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General Information
Symbol
Dmel\futsch
Species
D. melanogaster
Name
futsch
Annotation Symbol
CG34387
Feature Type
FlyBase ID
FBgn0259108
Gene Model Status
Stock Availability
Gene Snapshot
futsch (futsch) encodes a microtubule binding protein involved in the formation of synaptic buttons at the neuromuscular junctions. Its expression levels are regulated by the product of TBPH to prevent synaptic defects. [Date last reviewed: 2019-02-28]
Also Known As

22C10, mAb22C10, mAb 22C10, MAP1B, EG:49E4.1

Key Links
Genomic Location
Cytogenetic map
Sequence location
X:1,409,069..1,453,686 [+]
Recombination map

1-0.2

RefSeq locus
NC_004354 REGION:1409069..1453686
Sequence
Other Genome Views
The following external sites may use different assemblies or annotations than FlyBase.
Function
GO Summary Ribbons
Gene Ontology (GO) Annotations (29 terms)
Molecular Function (5 terms)
Terms Based on Experimental Evidence (3 terms)
CV Term
Evidence
References
inferred from physical interaction with UniProtKB:Q5S007
(assigned by BHF-UCL )
inferred from physical interaction with UniProtKB:Q9VDJ9
(assigned by BHF-UCL )
inferred from physical interaction with FLYBASE:Fmr1; FB:FBgn0028734
Terms Based on Predictions or Assertions (3 terms)
CV Term
Evidence
References
inferred from biological aspect of ancestor with PANTHER:PTN000353807
(assigned by GO_Central )
inferred from sequence or structural similarity with UniProtKB:P46821
inferred from biological aspect of ancestor with PANTHER:PTN000353807
(assigned by GO_Central )
inferred from biological aspect of ancestor with PANTHER:PTN000353807
(assigned by GO_Central )
Biological Process (14 terms)
Terms Based on Experimental Evidence (9 terms)
CV Term
Evidence
References
inferred from mutant phenotype
inferred from mutant phenotype
inferred from mutant phenotype
inferred from mutant phenotype
(assigned by UniProt )
inferred from mutant phenotype
(assigned by UniProt )
inferred from mutant phenotype
Terms Based on Predictions or Assertions (7 terms)
CV Term
Evidence
References
inferred from biological aspect of ancestor with PANTHER:PTN000353807
(assigned by GO_Central )
non-traceable author statement
inferred from biological aspect of ancestor with PANTHER:PTN000353807
(assigned by GO_Central )
inferred from biological aspect of ancestor with PANTHER:PTN000353807
(assigned by GO_Central )
non-traceable author statement
non-traceable author statement
inferred from biological aspect of ancestor with PANTHER:PTN000353807
(assigned by GO_Central )
Cellular Component (10 terms)
Terms Based on Experimental Evidence (6 terms)
CV Term
Evidence
References
inferred from direct assay
inferred from direct assay
inferred from direct assay
inferred from mutant phenotype
(assigned by UniProt )
Terms Based on Predictions or Assertions (7 terms)
CV Term
Evidence
References
inferred from biological aspect of ancestor with PANTHER:PTN000353807
(assigned by GO_Central )
inferred from biological aspect of ancestor with PANTHER:PTN000353807
(assigned by GO_Central )
inferred from biological aspect of ancestor with PANTHER:PTN000353807
(assigned by GO_Central )
inferred from biological aspect of ancestor with PANTHER:PTN000353807
(assigned by GO_Central )
inferred from biological aspect of ancestor with PANTHER:PTN000353807
(assigned by GO_Central )
inferred from biological aspect of ancestor with PANTHER:PTN000353807
(assigned by GO_Central )
inferred from biological aspect of ancestor with PANTHER:PTN000353807
(assigned by GO_Central )
Protein Family (UniProt)
-
Summaries
Protein Function (UniProtKB)
During embryogenesis, necessary for dendritic and axonal organization and growth at the neuromuscular junction through the regulation of the synaptic microtubule cytoskeleton (PubMed:10839355, PubMed:10839356, PubMed:11733059). Microtubule hairpin loops are found within a small subset of synaptic boutons at the neuromuscular synapse, these loops are stabilized by Futsch (PubMed:10839355, PubMed:10839356, PubMed:11733059). Loop morphology and dynamics suggest that rearrangement of these microtubule-based loops is a critical component of the process of bouton division and for subsequent nerve-terminal growth and branching (PubMed:10839355, PubMed:10839356, PubMed:11733059). Translation is repressed by Fmr1 (PubMed:10839355, PubMed:10839356, PubMed:11733059). Together with Ringer, required for neuromuscular junction (NMJ) bouton growth by regulating synaptic microtubules (PubMed:31156389).
(UniProt, Q9W596)
Summary (Interactive Fly)

microtubule-associated protein regulating axon guidance - Futsch/MAP1B mRNA is a translational target of TDP-43 and is neuroprotective in a Drosophila model of Amyotrophic Lateral Sclerosis

Gene Model and Products
Number of Transcripts
3
Number of Unique Polypeptides
1

Please see the JBrowse view of Dmel\futsch 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
Comments on Gene Model

Gene model reviewed during 5.53

Sequence Ontology: Class of Gene
Transcript Data
Annotated Transcripts
Name
FlyBase ID
RefSeq ID
Length (nt)
Assoc. CDS (aa)
FBtr0112628
19300
5495
FBtr0307597
22255
5495
FBtr0307598
20736
5495
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
RefSeq ID
GenBank
FBpp0111540
592.1
5495
4.61
FBpp0300235
592.1
5495
4.61
FBpp0300236
592.1
5495
4.61
Polypeptides with Identical Sequences

The group(s) of polypeptides indicated below share identical sequence to each other.

5495 aa isoforms: futsch-PC, futsch-PE, futsch-PF
Additional Polypeptide Data and Comments
Reported size (kDa)
Comments
External Data
Subunit Structure (UniProtKB)

Heterodimer of a heavy and a light chain (PubMed:18419581). Interacts with Fmr1 (PubMed:11733059). Found in a complex with tubulin and Futsch (PubMed:31156389).

(UniProt, Q9W596)
Post Translational Modification

Several minor light chains can be created with markedly different pIs.

Phosphorylated by SGG/GSK3. Phosphorylated by LRRK2 at the presynapse of neuromuscular junctions, which negatively regulates the activity controlling synaptic differentiation.

(UniProt, Q9W596)
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\futsch 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
Expression Summary Ribbons
Colored tiles in ribbon indicate that expression data has been curated by FlyBase for that anatomical location. Colorless tiles indicate that there is no curated data for that location.
For complete stage-specific expression data, view the modENCODE Development RNA-Seq section under High-Throughput Expression below.
Transcript Expression
in situ
Stage
Tissue/Position (including subcellular localization)
Reference
RT-PCR
Stage
Tissue/Position (including subcellular localization)
Reference
Additional Descriptive Data

futsch-transcripts were detected at third instar larval stage via quantitative RT-PCR.

Marker for
 
Subcellular Localization
CV Term
Polypeptide Expression
immunolocalization
Stage
Tissue/Position (including subcellular localization)
Reference
inferred from author statements
Stage
Tissue/Position (including subcellular localization)
Reference
mass spectroscopy
Stage
Tissue/Position (including subcellular localization)
Reference
western blot
Stage
Tissue/Position (including subcellular localization)
Reference
Additional Descriptive Data

Expressed in the vast majority of central and peripheral neurons.

Expression assayed at stages 9, 11, 13, and 17. Expression may be continuous between assayed stages in some tissues.

The earliest expression of futsch protein is at embryonic stage 11, in the vMP2 and dMP2 interneurons.

Marker for
Subcellular Localization
CV Term
Evidence
References
inferred from direct assay
inferred from direct assay
inferred from direct assay
inferred from mutant phenotype
(assigned by UniProt )
Expression Deduced from Reporters
High-Throughput Expression Data
Associated Tools

GBrowse - Visual display of RNA-Seq signals

View Dmel\futsch in GBrowse 2
RNA-Seq by Region - Search RNA-Seq expression levels by exon or genomic region
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
FLIGHT - Cell culture data for RNAi and other high-throughput technologies
FlyAtlas - Adult expression by tissue, using Affymetrix Dros2 array
Fly-FISH - A database of Drosophila embryo and larvae mRNA localization patterns
Flygut - An atlas of the Drosophila adult midgut
Images
Alleles, Insertions, and Transgenic Constructs
Classical and Insertion Alleles ( 18 )
For All Classical and Insertion Alleles Show
 
Other relevant insertions
Transgenic Constructs ( 13 )
For All Alleles Carried on Transgenic Constructs Show
Transgenic constructs containing/affecting coding region of futsch
Transgenic constructs containing regulatory region of futsch
Deletions and Duplications ( 7 )
Phenotypes
For more details about a specific phenotype click on the relevant allele symbol.
Lethality
Allele
Sterility
Allele
Other Phenotypes
Allele
Phenotype manifest in
Allele
microtubule & antennal lobe
mitochondrion & neuron
synapse & microtubule
Orthologs
Human Orthologs (via DIOPT v8.0)
Homo sapiens (Human) (16)
Species\Gene Symbol
Score
Best Score
Best Reverse Score
Alignment
Complementation?
Transgene?
8 of 15
Yes
Yes
8 of 15
Yes
Yes
6 of 15
No
Yes
1 of 15
No
No
1 of 15
No
No
1 of 15
No
No
1 of 15
No
No
1 of 15
No
No
1 of 15
No
No
1 of 15
No
Yes
1 of 15
No
Yes
1 of 15
No
Yes
1 of 15
No
No
1 of 15
No
No
1 of 15
No
No
1 of 15
No
Yes
Model Organism Orthologs (via DIOPT v8.0)
Mus musculus (laboratory mouse) (13)
Species\Gene Symbol
Score
Best Score
Best Reverse Score
Alignment
Complementation?
Transgene?
9 of 15
Yes
Yes
8 of 15
No
Yes
6 of 15
No
Yes
1 of 15
No
No
1 of 15
No
No
1 of 15
No
No
1 of 15
No
No
1 of 15
No
No
1 of 15
No
Yes
1 of 15
No
No
1 of 15
No
No
1 of 15
No
Yes
1 of 15
No
Yes
Rattus norvegicus (Norway rat) (11)
7 of 13
Yes
Yes
6 of 13
No
Yes
5 of 13
No
Yes
1 of 13
No
No
1 of 13
No
Yes
1 of 13
No
No
1 of 13
No
No
1 of 13
No
Yes
1 of 13
No
No
1 of 13
No
Yes
1 of 13
No
Yes
Xenopus tropicalis (Western clawed frog) (4)
4 of 12
Yes
Yes
1 of 12
No
Yes
1 of 12
No
Yes
1 of 12
No
No
Danio rerio (Zebrafish) (10)
8 of 15
Yes
Yes
8 of 15
Yes
Yes
6 of 15
No
Yes
6 of 15
No
Yes
5 of 15
No
Yes
1 of 15
No
No
1 of 15
No
No
1 of 15
No
Yes
1 of 15
No
Yes
Caenorhabditis elegans (Nematode, roundworm) (4)
3 of 15
Yes
Yes
3 of 15
Yes
Yes
3 of 15
Yes
Yes
1 of 15
No
No
Arabidopsis thaliana (thale-cress) (0)
No records found.
Saccharomyces cerevisiae (Brewer's yeast) (0)
No records found.
Schizosaccharomyces pombe (Fission yeast) (0)
No records found.
Ortholog(s) in Drosophila Species (via OrthoDB v9.1) ( EOG09190022 )
Organism
Common Name
Gene
AAA Syntenic Ortholog
Multiple Dmel Genes in this Orthologous Group
Drosophila suzukii
Spotted wing Drosophila
Drosophila simulans
Drosophila sechellia
Drosophila erecta
Drosophila yakuba
Drosophila ananassae
Drosophila pseudoobscura pseudoobscura
Drosophila persimilis
Drosophila willistoni
Drosophila virilis
Drosophila mojavensis
Drosophila grimshawi
Orthologs in non-Drosophila Dipterans (via OrthoDB v9.1) ( EOG091502ZG )
Organism
Common Name
Gene
Multiple Dmel Genes in this Orthologous Group
Musca domestica
House fly
Musca domestica
House fly
Glossina morsitans
Tsetse fly
Lucilia cuprina
Australian sheep blowfly
Mayetiola destructor
Hessian fly
Aedes aegypti
Yellow fever mosquito
Anopheles darlingi
American malaria mosquito
Anopheles gambiae
Malaria mosquito
Culex quinquefasciatus
Southern house mosquito
Orthologs in non-Dipteran Insects (via OrthoDB v9.1) ( EOG090W01GO )
Organism
Common Name
Gene
Multiple Dmel Genes in this Orthologous Group
Bombyx mori
Silkmoth
Danaus plexippus
Monarch butterfly
Heliconius melpomene
Postman butterfly
Apis florea
Little honeybee
Apis mellifera
Western honey bee
Bombus impatiens
Common eastern bumble bee
Bombus terrestris
Buff-tailed bumblebee
Linepithema humile
Argentine ant
Megachile rotundata
Alfalfa leafcutting bee
Nasonia vitripennis
Parasitic wasp
Dendroctonus ponderosae
Mountain pine beetle
Tribolium castaneum
Red flour beetle
Pediculus humanus
Human body louse
Rhodnius prolixus
Kissing bug
Rhodnius prolixus
Kissing bug
Cimex lectularius
Bed bug
Acyrthosiphon pisum
Pea aphid
Zootermopsis nevadensis
Nevada dampwood termite
Orthologs in non-Insect Arthropods (via OrthoDB v9.1) ( EOG090X01EU )
Organism
Common Name
Gene
Multiple Dmel Genes in this Orthologous Group
Strigamia maritima
European centipede
Ixodes scapularis
Black-legged tick
Stegodyphus mimosarum
African social velvet spider
Stegodyphus mimosarum
African social velvet spider
Tetranychus urticae
Two-spotted spider mite
Daphnia pulex
Water flea
Orthologs in non-Arthropod Metazoa (via OrthoDB v9.1) ( EOG091G12OH )
Organism
Common Name
Gene
Multiple Dmel Genes in this Orthologous Group
Strongylocentrotus purpuratus
Purple sea urchin
Strongylocentrotus purpuratus
Purple sea urchin
Strongylocentrotus purpuratus
Purple sea urchin
Strongylocentrotus purpuratus
Purple sea urchin
Strongylocentrotus purpuratus
Purple sea urchin
Strongylocentrotus purpuratus
Purple sea urchin
Strongylocentrotus purpuratus
Purple sea urchin
Strongylocentrotus purpuratus
Purple sea urchin
Strongylocentrotus purpuratus
Purple sea urchin
Strongylocentrotus purpuratus
Purple sea urchin
Strongylocentrotus purpuratus
Purple sea urchin
Strongylocentrotus purpuratus
Purple sea urchin
Strongylocentrotus purpuratus
Purple sea urchin
Strongylocentrotus purpuratus
Purple sea urchin
Ciona intestinalis
Vase tunicate
Ciona intestinalis
Vase tunicate
Ciona intestinalis
Vase tunicate
Ciona intestinalis
Vase tunicate
Ciona intestinalis
Vase tunicate
Gallus gallus
Domestic chicken
Gallus gallus
Domestic chicken
Gallus gallus
Domestic chicken
Gallus gallus
Domestic chicken
Gallus gallus
Domestic chicken
Gallus gallus
Domestic chicken
Gallus gallus
Domestic chicken
Gallus gallus
Domestic chicken
Gallus gallus
Domestic chicken
Gallus gallus
Domestic chicken
Paralogs
Paralogs (via DIOPT v8.0)
Drosophila melanogaster (Fruit fly) (0)
No records found.
Human Disease Associations
FlyBase Human Disease Model Reports
    Disease Model Summary Ribbon
    Disease Ontology (DO) Annotations
    Models Based on Experimental Evidence ( 0 )
    Allele
    Disease
    Evidence
    References
    Potential Models Based on Orthology ( 0 )
    Human Ortholog
    Disease
    Evidence
    References
    Modifiers Based on Experimental Evidence ( 4 )
    Disease Associations of Human Orthologs (via DIOPT v8.0 and OMIM)
    Note that ortholog calls supported by only 1 or 2 algorithms (DIOPT score < 3) are not shown.
    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:
    Select Layout:
    Legend:
    Protein
    RNA
    Selected Interactor(s)
    Interactions Browser

    Please see the Physical Interaction reports below for full details
    protein-protein
    Physical Interaction
    Assay
    References
    RNA-protein
    Physical Interaction
    Assay
    References
    Summary of Genetic Interactions
    esyN Network Diagram
    esyN Network Key:
    Suppression
    Enhancement

    Please look at the allele data for full details of the genetic interactions
    Starting gene(s)
    Interaction type
    Interacting gene(s)
    Reference
    Starting gene(s)
    Interaction type
    Interacting gene(s)
    Reference
    External Data
    Subunit Structure (UniProtKB)
    Heterodimer of a heavy and a light chain (PubMed:18419581). Interacts with Fmr1 (PubMed:11733059). Found in a complex with tubulin and Futsch (PubMed:31156389).
    (UniProt, Q9W596 )
    Linkouts
    BioGRID - A database of protein and genetic interactions.
    DroID - A comprehensive database of gene and protein interactions.
    InterologFinder - Protein-protein interactions (PPI) from both known and predicted PPI data sets.
    MIST (genetic) - An integrated Molecular Interaction Database
    MIST (protein-protein) - An integrated Molecular Interaction Database
    Pathways
    Signaling Pathways (FlyBase)
    Metabolic Pathways
    External Data
    Linkouts
    Genomic Location and Detailed Mapping Data
    Chromosome (arm)
    X
    Recombination map

    1-0.2

    Cytogenetic map
    Sequence location
    X:1,409,069..1,453,686 [+]
    FlyBase Computed Cytological Location
    Cytogenetic map
    Evidence for location
    2A3-2A3
    Limits computationally determined from genome sequence between P{EP}futschEP1419 and P{EP}brEP1515
    Experimentally Determined Cytological Location
    Cytogenetic map
    Notes
    References
    Experimentally Determined Recombination Data
    Location
    Left of (cM)
    Right of (cM)
    Notes
    Stocks and Reagents
    Stocks (11)
    Genomic Clones (28)
    cDNA Clones (35)
     

    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 GBrowse 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
    RNAi and Array Information
    Linkouts
    DRSC - Results frm RNAi screens
    GenomeRNAi - A database for cell-based and in vivo RNAi phenotypes and reagents
    Antibody Information
    Laboratory Generated Antibodies
    Commercially Available Antibodies
     
    Developmental Studies Hybridoma Bank - Monoclonal antibodies for use in research
    Other Information
    Relationship to Other Genes
    Source for database identify of
    Source for database merge of

    Source for merge of: EG:49E4.1 CG3064

    Source for merge of: futsch EG:49E4.1

    Source for merge of: futsch CG14772

    Source for merge of: futsch olk

    Additional comments

    Annotations CG3064 and CG14772 merged as CG34387 in release 5.2 of the genome annotation.

    Other Comments

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

    Either loss or overexpression of Fmr1 or futsch have identical effects on synaptic transmission - elevation at the NMJ and suppression in photoreceptor cells.

    futsch is necessary for dendritic and axonal growth.

    futsch may control synaptic growth at the neuromuscular junction through the regulation of the synaptic microtubule cytoskeleton.

    Origin and Etymology
    Discoverer
    Etymology

    futsch is German for "gone".

    Identification
    External Crossreferences and Linkouts ( 39 )
    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/Swiss-Prot - Manually annotated and reviewed records of protein sequence and functional information
    UniProt/TrEMBL - Automatically annotated and unreviewed records of protein sequence and functional information
    Other crossreferences
    Drosophila Genomics Resource Center - Drosophila Genomics Resource Center (DGRC) cDNA clones
    Eukaryotic Promoter Database - A collection of databases of experimentally validated promoters for selected model organisms.
    Fly-FISH - A database of Drosophila embryo and larvae mRNA localization patterns
    Flygut - An atlas of the Drosophila adult midgut
    FlyMine - An integrated database for Drosophila genomics
    GenomeRNAi - A database for cell-based and in vivo RNAi phenotypes and reagents
    InterPro - A database of protein families, domains and functional sites
    KEGG Genes - Molecular building blocks of life in the genomic space.
    modMine - A data warehouse for the modENCODE project
    Linkouts
    BioGRID - A database of protein and genetic interactions.
    DroID - A comprehensive database of gene and protein interactions.
    DRSC - Results frm RNAi screens
    Developmental Studies Hybridoma Bank - Monoclonal antibodies for use in research
    FLIGHT - Cell culture data for RNAi and other high-throughput technologies
    FlyAtlas - Adult expression by tissue, using Affymetrix Dros2 array
    FlyCyc Genes - Genes from a BioCyc PGDB for Dmel
    Interactive Fly - A cyberspace guide to Drosophila development and metazoan evolution
    InterologFinder - Protein-protein interactions (PPI) from both known and predicted PPI data sets.
    MIST (genetic) - An integrated Molecular Interaction Database
    MIST (protein-protein) - An integrated Molecular Interaction Database
    Synonyms and Secondary IDs (31)
    Reported As
    Symbol Synonym
    22C10
    (Vieillard et al., 2015, Tevy et al., 2014, Bharadwaj et al., 2013, Sato and Shibuya, 2013, Yang et al., 2013, Bolkan et al., 2012, Newton et al., 2012, Patel et al., 2012, Stewart et al., 2012, Belacortu et al., 2011, Berzsenyi et al., 2011, Besson et al., 2011, Keene et al., 2011, Lee et al., 2011, Matsubara et al., 2011, Mukherjee et al., 2011, Navarro et al., 2011, Nguyen et al., 2011, Pandey et al., 2011, Quijano et al., 2011, Schmidt et al., 2011, Sprecher et al., 2011, Wang et al., 2011, Xin et al., 2011, Yamasaki et al., 2011, Zhang et al., 2011, Zhu and Bhat, 2011, Dutta et al., 2010, Figeac et al., 2010, Herr et al., 2010, Klein et al., 2010, Lee et al., 2010, Sato et al., 2010, Yamamoto-Hino et al., 2010, zur Lage and Jarman, 2010, Ahantarig et al., 2009, Chang and Min, 2009, Górska-Andrzejak et al., 2009, Liu et al., 2009, Rand et al., 2009, Sehadova et al., 2009, Udolph et al., 2009, Buch et al., 2008, Crozatier and Vincent, 2008, Erclik et al., 2008, Guntur and Lundell, 2008, Kain et al., 2008, Le Gall et al., 2008, Li-Kroeger et al., 2008, Ostrowski et al., 2008, Schneider and Baumgartner, 2008, Sokol et al., 2008, Taylor and Adler, 2008, von Hilchen et al., 2008, Zou et al., 2008, Bader et al., 2007, Beramendi et al., 2007, Bhat, 2007, Chu-LaGraff et al., 2007, Cornbrooks et al., 2007, Fernandes and Krishan, 2007, Fischler et al., 2007, Grillenzoni et al., 2007, Kim et al., 2007, Liu et al., 2007, Llorens et al., 2007, Mehnert et al., 2007, Orian et al., 2007, Rajendra et al., 2007, Ratnaparkhi and Zinn, 2007, Sevrioukov et al., 2007, Sterling et al., 2007, Acar et al., 2006, Ataman, 2006, Billeter et al., 2006, Chang et al., 2006, Hiramoto and Hiromi, 2006, Holohan et al., 2006, Kamikouchi et al., 2006, Kopytova et al., 2006, Lehmann et al., 2006, Park et al., 2006, Pereira et al., 2006, Sanchez, 2006, Sanchez et al., 2006, Sengupta and Lakhotia, 2006, Singh et al., 2006, Sweeney et al., 2006, Wheeler et al., 2006, Yamamoto, 2006, Ashley et al., 2005, Beronja et al., 2005, Bessa and Casares, 2005, Bhalerao et al., 2005, Bhat, 2005, Coulson et al., 2005, Davis et al., 2005, Dulcis et al., 2005, Dutta et al., 2005, Escudero et al., 2005, Hoehne et al., 2005, Kristiansen et al., 2005, Layalle et al., 2005, Lee et al., 2005, Melcher and Pankratz, 2005, Merianda et al., 2005, Mizutani et al., 2005, Monier et al., 2005, Read et al., 2005, Rogers et al., 2005, Sanchez-Soriano et al., 2005, Schubiger et al., 2005, Singh et al., 2005, Usui-Ishihara and Simpson, 2005, Verstreken et al., 2005, Wildonger and Mann, 2005, Yano et al., 2005, Andrenacci et al., 2004, Beck et al., 2004, Domingos et al., 2004, Gong et al., 2004, Grabbe et al., 2004, Hebbar and Fernandes, 2004, Islam et al., 2004, Kinrade and Hidalgo, 2004, Koh et al., 2004, Langlais et al., 2004, Mace and Tugores, 2004, Mellerick and Liu, 2004, Niwa et al., 2004, Pielage et al., 2004, Powell et al., 2004, Read et al., 2004, zur Lage et al., 2004, Artero et al., 2003, Fujioka et al., 2003, Grueber et al., 2003, Han et al., 2003, Inbal et al., 2003, Koelzer and Klein, 2003, McDonald et al., 2003, Michaud and Tanguay, 2003, O'Connor-Giles and Skeath, 2003, Reim et al., 2003, Schenck et al., 2003, Sepp and Auld, 2003, Shandala et al., 2003, Singh and Choi, 2003, Villa-Cuesta et al., 2003, Weng et al., 2003, With et al., 2003, Yamada et al., 2003, Yang et al., 2003, Dubruille et al., 2002, Dumstrei et al., 2002, Eaton et al., 2002, Goberdhan and Wilson, 2002, Hardiman et al., 2002, Jhaveri and Rodrigues, 2002, Kambris et al., 2002, Marques et al., 2002, Mellerick and Modica, 2002, Moore et al., 2002, Ozon et al., 2002, Packard et al., 2002, Rusten et al., 2002, Schenkel et al., 2002, Schmid et al., 2002, Song et al., 2002, Song et al., 2002, Soustelle et al., 2002, Sweeney et al., 2002, Tekotte et al., 2002, Terman et al., 2002, Uhler et al., 2002, Umesono et al., 2002, Wang et al., 2002, Xu et al., 2002, Adachi et al., 2001, Alonso et al., 2001, Badenhorst, 2001, Ben-Yaacov et al., 2001, Bulgheresi et al., 2001, Inbal et al., 2001, Jones, 2001, Kammermeier et al., 2001, Kataoka et al., 2001, Koizumi et al., 2001, Kumar et al., 2001, Mehta and Bhat, 2001, Mohtashami et al., 2001, Murawsky et al., 2001, Plaza et al., 2001, Quinn et al., 2001, Ramain et al., 2001, Rusten et al., 2001, Schimmelpfeng et al., 2001, Sepp et al., 2001, Vandaele et al., 2001, Aguilera et al., 2000, Bhat et al., 2000, Bour et al., 2000, Brown and Castelli-Gair Hombria, 2000, Chen and Rebay, 2000, Connell-Crowley, 2000, Eberl et al., 2000, Geng et al., 2000, Hiramoto et al., 2000, Hoyle et al., 2000, Ishimoto et al., 2000, Kuang et al., 2000, Kurant and Salzberg, 2000, Lai et al., 2000, Nolo et al., 2000, Quinn et al., 2000, Schmucker et al., 2000, Schubiger and Truman, 2000, Usui-Ishihara et al., 2000, White and Jarman, 2000, Yeh et al., 2000, Ashraf et al., 1999, Auld, 1999, Byars et al., 1999, Gao et al., 1999, Helms et al., 1999, Irion and Leptin, 1999, Justice et al., 1999, Lear et al., 1999, Lilly et al., 1999, Madden et al., 1999, Lundell et al., 1996)
    22C10/FUTSCH
    CG14772
    Futsch
    (Tang et al., 2020, Kim et al., 2019, Russo and DiAntonio, 2019, Ma et al., 2017, Zhang et al., 2017, Jin et al., 2016, Langston et al., 2016, Stephan et al., 2015, Bulat et al., 2014, Ciglar et al., 2014, Jepson et al., 2014, Mao et al., 2014, Roy and Jackson, 2014, Cvetkovska et al., 2013, Diaper et al., 2013, Duncan et al., 2013, Eisman and Kaufman, 2013, Enneking et al., 2013, Forrest et al., 2013, Hopkins, 2013, Klinedinst et al., 2013, Lu et al., 2013, Weavers and Skaer, 2013, Xiong et al., 2013, Coffee et al., 2012, Gistelinck et al., 2012, Lloyd et al., 2012, Mosca et al., 2012, O'Sullivan et al., 2012, Pradhan et al., 2012, Romano et al., 2012, Ruggiero et al., 2012, Tsai et al., 2012, Lee et al., 2011, Miśkiewicz et al., 2011, Cheng et al., 2010, Du et al., 2010, Ellis et al., 2010, Klein et al., 2010, Lin et al., 2010, Melicharek et al., 2010, Nagai et al., 2010, Schulte et al., 2010, Jin et al., 2009, Lim and Kraut, 2009, Lin et al., 2009, Massaro et al., 2009, Palgi et al., 2009, Siebert et al., 2009, Simon et al., 2009, Viquez et al., 2009, Albornoz et al., 2008, Bachmann et al., 2008, Bennett et al., 2008, Lee et al., 2008, Nishimura et al., 2008, Pawson et al., 2008, Ratnaparkhi et al., 2008, Stork et al., 2008, von Hilchen et al., 2008, Wheeler et al., 2008, Besse et al., 2007, Jinushi-Nakao et al., 2007, Kracklauer et al., 2007, Mehnert et al., 2007, Orgogozo et al., 2007, Sharma and Nirenberg, 2007, Wang et al., 2007, Johnson et al., 2006, Strigini et al., 2006, Elliott et al., 2005, Hoehne et al., 2005, Forni et al., 2004, Gao and Bogert, 2003)
    futsch
    (Kankel et al., 2020, McNeill et al., 2020, Vargas et al., 2020, De Graeve et al., 2019, Hartenstein et al., 2019, Sears et al., 2019, Stratmann et al., 2019, Ueoka et al., 2019, Ariss et al., 2018, Brazill et al., 2018, Migh et al., 2018, Yan et al., 2018, Bienkowski et al., 2017, Dinges et al., 2017, Herzmann et al., 2017, Jenkins et al., 2017, Vita and Broadie, 2017, Vonhoff and Keshishian, 2017, Burnouf et al., 2016, Cavolo et al., 2016, Gene Disruption Project members, 2016-, Lycette et al., 2016, Romano et al., 2016, Ball et al., 2015, Izutsu et al., 2015, Sugie et al., 2015, Won et al., 2015, Yalgin et al., 2015, Ashwal-Fluss et al., 2014, Bolkan and Kretzschmar, 2014, Ciglar et al., 2014, Coyne et al., 2014, McDermott et al., 2014, Mukherjee et al., 2014, Sanhueza et al., 2014, Vernes, 2014, Wong et al., 2014, Iyer et al., 2013, Kwon et al., 2013, Nahm et al., 2013, Sen et al., 2013, Yin et al., 2013, Boulanger et al., 2012, Gistelinck et al., 2012, Hazelett et al., 2012, Kallijärvi et al., 2012, Kim et al., 2012, Liu et al., 2012, Nechipurenko and Broihier, 2012, Nfonsam et al., 2012, Romano et al., 2012, Ryan et al., 2012, Senthilan et al., 2012, Stewart et al., 2012, Wentzell et al., 2012, Abruzzi et al., 2011, Cachero et al., 2011, Freeman et al., 2011, Friedman et al., 2011, Godena et al., 2011, Graf et al., 2011, Koon et al., 2011, Lawlor et al., 2011, Pandey et al., 2011, Sarthi and Elefant, 2011, Tian et al., 2011, Lee et al., 2010, Wasbrough et al., 2010, Kissler et al., 2009, Kurshan et al., 2009, Sanyal, 2009, Chang et al., 2008, Koch et al., 2008, Miech et al., 2008, Nishimura et al., 2008, Ostrowski et al., 2008, Pielage et al., 2008, Zou et al., 2008, Bao et al., 2007, Bossing and Brand, 2006, Denman, 2006, Gogel et al., 2006, Ko et al., 2006, Monzo et al., 2006, Schimmelpfeng et al., 2006, Sweeney et al., 2006, Viquez et al., 2006, Wheeler et al., 2006, Ashley et al., 2005, Bettencourt da Cruz et al., 2005, Davis et al., 2005, Marques, 2005, Wiggin et al., 2005, Franco et al., 2004)
    map1b
    Secondary FlyBase IDs
    • FBgn0015390
    • FBgn0029577
    • FBgn0085416
    • FBgn0029578
    • FBgn0025392
    • FBgn0243483
    Datasets (0)
    Study focus (0)
    Experimental Role
    Project
    Project Type
    Title
    References (608)