |
Control ChIP-seq from whole organism (ENCSR857ANW) |
GSE257661 |
TF ChIP-seq from whole organism (ENCSR378UYF) |
GSE257665 |
Control ChIP-seq from whole organism (ENCSR380CVK) |
GSE257667 |
Control ChIP-seq from whole organism (ENCSR858HKA) |
GSE257669 |
TF ChIP-seq from whole organism (ENCSR858HYS) |
GSE257678 |
Control ChIP-seq from whole organism (ENCSR860PIR) |
GSE257679 |
Control ChIP-seq from whole organism (ENCSR860XAM) |
GSE257681 |
Control ChIP-seq from whole organism (ENCSR860ZFH) |
GSE257684 |
Control ChIP-seq from whole organism (ENCSR688FTD) |
GSE257689 |
TF ChIP-seq from whole organism (ENCSR861RPB) |
GSE257690 |
TF ChIP-seq from whole organism (ENCSR551HEY) |
GSE257691 |
Control ChIP-seq from whole organism (ENCSR551PYQ) |
GSE257700 |
Control ChIP-seq from whole organism (ENCSR863DOB) |
GSE257703 |
Control ChIP-seq from whole organism (ENCSR693BJZ) |
GSE257705 |
Control ChIP-seq from whole organism (ENCSR552ODH) |
GSE257709 |
Control ChIP-seq from whole organism (ENCSR553YUJ) |
GSE257710 |
Control ChIP-seq from whole organism (ENCSR381FHL) |
GSE257717 |
Control ChIP-seq from whole organism (ENCSR555KVU) |
GSE257719 |
TF ChIP-seq from whole organism (ENCSR555TTB) |
GSE257735 |
Control ChIP-seq from whole organism (ENCSR559OGK) |
GSE257742 |
Control ChIP-seq from whole organism (ENCSR561OFJ) |
GSE257749 |
Control ChIP-seq from whole organism (ENCSR865FZO) |
GSE257765 |
Control ChIP-seq from whole organism (ENCSR564FZY) |
GSE257767 |
TF ChIP-seq from whole organism (ENCSR564UWC) |
GSE257792 |
Control ChIP-seq from whole organism (ENCSR571GMX) |
GSE257795 |
Control ChIP-seq from whole organism (ENCSR572CBY) |
GSE257796 |
Control ChIP-seq from whole organism (ENCSR386WUO) |
GSE257803 |
TF ChIP-seq from whole organism (ENCSR572JUN) |
GSE257806 |
TF ChIP-seq from whole organism (ENCSR867RUX) |
GSE257810 |
Control ChIP-seq from whole organism (ENCSR388HZU) |
GSE257818 |
TF ChIP-seq from whole organism (ENCSR869ZGG) |
GSE257823 |
TF ChIP-seq from whole organism (ENCSR388YUZ) |
GSE257824 |
Control ChIP-seq from whole organism (ENCSR575NOI) |
GSE257827 |
TF ChIP-seq from whole organism (ENCSR870BBY) |
GSE257832 |
TF ChIP-seq from whole organism (ENCSR870KTR) |
GSE257839 |
TF ChIP-seq from whole organism (ENCSR577TRI) |
GSE257841 |
TF ChIP-seq from whole organism (ENCSR578RWH) |
GSE257844 |
TF ChIP-seq from whole organism (ENCSR579WFC) |
GSE257860 |
Control ChIP-seq from whole organism (ENCSR873HOL) |
GSE257863 |
TF ChIP-seq from whole organism (ENCSR392IEL) |
GSE257864 |
Control ChIP-seq from whole organism (ENCSR392OLY) |
GSE257870 |
TF ChIP-seq from whole organism (ENCSR581LRS) |
GSE257874 |
TF ChIP-seq from whole organism (ENCSR875UKH) |
GSE257875 |
TF ChIP-seq from whole organism (ENCSR393QBI) |
GSE257877 |
TF ChIP-seq from whole organism (ENCSR393VQP) |
GSE257882 |
Control ChIP-seq from whole organism (ENCSR877IXV) |
GSE257888 |
TF ChIP-seq from whole organism (ENCSR878RMZ) |
GSE257889 |
TF ChIP-seq from whole organism (ENCSR583EFI) |
GSE257908 |
Control ChIP-seq from whole organism (ENCSR394EAL) |
GSE257913 |
Control ChIP-seq from whole organism (ENCSR702TBJ) |
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