A Database of Drosophila Genes & Genomes

FB2013_03, released May 7th, 2013
 

Recombinant construct P{UAS-wg.G}

General Information
Symbol P{UAS-wg.G} FlyBase ID FBtp0009301
Feature type transgenic_transposon
Size Expression data
Associated insertions 0 available
Molecular map
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Description
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FB2013_03
FB2013_02
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hide Description & Uses
Species synthetic construct
Location-dependent
role
Description
CV term
Qualifiers & info
Reference
transposon
P-element
(Klein and Martinez Arias, 1998)
Uses
CV term
Qualifiers & info
Reference
binary system (targeted)
wg
(Klein and Martinez Arias, 1998)
characterization
wg
(Klein and Martinez Arias, 1998)
Cloning Sites
Location
Restriction sites
Reference
hide Sequence Data
Sequence (FB)
Associated Sequence Data
DDBJ /
EMBL /
GenBank
DNA sequence
Extent
 
hide Segments & Size
Total Size
Left end
Right end
Segments
Number
Orientation
Symbol
Reference
hide Features
CV term
Qualifiers & info
Reference
binary
component
(Klein and Martinez Arias, 1998)
hide Component Alleles
Allele wgScer\UAS.cGa
Reference(s) (Brennan et al., 1999, Kaltschmidt et al., 2002, Cox et al., 2005, Whitworth and Russell, 2003, Kolzer et al., 2003, Klein and Martinez Arias, 1998, Baena-Lopez et al., 2003, Halfon et al., 2000, Russell, 2000, San Martin and Bate, 2001, Brennan et al., 1999, Klein and Martinez Arias, 1999, Cox and Baylies, 2005, Morel and Arias, 2004)
Molecular data
Construct: wg is cloned into the pUAST vector.
(Klein and Martinez Arias, 1998)
Phenotypic class
visible, with Scer\GAL4sd-SG29.1
(Brennan et al., 1999)
Phenotype manifest in
abdominal ventral acute muscle 1 founder cell | supernumerary, with Scer\GAL4Mef2.PR
(Cox and Baylies, 2005)
abdominal ventral acute muscle 1 founder cell | supernumerary, with Scer\GAL4twi.PB
(Cox and Baylies, 2005)
abdominal ventral acute muscle 2 founder cell | supernumerary, with Scer\GAL4Mef2.PR
(Cox and Baylies, 2005)
abdominal ventral acute muscle 2 founder cell | supernumerary, with Scer\GAL4twi.PB
(Cox and Baylies, 2005)
abdominal ventral acute muscle 3 founder cell | supernumerary, with Scer\GAL4Mef2.PR
(Cox and Baylies, 2005)
abdominal ventral acute muscle 3 founder cell | supernumerary, with Scer\GAL4twi.PB
(Cox and Baylies, 2005)
dorsal mesothoracic disc & peripodial epithelium | somatic clone, with Scer\GAL4αTub84B.PL
(Baena-Lopez et al., 2003)
dorsal mesothoracic disc & peripodial epithelium | somatic clone | cell non-autonomous, with Scer\GAL4αTub84B.PL
(Baena-Lopez et al., 2003)
macrochaeta, with Scer\GAL4dpp.blk1
(Whitworth and Russell, 2003)
scutellum, with Scer\GAL4dpp.blk1
(Whitworth and Russell, 2003)
sensory mother cell & dorsal mesothoracic disc | ectopic, with Scer\GAL4sd-SG29.1
(Brennan et al., 1999)
wing, with Scer\GAL4sd-SG29.1
(Brennan et al., 1999)
wing | anterior compartment, with Scer\GAL4sd-SG29.1
(Brennan et al., 1999)
wing | ectopic | proximal, with Scer\GAL4dpp.blk1
(Whitworth and Russell, 2003)
wing | proximal, with Scer\GAL4zfh2-MS209
(Russell, 2000)
wing disc, with Scer\GAL4dpp.blk1
(Klein and Martinez Arias, 1999, Brennan et al., 1999)
wing disc, with Scer\GAL4sd-SG29.1
(Brennan et al., 1999)
wing disc, with Scer\GAL4zfh2-MS209
(Russell, 2000)
wing hinge | precursor, with Scer\GAL4sd-SG29.1
(Brennan et al., 1999)
wing hinge primordium | ectopic | larval stage | somatic clone, with Scer\GAL4αTub84B.PL
(Baena-Lopez et al., 2003)
wing margin bristle | ectopic, with Scer\GAL4sd-SG29.1
(Brennan et al., 1999)
wing sclerite | ectopic, with Scer\GAL4dpp.blk1
(Whitworth and Russell, 2003)
Other information
hide Expression Data
Reporter Expression
Additional Information
Statement
Reference
Marker for
Reflects expression of
hide Progenitors & Descendants
progenitor(s)
descendant(s)
hide Comments
hide Stocks Listed in FlyBase ( 0 )
hide External Crossreferences & Linkouts
Other Crossreferences
Linkouts
hide Synonyms & Secondary IDs
Reported As
Symbol Synonym
P{UAS-wg.G}
(FlyBase, 1996-)
UAS-wg
(Kolzer et al., 2003, Whitworth and Russell, 2003, Halfon et al., 2000)
UASwg
(Brennan et al., 1999, Brennan et al., 1999)
UASwgE1
(Kaltschmidt et al., 2002, San Martin and Bate, 2001)
UAS-wgE
(Cox et al., 2005, Cox and Baylies, 2005)
UAS WgE1
(Morel and Arias, 2004)
Secondary FlyBase IDs
hide References ( 14 )
Research paper
Cox and Baylies, 2005, Development 132(4): 713--724
Specification of individual Slouch muscle progenitors in Drosophila requires sequential Wingless signaling. [FBrf0183937]
Cox et al., 2005, Dev. Biol. 287(2): 403--415
Delivery of wingless to the ventral mesoderm by the developing central nervous system ensures proper patterning of individual slouch-positive muscle progenitors. [FBrf0190105]
Morel and Arias, 2004, Development 131(14): 3273--3283
Armadillo/{beta}-catenin-dependent Wnt signalling is required for the polarisation of epidermal cells during dorsal closure in Drosophila. [FBrf0179352]
Baena-Lopez et al., 2003, Development 130(26): 6497--6506
Wg and Egfr signalling antagonise the development of the peripodial epithelium in Drosophila wing discs. [FBrf0167522]
Kolzer et al., 2003, Development 130(17): 4135--4147
defective proventriculus is required for pattern formation along the proximodistal axis, cell proliferation and formation of veins in the Drosophila wing. [FBrf0160689]
Whitworth and Russell, 2003, Dev. Biol. 254(2): 277--288
Temporally dynamic response to Wingless directs the sequential elaboration of the proximodistal axis of the Drosophila wing. [FBrf0157154]
Kaltschmidt et al., 2002, Nat. Cell Biol. 4(12): 937--944
Planar polarity and actin dynamics in the epidermis of Drosophila. [FBrf0155993]
San Martin and Bate, 2001, Development 128(2): 233--242
Hindgut visceral mesoderm requires an ectodermal template for normal development in Drosophila. [FBrf0132294]
Halfon et al., 2000, Cell 103(1): 63--74
Ras pathway specificity is determined by the integration of multiple signal-activated and tissue-restricted transcription factors. [FBrf0131308]
Russell, 2000, Mol. Gen. Genet. 263(4): 690--701
The Drosophila dominant wing mutation Dichaete results from ectopic expression of a Sox-domain gene. [FBrf0128629]
Brennan et al., 1999, Dev. Biol. 216(1): 210--229
Wingless modulates the effects of dominant negative Notch molecules in the developing wing of Drosophila. [FBrf0122979]
Brennan et al., 1999, Curr. Biol. 9(13): 707--710
Repression by notch is required before wingless signalling during muscle progenitor cell development in Drosophila. [FBrf0108630]
Klein and Martinez Arias, 1999, Development 126(5): 913--925
The vestigial gene product provides a molecular context for the interpretation of signals during the development of the wing in Drosophila. [FBrf0106766]
Klein and Martinez Arias, 1998, Dev. Biol. 194(2): 196--212
Different spatial and temporal interactions between Notch, wingless, and vestigial specify proximal and distal pattern elements of the wing in Drosophila. [FBrf0101933]