FB2024_04 , released June 25, 2024
Gene: Dmel\dome
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General Information
Symbol
Dmel\dome
Species
D. melanogaster
Name
domeless
Annotation Symbol
CG14226
Feature Type
protein_coding_gene
FlyBase ID
FBgn0043903
Gene Model Status
Current
Stock Availability
28 publicly available
Gene Summary
Domeless (dome) encodes the transmembrane receptor for signalling ligands (encoded by upd1, upd2 and upd3) in the cytokine family, which utilises the intracellular JAK/STAT pathway. The product of dome is involved in growth, stem cells, immune responses and development. [Date last reviewed: 2019-06-06] (FlyBase Gene Snapshot)
All Summaries
Also Known As

vsp, mom, l(1)G0321, l(1)G0405, verstopft

Key Links
Genomic Location
Cytogenetic map
18D13-18E1
Sequence location
Recombination map
1-64
RefSeq locus
NC_004354 REGION:19676061..19683518
Sequence
Get Decorated FASTA
Genomic Maps
Other Genome Views
The following external sites may use different assemblies or annotations than FlyBase.
NCBI
UCSC
Ensembl
PopFly
Function
Gene Ontology (GO) Annotations (21 terms)
Molecular Function (6 terms)
Terms Based on Experimental Evidence (6 terms)
CV Term
Evidence
References
enables cytokine receptor activity
inferred from direct assay
(Moore et al., 2020, Devergne et al., 2007)
inferred from genetic interaction with FLYBASE:upd1; FB:FBgn0004956
(Hombria et al., 2005, Brown et al., 2001)
inferred from genetic interaction with FLYBASE:upd2; FB:FBgn0030904
(Hombria et al., 2005)
enables protein binding
inferred from physical interaction with UniProtKB:Q9W266
(Ren et al., 2015)
enables protein heterodimerization activity
inferred from physical interaction with FLYBASE:et; FB:FBgn0031055
(Fisher et al., 2016, Makki et al., 2010)
enables protein tyrosine kinase binding
inferred from physical interaction with UniProtKB:Q24592
(Fisher et al., 2016)
enables SOCS family protein binding
inferred from physical interaction with FLYBASE:Socs36E; FB:FBgn0041184
(Stec et al., 2013)
enables STAT family protein binding
inferred from physical interaction with UniProtKB:Q24151
(Fisher et al., 2016)
Terms Based on Predictions or Assertions (0 terms)
Biological Process (14 terms)
Terms Based on Experimental Evidence (14 terms)
CV Term
Evidence
References
involved_in blastoderm segmentation
inferred from mutant phenotype
(Brown et al., 2001)
involved_in border follicle cell migration
inferred from mutant phenotype
(Medioni and Noselli, 2005, Ghiglione et al., 2002)
involved_in cell surface receptor signaling pathway via JAK-STAT
inferred from genetic interaction with FLYBASE:upd1; FB:FBgn0004956
(Chen et al., 2002, Brown et al., 2001)
inferred from genetic interaction with FLYBASE:Stat92E; FB:FBgn0016917
(Brown et al., 2001)
inferred from genetic interaction with FLYBASE:hop; FB:FBgn0004864
(Bailetti et al., 2019, Chen et al., 2002)
inferred from mutant phenotype
(Fisher et al., 2016, Vidal et al., 2010, Cronin et al., 2009)
inferred from direct assay
(Shen et al., 2022, Moore et al., 2020, Devergne et al., 2007, Muller et al., 2005)
involved_in compound eye morphogenesis
inferred from mutant phenotype
(Tsai and Sun, 2004)
involved_in cytokine-mediated signaling pathway
inferred from genetic interaction with FLYBASE:upd1; FB:FBgn0004956,FLYBASE:upd2; FB:FBgn0030904
(Hombria et al., 2005)
involved_in defense response to Gram-negative bacterium
inferred from high throughput mutant phenotype
(Cronin et al., 2009)
involved_in determination of digestive tract left/right asymmetry
inferred from mutant phenotype
(Lai et al., 2023)
involved_in hindgut morphogenesis
inferred from mutant phenotype
(Johansen et al., 2003)
involved_in locomotor rhythm
inferred from mutant phenotype
(Luo and Sehgal, 2012)
involved_in long-term memory
inferred from mutant phenotype
(Copf et al., 2011)
involved_in open tracheal system development
inferred from mutant phenotype
(Lovegrove et al., 2006, Chen et al., 2002, Brown et al., 2001)
involved_in positive regulation of cell population proliferation
inferred from mutant phenotype
(Buchon et al., 2010)
involved_in tissue regeneration
inferred from mutant phenotype
(Harris et al., 2020)
involved_in wing disc morphogenesis
inferred from mutant phenotype
(Recasens-Alvarez et al., 2017)
Terms Based on Predictions or Assertions (0 terms)
Cellular Component (1 term)
Terms Based on Experimental Evidence (1 term)
CV Term
Evidence
References
located_in apical plasma membrane
inferred from direct assay
(Sotillos et al., 2008, Ghiglione et al., 2002)
Terms Based on Predictions or Assertions (0 terms)
Gene Group (FlyBase)
Pathway (FlyBase)
Protein Family (UniProt)
Belongs to the type I cytokine receptor family. (Q9VWE0)
Protein Signatures (InterPro)
Summaries
Gene Snapshot
Domeless (dome) encodes the transmembrane receptor for signalling ligands (encoded by upd1, upd2 and upd3) in the cytokine family, which utilises the intracellular JAK/STAT pathway. The product of dome is involved in growth, stem cells, immune responses and development. [Date last reviewed: 2019-06-06]
Pathway (FlyBase)
JAK-STAT Signaling Pathway Core Components -
The JAK-STAT signaling pathway is initiated by the binding of an extracellular ligand to a cell surface receptor leading to receptor dimerization and the intracellular activation of a Janus kinase (JAK) family member. JAK phosphorylates cytoplasmic STAT family members which dimerize, translocate into the nucleus and regulate target gene expression. In Drosophila, the core pathway is limited to three ligands (the Unpaired family of cytokines), a single receptor (dome), JAK kinase (hop) and STAT (Stat92E). (Adapted from FBrf0225259).
Gene Group (FlyBase)
UNCLASSIFIED TRANSMEMBRANE RECEPTORS -
This group comprises transmembrane receptors that do not classify under other groups in FlyBase.
Protein Function (UniProtKB)
Critical for epithelial morphogenesis during oogenesis; border cell migration. Required in the germarium for the polarization of follicle cells during encapsulation of germline cells. Required for embryonic segmentation and trachea specification. Essential receptor molecule for upd and JAK/STAT signaling during oogenesis.
(UniProt, Q9VWE0)
Summary (Interactive Fly)

a divergent member of the cytokine class I receptor family - required for segmentation and functions in trachea specification - the ligand Unpaired, its receptor Domeless, Hop, and Stat92E Are Required in mushroom bodies for long term memory

Gene Model and Products
Number of Transcripts
1
Number of Unique Polypeptides
1

Please see the JBrowse view of Dmel\dome for information on other features

To submit a correction to a gene model please use the Contact FlyBase form

Protein Domains (via Pfam)
Isoform displayed:
Pfam protein domains
InterPro name
classification
start
end
Protein Domains (via SMART)
Isoform displayed:
SMART protein domains
InterPro name
classification
start
end
Structure
Protein 3D structure   (Predicted by AlphaFold)   (AlphaFold entry Q9VWE0)

If you don't see a structure in the viewer, refresh your browser.
Model Confidence:
  • Very high (pLDDT > 90)
  • Confident (90 > pLDDT > 70)
  • Low (70 > pLDDT > 50)
  • Very low (pLDDT < 50)

AlphaFold produces a per-residue confidence score (pLDDT) between 0 and 100. Some regions with low pLDDT may be unstructured in isolation.

Experimentally Determined Structures
Crossreferences
Comments on Gene Model

Low-frequency RNA-Seq exon junction(s) not annotated.

Gene model reviewed during 5.51

Sequence Ontology: Class of Gene
nuclear_gene
protein_coding_gene
Transcript Data
Annotated Transcripts
Name
FlyBase ID
RefSeq ID
Length (nt)
Assoc. CDS (aa)
dome-RA
FBtr0074756
NM_078688
4875
1282
Additional Transcript Data and Comments
Reported size (kB)
Comments
External Data
Crossreferences
Polypeptide Data
Annotated Polypeptides
Name
FlyBase ID
Predicted MW (kDa)
Length (aa)
Theoretical pI
UniProt
RefSeq ID
GenBank
dome-PA
FBpp0074525
142.4
1282
6.53
Q9VWE0
NP_523412
AAF49002
Polypeptides with Identical Sequences

There is only one protein coding transcript and one polypeptide associated with this gene

Additional Polypeptide Data and Comments
Reported size (kDa)
Comments
External Data
Subunit Structure (UniProtKB)

Interacts with wdp; the interaction promotes internalization of dome and its subsequent lysosomal degradation; thereby reducing JAK/STAT signaling.

(UniProt, Q9VWE0)
Post Translational Modification

Undergoes lysosomal degradation.

(UniProt, Q9VWE0)
Crossreferences
InterPro - A database of protein families, domains and functional sites
Linkouts
Sequences Consistent with the Gene Model
Mapped Features

Click to get a list of regulatory features (enhancers, TFBS, etc.) and gene disruptions (point mutations, indels, etc.) within or overlapping Dmel\dome using the Feature Mapper tool.

External Data
Crossreferences
Eukaryotic Promoter Database - A collection of databases of experimentally validated promoters for selected model organisms.
Linkouts
Expression Data
Testis-specificity index

The testis specificity index was calculated from modENCODE tissue expression data by Vedelek et al., 2018 to indicate the degree of testis enrichment compared to other tissues. Scores range from -2.52 (underrepresented) to 5.2 (very high testis bias).

0.25

Transcript Expression
Polypeptide Expression
immunolocalization
Stage
Tissue/Position (including subcellular localization)
Reference
adult stage
Kenyon cell
(Copf et al., 2011)
adult brain
(Copf et al., 2011)
mass spectroscopy
Stage
Tissue/Position (including subcellular localization)
Reference
adult stage
adult head
(Aradska et al., 2015)
Additional Descriptive Data

dome is expressed widely in the adult brain. It localizes to Kenyon cell bodies, where it has a punctate appearance. It is present in mushroom body cell bodies.

(Copf et al., 2011)
Marker for
 
Subcellular Localization
CV Term
Evidence
References
located_in apical plasma membrane
inferred from direct assay
(Sotillos et al., 2008, Ghiglione et al., 2002)
Expression Deduced from Reporters
Reporter: P{dome-lacZ.MESO}
Stage
Tissue/Position (including subcellular localization)
Reference
embryonic stage 14
pharynx
(Hombria et al., 2005)
mesoderm of hindgut | anterior
(Hombria et al., 2005)
third instar larval stage
medullary zone of lymph gland primary lobe
(Charroux and Royet, 2009)
Reporter: P{GawB}domePG5
Stage
Tissue/Position (including subcellular localization)
Reference
third instar larval stage
medullary zone of lymph gland primary lobe
(Bina et al., 2010)
Reporter: P{GawB}domePG14
Stage
Tissue/Position (including subcellular localization)
Reference
larval stage
medullary zone of lymph gland primary lobe
(Khadilkar et al., 2014, Sinenko et al., 2009)
prohemocyte
(Sinenko et al., 2009)
second instar larval stage -- early third instar larval stage
larval outer optic anlage
(Wang et al., 2011)
adult stage
adult brain | restricted
(Luo and Sehgal, 2012, Rajan and Perrimon, 2012)
adult optic lobe | restricted
(Rajan and Perrimon, 2012)
antennal lobe | restricted
(Rajan and Perrimon, 2012)
mushroom body | restricted
(Rajan and Perrimon, 2012)
adult insulin secreting cell of pars intercerebralis
(Rajan and Perrimon, 2012)
alpha/beta Kenyon cell | restricted
(Luo and Sehgal, 2012)
Kenyon cell | restricted
(Luo and Sehgal, 2012)
adult pars intercerebralis
(Luo and Sehgal, 2012)
Reporter: P{GawB}domePG125
Stage
Tissue/Position (including subcellular localization)
Reference
third instar larval stage
medullary zone of lymph gland primary lobe
(Kulkarni et al., 2011, Makki et al., 2010)
prohemocyte
(Kulkarni et al., 2011)
Reporter: P{lacW}domeG0367
Stage
Tissue/Position (including subcellular localization)
Reference
oogenesis stage S5 -- S7
border follicle cell
nucleus
(Xi et al., 2003)
centripetal follicle cell
nucleus
(Xi et al., 2003)
polar follicle cell
nucleus
(Xi et al., 2003)
stretch follicle cell
nucleus
(Xi et al., 2003)
High-Throughput Expression Data
Associated Tools

JBrowse - Visual display of RNA-Seq signals

View Dmel\dome in JBrowse
RNA-Seq by Region - Search RNA-Seq expression levels by exon or genomic region
Bulk Downloads
RNA-Seq RPKM values for all genes
Reference
See Gelbart and Emmert, 2013 for analysis details and data files for all genes.
Developmental Proteome: Life Cycle
Developmental Proteome: Embryogenesis
External Data and Images
Linkouts
DRscDB - A single-cell RNA-seq resource for data mining and data comparison across species
EMBL-EBI Single Cell Expression Atlas - Single cell expression across species
FlyAtlas - Adult expression by tissue, using Affymetrix Dros2 array
FlyAtlas2 - A Drosophila melanogaster expression atlas with RNA-Seq, miRNA-Seq and sex-specific data
Fly-FISH - A database of Drosophila embryo and larvae mRNA localization patterns
Flygut - An atlas of the Drosophila adult midgut
Images
FlyBase Wiki
Image Based Resources
Alleles, Insertions, Transgenic Constructs, and Aberrations
Classical and Insertion Alleles ( 29 )
For All Classical and Insertion Alleles Show
 
Other relevant insertions
Transgenic Constructs ( 32 )
For All Alleles Carried on Transgenic Constructs Show
Transgenic constructs containing/affecting coding region of dome
Transgenic constructs containing regulatory region of dome
Aberrations (Deficiencies and Duplications) ( 3 )
Variants
Variant Molecular Consequences
Alleles Representing Disease-Implicated Variants
Phenotypes
For more details about a specific phenotype click on the relevant allele symbol.
Lethality
Allele
lethal | adult stage
lethal | embryonic stage
lethal | larval stage
lethal | pharate adult stage
lethal | prepupal stage
lethal | pupal stage
lethal | recessive
lethal - all die before end of larval stage
lethal - all die before end of larval stage | recessive
lethal - all die before end of P-stage
partially lethal - majority die | recessive
viable, with Dcr-2UAS.cDa, Scer\GAL4elav.PLu
viable, with Scer\GAL4Mef2.PR
viable, with Scer\GAL4pnr-MD237
viable, with Scer\GAL4tin.CΔ4
Sterility
Allele
female sterile, with Scer\GAL4slbo.2.6
Other Phenotypes
Allele
abnormal axis specification | embryonic stage
abnormal developmental rate
abnormal feeding behavior | adult stage, with Scer\GAL4NPF.1
abnormal immune response, with Scer\GAL4Act.PU
abnormal immune response, with Scer\GAL4crq.Unk
abnormal immune response | adult stage, with Scer\GAL4how-24B
abnormal immune response | adult stage, with Scer\GAL4NP5130
abnormal immune response | conditional, with Scer\GAL4NP0001
abnormal locomotor rhythm, with Scer\GAL4dome-PG14
abnormal memory | adult stage | RU486 conditional, with Scer\GAL4Mef2.247.Switch
abnormal size | adult stage, with Scer\GAL4ey.PH
abnormal size | adult stage, with Scer\GAL4sd.PU
abnormal size | larval stage, with Scer\GAL4ap-md544
abnormal size | third instar larval stage, with Scer\GAL4ci.PU
abnormal size | third instar larval stage, with Scer\GAL4en-e16E
abnormal size | third instar larval stage, with Scer\GAL4hh.PU
abnormal size | third instar larval stage, with Scer\GAL4hth.PU
abnormal size | third instar larval stage, with Scer\GAL4sd.PU
decreased body size | adult stage, with Scer\GAL4VGAT.PF
decreased cell number | adult stage, with Scer\GAL4C587
decreased cell number | adult stage | somatic clone, with Scer\GAL4Tub.PU
decreased fecundity, with Scer\GAL4Myo31DF.PU
decreased occurrence of cell division | adult stage | conditional, with Scer\GAL4how-24B
decreased occurrence of cell division | adult stage | conditional, with Scer\GAL4NP5130
decreased occurrence of cell division | third instar larval stage, with Scer\GAL4ey.PH
decreased size | adult stage, with Scer\GAL4ey.PU
decreased size | adult stage | somatic clone, with Scer\GAL4R42A07.-FRT
decreased size | third instar larval stage, with Scer\GAL4ey.PU
increased body size | adult stage, with Scer\GAL4NPF.1
increased cell death | third instar larval stage, with Scer\GAL4en-e16E
increased occurrence of cell division | adult stage, with Scer\GAL4NP5130
short lived | conditional, with Scer\GAL4Act.PU
some die during larval stage
some die during larval stage | recessive
some die during pharate adult stage
visible, with Scer\GAL4dpp.blk1
visible, with Scer\GAL4ey.PH
visible, with Scer\GAL4ey.PU
visible, with Scer\GAL4pnr-MD237
visible | adult stage, with Scer\GAL4en-e16E
visible | adult stage, with Scer\GAL4ey.PU
visible | adult stage, with Scer\GAL4hth.PU
visible | adult stage, with Scer\GAL4sd.PU
visible | germline clone
wild-type
Phenotype manifest in
Allele
abdominal 4 ventral denticle belt | germline clone
adult midgut epithelium | adult stage | somatic clone, with Scer\GAL4Act.PU
adult midgut epithelium | adult stage | somatic clone, with Scer\GAL4Tub.PU
adult pars intercerebralis, with Scer\GAL4Stat92E-0092-G4
border follicle cell
border follicle cell, with Scer\GAL4slbo.2.6
border follicle cell | somatic clone
egg chamber
egg chamber, with Scer\GAL4NP1624
egg chamber & basement membrane | apical, with Scer\GAL4slbo.2.6
embryonic/larval gut | embryonic stage
embryonic/larval plasmatocyte
embryonic/larval posterior spiracle
embryonic/larval posterior spiracle | germline clone
embryonic/larval proventriculus
embryonic/larval spiracle
embryonic abdominal segment 4, with Scer\GAL4VP16.mat.αTub67C
embryonic abdominal segment 4 | non-rescuable maternal effect | posterior
embryonic abdominal segment 5, with Scer\GAL4VP16.mat.αTub67C
embryonic abdominal segment 5 | germline clone
embryonic abdominal segment 5 | non-rescuable maternal effect
embryonic abdominal segment 6 | germline clone
embryonic abdominal segment 7 | germline clone
embryonic abdominal segment 8 | germline clone
embryonic abdominal segment, with Scer\GAL4VP16.mat.αTub67C
embryonic head | rescuable maternal effect
embryonic hindgut, with Scer\GAL4byn-Gal4
embryonic segment, with Scer\GAL4VP16.mat.αTub67C
embryonic thoracic segment | germline clone
embryonic thoracic segment | rescuable maternal effect
epithelium, with Scer\GAL4NP1624
eye, with Scer\GAL4dpp.blk1
eye, with Scer\GAL4ey.PH
eye, with Scer\GAL4ey.PU
eye disc | somatic clone, with Scer\GAL4Act.PU
eye disc | third instar larval stage, with Scer\GAL4ey.PU
eye disc anterior to the morphogenetic furrow, with Scer\GAL4Eq
filzkorper
germarium, with Scer\GAL4C587
intestinal stem cell | adult stage | somatic clone, with Scer\GAL4Tub.PU
intestinal stem cell of posterior adult midgut epithelium, with Scer\GAL4esg.PU
intestinal stem cell of posterior adult midgut epithelium, with Scer\GAL4how-24B
intestinal stem cell of posterior adult midgut epithelium, with Scer\GAL4Su(H).GBE
mesothoracic tergum, with Scer\GAL4pnr-MD237
mesothoracic tergum | adult stage | ectopic, with Scer\GAL4sd.PU
mesothoracic tergum primordium | ectopic | third instar larval stage, with Scer\GAL4sd.PU
midgut, with Scer\GAL4how-24B, Scer\GAL80ts.αTub84B
midgut, with Scer\GAL4NP5130, Scer\GAL80ts.αTub84B
mouth hook | germline clone
polar follicle cell, with Scer\GAL4slbo.2.6
posterior spiracle primordium | germline clone
presumptive embryonic/larval tracheal system
presumptive embryonic/larval tracheal system | germline clone
stalk follicle cell, with Scer\GAL4NP1624
stigmatophore
terminal bouton | adult stage | increased number, with Scer\GAL4Stat92E-0092-G4
tracheal branch primordium | germline clone
wing, with Scer\GAL4Bx-MS1096
wing, with Scer\GAL4hth.PU
wing, with Scer\GAL4sd.PU
wing, with Scer\GAL4VGAT.PF
wing disc | third instar larval stage, with Scer\GAL4sd.PU
wing disc dorsal compartment, with Scer\GAL4ap-md544
wing disc posterior compartment | third instar larval stage, with Scer\GAL4en-e16E
wing disc posterior compartment | third instar larval stage, with Scer\GAL4hh.PU
wing disc posterior compartment | third instar larval stage, with Scer\GAL4sd.PU
wing hinge primordium | third instar larval stage, with Scer\GAL4ci.PU
wing pouch | ectopic | third instar larval stage, with Scer\GAL4ci.PU
wing pouch | third instar larval stage, with Scer\GAL4hth.PU
wing pouch | third instar larval stage, with Scer\GAL4sd.PU
wing vein | ectopic, with Scer\GAL4en-e16E
Orthologs
Downloads
Download All DIOPT Orthologs
Human Orthologs (via DIOPT v9.1)
Species\Gene Symbol
Score
Best Score
Best Reverse Score
Source
Compara
Domainoid
eggNOG
Hieranoid
Homologene
Inparanoid
OMA
OrthoDB
OrthoFinder
OrthoInspector
orthoMCL
Panther
Phylome
SonicParanoid
Alignment
Complementation?
Transgene?
Homo sapiens (Human) (3)
Hsap\PTPRQ
2 of 14
Yes
Yes
Hsap\PTPRB
1 of 14
No
No
Hsap\TTN
1 of 14
No
No
Model Organism Orthologs (via DIOPT v9.1)
Species\Gene Symbol
Score
Best Score
Best Reverse Score
Source
Compara
Domainoid
eggNOG
Hieranoid
Homologene
Inparanoid
OMA
OrthoDB
OrthoFinder
OrthoInspector
orthoMCL
Panther
Phylome
SonicParanoid
Alignment
Complementation?
Transgene?
Rattus norvegicus (Norway rat) (3)
Rnor\Ptprq
2 of 14
Yes
Yes
Rnor\Ptprb
1 of 14
No
No
Rnor\Ptprf
1 of 14
No
No
Mus musculus (laboratory mouse) (2)
Mmus\Ptprq
2 of 14
Yes
Yes
Mmus\Ptprb
1 of 14
No
No
Xenopus tropicalis (Western clawed frog) (0)
Danio rerio (Zebrafish) (8)
Drer\ptprq
2 of 14
Yes
Yes
Drer\LOC100332721
1 of 14
No
No
Drer\neo1b
1 of 14
No
No
Drer\ptprb
1 of 14
No
No
Drer\ptprfb
1 of 14
No
No
Drer\ptprsa
1 of 14
No
No
Drer\ttn.1
1 of 14
No
No
Drer\ttn.2
1 of 14
No
No
Caenorhabditis elegans (Nematode, roundworm) (0)
Anopheles gambiae (African malaria mosquito) (1)
Agam\DOME
4 of 12
Yes
Yes
Arabidopsis thaliana (thale-cress) (0)
Saccharomyces cerevisiae (Brewer's yeast) (0)
Schizosaccharomyces pombe (Fission yeast) (0)
Escherichia coli (enterobacterium) (0)
Other Organism Orthologs (via OrthoDB)
Data provided directly from OrthoDB:dome. Refer to their site for version information.
Paralogs
Downloads
Download All DIOPT Paralogs
Paralogs (via DIOPT v9.1)
Gene Symbol
Score
Source
Compara
Domainoid
eggNOG
Homologene
Inparanoid
OMA
OrthoDB
OrthoFinder
OrthoInspector
orthoMCL
Panther
Phylome
SonicParanoid
Alignment
Drosophila melanogaster (Fruit fly) (2)
et
2 of 13
fra
1 of 13
Human Disease Associations
FlyBase Human Disease Model Reports
    Disease Ontology (DO) Annotations
    Models Based on Experimental Evidence ( 1 )
    Allele
    Disease
    Evidence
    References
    domeΔCYT.UAS
    model of  viral infectious disease
    CEA
    (Merkling et al., 2015)
    Potential Models Based on Orthology ( 2 )
    Modifiers Based on Experimental Evidence ( 4 )
    Disease Associations of Human Orthologs (via DIOPT v9.1 and OMIM)
    Note that ortholog calls supported by only 1 or 2 algorithms (DIOPT score < 3) are not shown.
    Homo sapiens (Human)
    Gene name
    Score
    OMIM
    OMIM Phenotype
    DO term
    Complementation?
    Transgene?
    Functional Complementation Data
    Functional complementation data is computed by FlyBase using a combination of the orthology data obtained from DIOPT and OrthoDB and the allele-level genetic interaction data curated from the literature.
    Interactions
    Summary of Physical Interactions
    esyN Network Diagram
    Show neighbor-neighbor interactions:
    Show/hide secondary interactors 
    (data from AllianceMine provided by esyN)
    Select Layout:
    Legend:
    Protein
    RNA
    Selected Interactor(s)
    Other Interaction Browsers
    View in FlyBase Interactions BrowserView in MIST tool (external link)
    Please see the Physical Interaction reports below for full details
    protein-protein
    Physical Interaction
    Assay
    References
    dome
    beta galactosidase complementation, anti tag coimmunoprecipitation, anti tag western blot
    (Shen et al., 2022, Fisher et al., 2018, Fisher et al., 2016, Brown et al., 2003)
    dome - Eb1
    anti tag coimmunoprecipitation, western blot, pull down
    (Chen et al., 2018)
    dome - Pi3K21B
    anti tag coimmunoprecipitation, Identification by mass spectrometry
    (Vinayagam et al., 2016)
    dome - Rab11
    anti tag coimmunoprecipitation, western blot
    (Chen et al., 2018)
    dome - Rab4
    anti tag coimmunoprecipitation, western blot
    (Chen et al., 2018)
    dome - Rab5
    anti tag coimmunoprecipitation, western blot
    (Chen et al., 2018)
    dome - Rab8
    anti tag coimmunoprecipitation, western blot
    (Chen et al., 2018)
    dome - Rel
    anti tag coimmunoprecipitation, anti tag western blot, pull down
    (Shen et al., 2022)
    dome - Socs36E
    anti tag coimmunoprecipitation, anti tag western blot
    (Kang et al., 2018, Stec et al., 2013)
    dome - Stat92E
    anti bait coimmunoprecipitation, anti tag western blot, anti tag coimmunoprecipitation, western blot
    (Fisher et al., 2016, Chen et al., 2002)
    dome - et
    anti tag coimmunoprecipitation, anti tag western blot
    (Fisher et al., 2016, Kallio et al., 2010, Makki et al., 2010)
    dome - hop
    enzymatic study, western blot, anti tag coimmunoprecipitation, anti tag western blot
    (Shen et al., 2022, Fisher et al., 2016, Kallio et al., 2010)
    dome - mask
    anti tag coimmunoprecipitation, anti tag western blot
    (Fisher et al., 2018)
    dome - upd1
    anti tag coimmunoprecipitation, anti tag western blot, affinity technology, fluorescence microscopy, inferred by author
    (Fisher et al., 2016, Chen et al., 2002)
    dome - upd2
    anti tag coimmunoprecipitation, anti tag western blot
    (Fisher et al., 2016)
    dome - upd3
    anti tag coimmunoprecipitation, anti tag western blot
    (Fisher et al., 2016)
    dome - wdp
    anti tag coimmunoprecipitation, anti tag western blot
    (Ren et al., 2015)
    Summary of Genetic Interactions
    esyN Network Diagram
    Show/hide secondary interactors 
    (data from AllianceMine provided by esyN)
    esyN Network Key:
    Suppression
    Enhancement
    Other Interaction Browsers
    View in FlyBase Interactions BrowserView in MIST tool (external link)
    Please look at the allele data for full details of the genetic interactions
    Starting gene(s)
    Interaction type
    Interacting gene(s)
    Reference
    dome
    suppressible
    CycA
    (Recasens-Alvarez et al., 2017)
    dome
    suppressible
    Diap1
    (Recasens-Alvarez et al., 2017)
    dome
    suppressible
    Dronc
    (Recasens-Alvarez et al., 2017)
    dome
    suppressible
    Egfr
    (Recasens-Alvarez et al., 2017, Buchon et al., 2010)
    dome
    suppressible
    en
    (Recasens-Alvarez et al., 2017)
    dome
    suppressible
    hop
    (Chen et al., 2002)
    dome
    enhanceable
    hop
    (Brown et al., 2001)
    dome
    suppressible
    Ras85D
    (Buchon et al., 2010)
    dome
    suppressible
    Sox100B
    (Jin et al., 2020)
    dome
    enhanceable
    Stat92E
    (Ghiglione et al., 2002, Brown et al., 2001)
    dome
    suppressible
    Su(var)2-10
    (Ghiglione et al., 2002)
    dome
    enhanceable
    wg
    (Recasens-Alvarez et al., 2017)
    Starting gene(s)
    Interaction type
    Interacting gene(s)
    Reference
    Bub3
    suppressible
    dome
    (Romão et al., 2021, Clemente-Ruiz et al., 2016)
    ci
    suppressible
    dome
    (Liu et al., 2015)
    Dref
    enhanceable
    dome
    (Ida et al., 2009)
    Egfr::tor
    suppressible
    dome
    (Buchon et al., 2010)
    Egfr|Socs36E
    suppressible
    dome
    (Herranz et al., 2012)
    gcm
    suppressible
    dome
    (Jacques et al., 2009)
    hpo
    suppressible
    dome
    (Ren et al., 2010)
    kis
    suppressible
    dome
    (Gervais et al., 2019)
    L
    suppressible
    dome
    (Wang and Huang, 2009)
    Pc
    suppressible
    dome
    (Classen et al., 2009)
    Ras85D
    suppressible
    dome
    (Chabu and Xu, 2014)
    Ras85D|upd1
    suppressible
    dome
    (Wu et al., 2010)
    Ras85D|scrib
    suppressible
    dome
    (Katheder et al., 2017, Wu et al., 2010)
    Rnf146
    suppressible
    dome
    (Gultekin and Steller, 2019)
    rpr
    enhanceable
    dome
    (Harris et al., 2020)
    Sce
    suppressible
    dome
    (Classen et al., 2009)
    scrib
    suppressible
    dome
    (Bunker et al., 2015)
    SH3PX1
    suppressible
    dome
    (Zhang et al., 2019)
    Stat92E
    enhanceable
    dome
    (Brown et al., 2001)
    upd1
    suppressible
    dome
    (Hombria et al., 2005, Chen et al., 2002, Ghiglione et al., 2002, Brown et al., 2001)
    upd1
    enhanceable
    dome
    (Bach et al., 2003)
    upd2
    suppressible
    dome
    (Hombria et al., 2005)
    upd3
    suppressible
    dome
    (Romão et al., 2021)
    External Data
    Subunit Structure (UniProtKB)
    Interacts with wdp; the interaction promotes internalization of dome and its subsequent lysosomal degradation; thereby reducing JAK/STAT signaling.
    (UniProt, Q9VWE0 )
    Linkouts
    BioGRID - A database of protein and genetic interactions.
    DroID - A comprehensive database of gene and protein interactions.
    MIST (genetic) - An integrated Molecular Interaction Database
    MIST (protein-protein) - An integrated Molecular Interaction Database
    Pathways
    Signaling Pathways (FlyBase)
    JAK-STAT Signaling Pathway Core Components -
    The JAK-STAT signaling pathway is initiated by the binding of an extracellular ligand to a cell surface receptor leading to receptor dimerization and the intracellular activation of a Janus kinase (JAK) family member. JAK phosphorylates cytoplasmic STAT family members which dimerize, translocate into the nucleus and regulate target gene expression. In Drosophila, the core pathway is limited to three ligands (the Unpaired family of cytokines), a single receptor (dome), JAK kinase (hop) and STAT (Stat92E). (Adapted from FBrf0225259).
    Metabolic Pathways
    External Data
    Linkouts
    Reactome - An open-source, open access, manually curated and peer-reviewed pathway database.
    SignaLink - A signaling pathway resource with multi-layered regulatory networks.
    Genomic Location and Detailed Mapping Data
    Chromosome (arm)
    X
    Recombination map
    1-64
    Cytogenetic map
    18D13-18E1
    Sequence location
    FlyBase Computed Cytological Location
    Cytogenetic map
    Evidence for location
    18D13-18E1
    Limits computationally determined from genome sequence between P{EP}Sec61γEP1511 and P{EP}EP1116&P{EP}EP1344EP1344
    Experimentally Determined Cytological Location
    Cytogenetic map
    Notes
    References
    18E-18F
    (determined by in situ hybridisation) 18E (determined by in situ hybridisation) 18E1--2 (determined by in situ hybridisation)
    (Peter et al., 2002)
    18E-18E
    (determined by in situ hybridisation) 18E1--2 (determined by in situ hybridisation)
    (Schäfer et al., 1999.8.12)
    18E-18F
    (determined by in situ hybridisation)
    (Schäfer et al., 1999.6.15)
    Experimentally Determined Recombination Data
    Location

    1-64

    (FlyBase, 2016)

    1-62.4

    (Comeron et al., 2012)

    1-

    (Castelli-Gair et al., 2001)
    Left of (cM)
    Right of (cM)
    Notes
    Stocks and Reagents
    Stocks (28)
    Genomic Clones (9)
     

    Please Note FlyBase no longer curates genomic clone accessions so this list may not be complete

    cDNA Clones (72)
     

    Please Note This section lists cDNAs and ESTs that fall within the genomic extent of the gene model, which may include cDNAs and ESTs of genes within introns, or of overlapping genes. Please see JBrowse for alignment of the cDNAs and ESTs to the gene model.

    cDNA clones, fully sequenced
    BDGP DGC clones
    Other clones
    Drosophila Genomics Resource Center cDNA clones

    For each fully sequenced cDNA the DGRC maintains various forms of the cDNA (e.g tagged or untagged) in several different host vectors for subsequent cloning and expression in Drosophila and Drosophila cell lines.

    cDNA Clones, End Sequenced (ESTs)
    BDGP DGC clones
    Other clones
    RNAi and Array Information
    Linkouts
    DRSC - Results frm RNAi screens
    Antibody Information
    Laboratory Generated Antibodies
     

    polyclonal

    (Chen et al., 2018)
    Commercially Available Antibodies
     
    Cell Line Information
    Publicly Available Cell Lines
     
      Other Stable Cell Lines
       
        Other Comments

        dsRNA made from templates generated with primers directed against this gene.

        (Bartscherer et al., 2006)

        Treatment of S2-derived S2-NP cells with dsRNA made from templates generated with primers directed against dome results in a 12-24-fold decrease in JAK/STAT activity.

        (Baeg et al., 2005)

        dome protein is ubiquitously expressed in embryos, but its homodimerisation is developmentally regulated. dome protein homodimerisation is not ligand-induced.

        (Brown et al., 2003)

        dsRNA made from templates generated with primers directed against this gene tested in RNAi screen for effects on Kc167 and S2R+ cell morphology.

        (Kiger et al., 2003)

        dome functions as a receptor of the JAK/STAT signal transduction pathway.

        (Chen et al., 2002)

        dome functions in the JAK/STAT signal transduction pathway, acting between os and hop.

        (Chen et al., 2002)

        dome mutants display a variety of epithelial defects including fusions of denticle belts, holes in the cuticle and a failure of proventricular primordial cells to migrate into the endodermal part of the organ.

        (Feix et al., 2002)

        dome is required for epithelial development.

        (Feix et al., 2002)

        dome is involved in border follicle cell determination and migration.

        (Ghiglione et al., 2002)

        dome codes for a transmembrane receptor required for all JAK/STAT functions in the embryo.

        (Brown et al., 2001)

        Zygotic mutants show disruption of the posterior spiracles. Embryos null for both maternal and zygotic dome function show segmental defects identical to those seen in null os, hop and Stat92E mutants.

        (Castelli-Gair et al., 2001)

        dome is a receptor of the pathway necessary for STAT activation.

        (Castelli-Gair et al., 2001)

        Not known to correspond to any of the known lethal complementation groups in 18D-18E region.

        (Fehon, 1997.3.25)
        Relationship to Other Genes
        Source for database merge of

        Source for merge of: CG14226 anon-18DEb

        (Bayraktaroglu, 2000.11.2)

        Source for merge of: dome CG14226 l(1)G0321 l(1)G0405 l(1)G0367 l(1)G0218 l(1)G0441 l(1)G0264 l(1)G0282

        (Castelli-Gair Hombria, 2001.9.19)
        Additional comments
        Nomenclature History
        Source for database identify of

        Source for identity of: dome mom

        (Chen, 2002.3.18)

        Source for identity of: dome vsp

        (Feix, 2002.3.19)
        Nomenclature comments
        Etymology

        The gene is named "master of marelle" based on its presumed role in the hop/Stat92E signal transduction pathway.

        (Chen et al., 2002)
        Synonyms and Secondary IDs (26)
        Reported As
        Symbol Synonym
        142932_at
        (Kristensen et al., 2005)
        CG14226
        (Schertel et al., 2013, Ni et al., 2010.12.1, Cheng et al., 2009, Ida et al., 2009, Keleman et al., 2009.8.5, Perkins et al., 2009, Schiess et al., 2009, Ni et al., 2008, Maisonhaute et al., 2007, Wertheim et al., 2005, Chen et al., 2002, Egger et al., 2002, Peter et al., 2002, Fehon, 1997.3.25)
        CT33841
        (Hynes and Zhao, 2000)
        DOME
        (Ferrandon, 2013, Miyamoto et al., 2013, Luo and Sehgal, 2012, Arbouzova and Zeidler, 2006, Castelli-Gair Hombria, 2006, Leclerc and Reichhart, 2004, Rorth, 2002)
        Dom
        (Chabu and Xu, 2014)
        Dome
        (Mpamhanga and Kounatidis, 2024, Huang et al., 2023, Stączek et al., 2023, Inaki et al., 2022, Pratomo et al., 2022, Ratnaparkhi and Sudhakaran, 2022, Yu et al., 2022, Chatterjee and Perrimon, 2021, Hayes and Melrose, 2021, Meschi and Delanoue, 2021, Morris and Jasper, 2021, Rosendo Machado et al., 2021, Schneider and Imler, 2021, Ahmad et al., 2020, Jasper, 2020, Lan et al., 2020, Moore et al., 2020, Tafesh-Edwards and Eleftherianos, 2020, Texada et al., 2020, Bailetti et al., 2019, Sanuki et al., 2019, Wang et al., 2019, Zhang et al., 2019, Boulet et al., 2018, Fisher et al., 2018, Kang et al., 2018, Yu et al., 2018, Londraville et al., 2017, Mussabekova et al., 2017, Zhao and Karpac, 2017, Clavería and Torres, 2016, Mbodj et al., 2016, Yadav et al., 2016, Katsuyama et al., 2015, Kolahgar et al., 2015, Vlisidou and Wood, 2015, Chen et al., 2014, Markstein et al., 2014, Salazar-Jaramillo et al., 2014, Bausek, 2013, Kuraishi et al., 2013, Mbodj et al., 2013, Morin-Poulard et al., 2013, Nässel et al., 2013, Ren et al., 2013, Stec et al., 2013, Wells et al., 2013, Wong et al., 2013, Zeidler and Bausek, 2013, Zoranovic et al., 2013, Amoyel and Bach, 2012, Jiang et al., 2011, Kulkarni et al., 2011, Stec and Zeidler, 2011, Sun et al., 2011, Yoon et al., 2011, Buchon et al., 2010, Djiane and Mlodzik, 2010, Kallio et al., 2010, Vidal et al., 2010, Wu et al., 2010, Bond and Foley, 2009, Buchon et al., 2009, Cheng et al., 2009, Gilbert et al., 2009, Shyu et al., 2009, Wang and Huang, 2009, Nallamothu et al., 2008, Pastor-Pareja et al., 2008, Waterhouse et al., 2007, Yasugi et al., 2007, Bina and Zeidler, 2006, Karsten et al., 2006, Keller, 2006, Baeg et al., 2005, Gesellchen et al., 2005, Agaisse et al., 2003, Hultmark and Ekengren, 2003)
        Domeless
        (Lin et al., 2019, Wang et al., 2015)
        anon-18DEb
        dome
        (Eslahi et al., 2024, Pfefferkorn et al., 2024, Aromolaran et al., 2023, Barrio et al., 2023, Chen et al., 2023, Heigwer et al., 2023, Jiang et al., 2023, Nagai et al., 2023, Beghelli et al., 2022, Bhaskar et al., 2022, Ding et al., 2022, Evans et al., 2022, Jia et al., 2022, Mallart et al., 2022, Shen et al., 2022, Wu et al., 2022, Cai et al., 2021, Ding et al., 2021, Dong et al., 2021, Fabian et al., 2021, Girard et al., 2021, Joy et al., 2021, Lourido et al., 2021, Mase et al., 2021, Spratford et al., 2021, Cho et al., 2020, Fast et al., 2020, Harris et al., 2020, Harsh et al., 2020, Huang et al., 2020, Ingaramo et al., 2020, Jin et al., 2020, Liu et al., 2020, Luo et al., 2020, P et al., 2020, Ramond et al., 2020, Vizcaya-Molina et al., 2020, von Frieling et al., 2020, Asri et al., 2019, Gervais et al., 2019, Gultekin and Steller, 2019, Herrera and Bach, 2019, Houtz et al., 2019, Hudry et al., 2019, Liao et al., 2019, Nelson et al., 2019, Powers and Srivastava, 2019, Sharma et al., 2019, Tudrej et al., 2019, Wittes and Schüpbach, 2019, Xu et al., 2019, Ahmed-de-Prado et al., 2018, Borensztejn et al., 2018, Fisher et al., 2018, Gene Disruption Project members, 2018-, Petrovsky and Großhans, 2018, Yu et al., 2018, Beshel et al., 2017, Crest et al., 2017, Katheder et al., 2017, Lee et al., 2017, Péan et al., 2017, Recasens-Alvarez et al., 2017, Terriente-Félix et al., 2017, Vollmer et al., 2017, Zhang et al., 2017, Fregoso Lomas et al., 2016, Hoi et al., 2016, Kučerová et al., 2016, Sarov et al., 2016, Glassford et al., 2015, Inaba et al., 2015, Liu et al., 2015, Merkling et al., 2015, Ren et al., 2015, Santabárbara-Ruiz et al., 2015, Cordero et al., 2014, Doherty et al., 2014, Evans et al., 2014, Jalvingh et al., 2014, Kim and Choe, 2014, Morelli et al., 2014, Carter, 2013, Crona et al., 2013, Das et al., 2013, Hombría and Serras, 2013, Hombría and Sotillos, 2013, Kingsolver et al., 2013, Morin-Poulard et al., 2013, Ozkan et al., 2013, Ozkan et al., 2013, Radyuk et al., 2013, Schertel et al., 2013, Sinha et al., 2013, Wang et al., 2013, Zhang et al., 2013, Zhou et al., 2013, Amoyel and Bach, 2012, Cordero et al., 2012, Feng et al., 2012, Graves et al., 2012, Hayashi et al., 2012, Herranz et al., 2012, Luo and Sehgal, 2012, Rajan and Perrimon, 2012, Tokusumi et al., 2012, Copf et al., 2011, Gao et al., 2011, Jiang et al., 2011, Li et al., 2011, Tokusumi et al., 2011, Wang et al., 2011, Wright et al., 2011, Yuva-Aydemir et al., 2011, Beebe et al., 2010, Bina et al., 2010, Lin et al., 2010, Ngo et al., 2010, Popodi et al., 2010-, Ren et al., 2010, Venken et al., 2010, Wang et al., 2010, Wu et al., 2010, Charroux and Royet, 2009, Classen et al., 2009, Cronin et al., 2009, Flaherty et al., 2009, González et al., 2009, Gutierrez-Aviño et al., 2009, Ida et al., 2009, Jiang et al., 2009, Ni et al., 2009, Owusu-Ansah and Banerjee, 2009, Copf and Preat, 2008, López-Onieva et al., 2008, Ni et al., 2008, Rivas et al., 2008, Sotillos et al., 2008, Yu et al., 2008, Ayala-Camargo et al., 2007, Baeg et al., 2007, Devergne et al., 2007, Furriols et al., 2007, Luque and Milan, 2007, Maisonhaute et al., 2007, Mandal et al., 2007, Rivas et al., 2007, Tsai et al., 2007, Arbouzova, 2006, Arbouzova et al., 2006, Bartscherer et al., 2006, Brown et al., 2006, Lovegrove et al., 2006, Hombria et al., 2005, Wertheim et al., 2005, Tsai and Sun, 2004)
        domeMESO
        (Yu et al., 2021)
        domeless
        (Koranteng et al., 2022)
        l(1)G0217
        (Josten et al., 2004)
        l(1)G0218
        (Schäfer et al., 1999.8.12)
        l(1)G0264
        (Schäfer et al., 1999.8.12)
        l(1)G0282
        (Schäfer et al., 1999.6.15)
        l(1)G0321
        (Schäfer et al., 1999.8.12)
        l(1)G0367
        (Schäfer et al., 1999.8.12)
        l(1)G0405
        (Schäfer et al., 1999.8.12)
        l(1)G0441
        (Schäfer et al., 1999.8.12)
        l(1)G0468
        (Josten et al., 2004)
        mom
        (Chen et al., 2002, Chen et al., 2002)
        vsp
        (Josten et al., 2003, Feix et al., 2002)
        Name Synonyms
        DOME
        (Li et al., 2023)
        DOMELESS
        (Luo and Sehgal, 2012)
        Dome
        (Kietz and Meinander, 2023, Shen et al., 2022, Harnish et al., 2021)
        Dome receptor
        (Cheng et al., 2009)
        Domeless
        (Prakash et al., 2023, Benoit et al., 2022, Nayak and Mishra, 2022, Sciambra and Chtarbanova, 2021, Ahmed-de-Prado and Baonza, 2018, Boulet et al., 2018, Mehrotra and Deshpande, 2018, Yu et al., 2018, Jiang et al., 2016, Castillo et al., 2015, Katsuyama et al., 2015, Kolahgar et al., 2015, Merkling et al., 2015, Chabu and Xu, 2014, Tognon et al., 2014, Wang et al., 2014, Bausek, 2013, Kuraishi et al., 2013, Merkling and van Rij, 2013, Miyamoto et al., 2013, Morin-Poulard et al., 2013, Stec et al., 2013, Wang et al., 2013, Zeidler and Bausek, 2013, Zoranovic et al., 2013, Amoyel and Bach, 2012, Bier and Guichard, 2012, Igboin et al., 2012, Lim et al., 2012, Karpac et al., 2011, Stec and Zeidler, 2011, Sun et al., 2011, Yoon et al., 2011, Buchon et al., 2010, Kallio et al., 2010, Makki et al., 2010, Sabin et al., 2010, Vidal et al., 2010, Buchon et al., 2009, Buchon et al., 2009, Classen et al., 2009, Wang and Huang, 2009, Sotillos et al., 2008, Gilbert et al., 2007, Yasugi et al., 2007, Arbouzova and Zeidler, 2006, Montell, 2006, Payne and Braun, 2006)
        dome
        (Balakireva et al., 2024)
        domeless
        (Kierdorf et al., 2020, Liu et al., 2020, Gultekin and Steller, 2019, Moskalev et al., 2019, Palmer et al., 2018, Gupta and Vale, 2017, Merkling et al., 2015, Santabárbara-Ruiz et al., 2015, Doherty et al., 2014, Markstein et al., 2014, Crona et al., 2013, Radyuk et al., 2013, Sinha et al., 2013, Zhang et al., 2013, Hazelett et al., 2012, Juarez et al., 2011, Kulkarni et al., 2011, Beebe et al., 2010, Cronin et al., 2009, Hill-Burns and Clark, 2009, Jacques et al., 2009, Jiang et al., 2009, Ni et al., 2009, Shyu et al., 2009, Wagner et al., 2009, Ni et al., 2008, Yu et al., 2008, Devergne et al., 2007, Furriols et al., 2007, Bartscherer et al., 2006, Brown et al., 2006, Mukherjee et al., 2005, Castelli-Gair et al., 2001)
        master of marelle
        (Chen et al., 2002, Chen et al., 2002)
        verstopft
        (Josten et al., 2003, Feix et al., 2002)
        Secondary FlyBase IDs
        • FBgn0019901
        • FBgn0027236
        • FBgn0028267
        • FBgn0028288
        • FBgn0028311
        • FBgn0028326
        • FBgn0028335
        • FBgn0028344
        • FBgn0031056
        Datasets (0)
        Study focus (0)
        Experimental Role
        Project
        Project Type
        Title
        Study result (0)
        Result
        Result Type
        Title
        External Crossreferences and Linkouts ( 48 )
        Sequence Crossreferences
        NCBI Gene - Gene integrates information from a wide range of species. A record may include nomenclature, Reference Sequences (RefSeqs), maps, pathways, variations, phenotypes, and links to genome-, phenotype-, and locus-specific resources worldwide.
        GenBank Nucleotide - A collection of sequences from several sources, including GenBank, RefSeq, TPA, and PDB.
        GenBank Protein - A collection of sequences from several sources, including translations from annotated coding regions in GenBank, RefSeq and TPA, as well as records from SwissProt, PIR, PRF, and PDB.
        RefSeq - A comprehensive, integrated, non-redundant, well-annotated set of reference sequences including genomic, transcript, and protein.
        UniProt/GCRP - The gene-centric reference proteome (GCRP) provides a 1:1 mapping between genes and UniProt accessions in which a single 'canonical' isoform represents the product(s) of each protein-coding gene.
        UniProt/Swiss-Prot - Manually annotated and reviewed records of protein sequence and functional information
        Other crossreferences
        AlphaFold DB - AlphaFold provides open access to protein structure predictions for the human proteome and other key proteins of interest, to accelerate scientific research.
        DRscDB - A single-cell RNA-seq resource for data mining and data comparison across species
        EMBL-EBI Single Cell Expression Atlas - Single cell expression across species
        FlyAtlas2 - A Drosophila melanogaster expression atlas with RNA-Seq, miRNA-Seq and sex-specific data
        FlyMine - An integrated database for Drosophila genomics
        InterPro - A database of protein families, domains and functional sites
        KEGG Genes - Molecular building blocks of life in the genomic space.
        MARRVEL_MODEL - MARRVEL (model organism gene)
        Linkouts
        BioGRID - A database of protein and genetic interactions.
        Drosophila Genomics Resource Center - Drosophila Genomics Resource Center (DGRC) cDNA clones
        DroID - A comprehensive database of gene and protein interactions.
        DRSC - Results frm RNAi screens
        Eukaryotic Promoter Database - A collection of databases of experimentally validated promoters for selected model organisms.
        FlyAtlas - Adult expression by tissue, using Affymetrix Dros2 array
        FlyCyc Genes - Genes from a BioCyc PGDB for Dmel
        Fly-FISH - A database of Drosophila embryo and larvae mRNA localization patterns
        Flygut - An atlas of the Drosophila adult midgut
        iBeetle-Base - RNAi phenotypes in the red flour beetle (Tribolium castaneum)
        Interactive Fly - A cyberspace guide to Drosophila development and metazoan evolution
        MIST (genetic) - An integrated Molecular Interaction Database
        MIST (protein-protein) - An integrated Molecular Interaction Database
        Reactome - An open-source, open access, manually curated and peer-reviewed pathway database.
        SignaLink - A signaling pathway resource with multi-layered regulatory networks.
        References (452)