Allele Rnor\CD2^{Scer\UAS.cDBa}

General Information
Symbol	Rnor\CD2^{Scer\UAS.cDBa}	Species	R. norvegicus
Name	Saccharomyces cerevisiae UAS construct a of Dunin-Borkowski	FlyBase ID	FBal0042453
Feature type	allele	Created / Updated	2006-08-20/2006-08-20
Associated gene	Rnor\CD2

Allele class
Mutagen	in vitro construct \| regulatory fusion
Nature of the Allele
Allele class
Mutagen	in vitro construct \| regulatory fusion (Dunin-Borkowski and Brown, 1995)
Mapped Features and Mutations
Type Symbol & Location Additional Notes References
Associated Sequence Data
DDBJ / EMBL / GenBank	DNA sequence Protein sequence Name

UniProtKB/Swiss-Prot
UniProtKB/TrEMBL

Progenitor genotype
Nature of the lesion	Statement Reference Construct: Expression of a ClaI XhoI fragment of Rnor\CD2 is influenced by KpnI CelII fragment carrying UAS Scer\GAL4 dependent promoter sequences and a SalI SpeI fragment containing the polyadenylation sequences of Hsp70. (Dunin-Borkowski and Brown, 1995)
Assay mode	In transgenic Drosophila (allele of foreign species in genome of drosophilid) (Dunin-Borkowski and Brown, 1995)
Carried in construct	P{UAS-CD2} (Grzeschik and Knust, 2005, Dunin-Borkowski and Brown, 1995, San Martin and Bate, 2001, Hummel et al., 2000, Martin-Bermudo et al., 1999, Sato et al., 1999, Galletta et al., 2004, Bachmann and Knust, 1998, Lecuit et al., 1996, Brand and Dormand, 1995, Scholz et al., 1997, Seugnet et al., 1997, Scholz et al., 1997, Huelsmann et al., 2006, Keene et al., 2006)
Cytology
Phenotypic Data
Phenotypic Class

Phenotype Manifest In

Detailed Description
	Statement Reference
Interactions
Phenotypic Class
Phenotype Manifest In
Additional Comments
Genetic Interactions
Statement Reference
Xenogenetic Interactions
Statement Reference
Complementation & Rescue Data
Comments
Stocks ( 3 )
Bloomington	1373 w^; P{UAS-CD2}6 1284 w^; P{UAS-CD2}5/CyO 4412 y¹ w^*; P{AyGAL4}25 P{UAS-CD2}5/CyO, y⁺
Notes on Origin
Discoverer

Synonyms & Secondary IDs ( 3 )
Reported As
Symbol Synonym	CD2^UAS.cDBa Rnor\CD2^{Scer\UAS.cDBa}
Name Synonym	Saccharomyces cerevisiae UAS construct a of Dunin-Borkowski (Dunin-Borkowski and Brown, 1995)
Secondary FlyBase IDs

References ( 16 )
Research paper	Huelsmann et al., 2006, Development 133(15): 2915--2924 The PDZ-GEF dizzy regulates cell shape of migrating macrophages via Rap1 and integrins in the Drosophila embryo. [FBrf0192108] Keene et al., 2006, Curr. Biol. 16(15): 1524--1530 Drosophila dorsal paired medial neurons provide a general mechanism for memory consolidation. [FBrf0193609] Grzeschik and Knust, 2005, Development 132(9): 2035--2045 IrreC/rst-mediated cell sorting during Drosophila pupal eye development depends on proper localisation of DE-cadherin. [FBrf0187462] Galletta et al., 2004, Mech. Dev. 121(12): 1455--1468 SNS: adhesive properties, localization requirements and ectodomain dependence in S2 cells and embryonic myoblasts. [FBrf0180484] San Martin and Bate, 2001, Development 128(2): 233--242 Hindgut visceral mesoderm requires an ectodermal template for normal development in Drosophila. [FBrf0132294] Hummel et al., 2000, Neuron 26(2): 357--370 Drosophila Futsch/22C10 is a MAP1B-like protein required for dendritic and axonal development. [FBrf0128497] Martin-Bermudo et al., 1999, Development 126(22): 5161--5169 Migration of the Drosophila primordial midgut cells requires coordination of diverse PS integrin functions. [FBrf0111966] Sato et al., 1999, Development 126(7): 1457--1466 Bar homeobox genes are latitudinal prepattern genes in the developing Drosophila notum whose expression is regulated by the concerted functions of decapentaplegic and wingless. [FBrf0108268] Bachmann and Knust, 1998, Mech. Dev. 76(1-2): 67--78 Positive and negative control of serrate expression during early development of the Drosophila wing. [FBrf0105192] Scholz et al., 1997, Mech. Dev. 62(1): 79--91 Control of midline glia development in the embryonic Drosophila CNS. [FBrf0093209] Seugnet et al., 1997, Development 124(10): 2015--2025 Transcriptional regulation of Notch and Delta: requirement for neuroblast segregation in Drosophila. [FBrf0093711] Lecuit et al., 1996, Nature 381(6581): 387--393 Two distinct mechanisms for long-range patterning by decapentaplegic in the Drosophila wing. [FBrf0087557] Martin-Bermudo and Brown, 1996, J. Cell Biol. 134(1): 217--226 Intracellular signals direct integrin localization to sites of function in embryonic muscles. [FBrf0089738] Dunin-Borkowski and Brown, 1995, Dev. Biol. 168(2): 689--693 Mammalian CD2 is an effective heterologous marker of the cell surface in Drosophila. [FBrf0080000]
Review	Brand and Dormand, 1995, Curr. Opin. Neurobiol. 5(5): 572--578 The GAL4 system as a tool for unravelling the mysteries of the Drosophila nervous system. [FBrf0084801]
Erratum	Scholz et al., 1997, Mech. Dev. 64(1-2): 137--151 Control of midline glia development in the embryonic Drosophila CNS. [FBrf0096245]

Allele Rnor\CD2Scer\UAS.cDBa

Allele Rnor\CD2^{Scer\UAS.cDBa}