Allele Mmus\Cd8a^{Scer\UAS.T:Avic\GFP}

General Information
Symbol	Mmus\Cd8a^{Scer\UAS.T:Avic\GFP}	Species	M. musculus
Name		FlyBase ID	FBal0097215
Feature type	allele	Created / Updated	2006-08-20/2006-08-20
Associated gene	Mmus\Cd8a

Allele class
Mutagen	in vitro construct \| regulatory fusion, in vitro construct \| coding region fusion
Nature of the Allele
Allele class
Mutagen	in vitro construct \| regulatory fusion (Lee and Luo, 1999) in vitro construct \| coding region fusion (Lee and Luo, 1999)
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: Coding region for Mmus\Cd8a is fused in frame, at its 3' end to Avic\GFP (F64L, S65T), and expression of the fusion protein is governed by Scer\UAS regulatory sequences. (Lee and Luo, 1999)
Assay mode	In transgenic Drosophila (allele of foreign species in genome of drosophilid) (Nern et al., 2005, Lee and Luo, 1999)
Carried in construct	P{UAS-mCD8::GFP.L} (Denholm et al., 2005, Renault et al., 2004, Wang et al., 2004, Pielage et al., 2006, Millard et al., 2007, Bianco et al., 2007, Fei et al., 2002, Ditch et al., 2005, Apitz et al., 2005, Benton et al., 2007, Murakami et al., 2007, Sanchez-Soriano and Prokop, 2005, Orihara-Ono et al., 2005, Ramaekers et al., 2005, Rawson et al., 2005, Chen et al., 2005, Tsuda et al., 2005, Fishilevich and Vosshall, 2005, Bello et al., 2003, Hummel et al., 2003, Murthy et al., 2003, Van Doren et al., 2003, Hsiung et al., 2005, Maurel-Zaffran et al., 2001, Grueber et al., 2002, Fishilevich et al., 2005, Mirth et al., 2005, Fan et al., 2005, Nern et al., 2005, Rodriguez Moncalvo and Campos, 2005, Sanchez-Soriano et al., 2005, Sykes and Condron, 2005, Lee et al., 1999, Brown et al., 2006, Kueppers et al., 2003, Monier et al., 2005, Zheng et al., 2006, Scott et al., 2003, Sokol and Ambros, 2005, Wang et al., 2002, Jefferis et al., 2001, Sugimura et al., 2003, Hewes et al., 2003, Wong et al., 2002, Marin et al., 2002, Cole et al., 2005, Cohen et al., 2002, Wang and Struhl, 2005, Pascual and Preat, 2001, Landgraf et al., 2003, Williams and Truman, 2005, Subramanian et al., 2003, Jefferis et al., 2002, Leyssen et al., 2005, Watts et al., 2003, Manoli et al., 2005, Kimura et al., 2005, Li and Gao, 2003, Malpel et al., 2002, Kuo et al., 2005, Fabrizio et al., 2003, Masuda-Nakagawa et al., 2005, Kurusu et al., 2002, Inoshita and Tanimura, 2006, Goldstein, 2005, Billuart et al., 2001, Dobritsa et al., 2003, Cenci and Gould, 2005, Kim et al., 2006, Friedman and Perrimon, 2006, Mandal et al., 2007, Krzemien et al., 2007, Ebacher et al., 2007, Nicolas and Preat, 2005, Zhu et al., 2006, Kobayashi et al., 2006, Behan et al., 2002, Reuter et al., 2003, Ang et al., 2003, Komiyama et al., 2003, Rulifson et al., 2002, Hrdlicka et al., 2002, Presente et al., 2002, Moore et al., 2002, Duffy, 2002, Sweeney et al., 2002, Martinez-Campos et al., 2004, Williams and Shepherd, 2002, Lohr et al., 2002, Geisbrecht and Montell, 2004, Rulifson et al., 2002, Ng et al., 2002, Baker et al., 2004, Comas et al., 2004, Alvarado et al., 2004, Morales et al., 2002, Lee and Park, 2004, Nicolai et al., 2003, Zhu and Luo, 2004, Hummel and Zipursky, 2004, Rolls et al., 2003, Kango-Singh et al., 2002, Neves et al., 2004, Dubruille et al., 2002, Ponzielli et al., 2002, Moore et al., 2004, Brumby and Richardson, 2003, Gendre et al., 2004, Dearborn and Kunes, 2004, Lee et al., 2003, Canamasas et al., 2003, Xu et al., 2002, Kuppers-Munther et al., 2004, Acebes et al., 2004, Rival et al., 2004, Awasaki and Ito, 2004, Watts et al., 2004, Boquet et al., 2000, Tanaka et al., 2004, Jefferis et al., 2004, Ye et al., 2004, Voas and Rebay, 2003, Chyb et al., 2003, De Joussineau et al., 2003, Wilson et al., 2004, Kiger et al., 2000, Scott et al., 2001, Lee et al., 2000, Williams et al., 2000, Martini et al., 2000, Tonning et al., 2005, Bai et al., 2000, Sung and Robinow, 2000, Lee et al., 2000, Luo et al., 1999, Lee and Luo, 1999, Lee et al., 2005, Rosenzweig et al., 2005, Marin et al., 2005, Ting et al., 2005, Sinenko et al., 2004, Kim and Rulifson, 2004, Rival et al., 2004, Pascual et al., 2005, Taillebourg et al., 2005, Xu et al., 2004, Liu et al., 2000, Kuzin et al., 2005, Kuzin et al., 2005, Carhan et al., 2004, Davidson et al., 2005, Thorne et al., 2004, Yang and Kunes, 2004, Ng and Luo, 2004, Larsson et al., 2004, Lee and Treisman, 2004, Tayler et al., 2004, Adam and Montell, 2004, Truman et al., 2004, Shandala et al., 2004, Apitz et al., 2004, Pan et al., 2004, Wojtowicz et al., 2004, Emoto et al., 2004, Hitier et al., 2001, Winter et al., 2001, Fujioka et al., 2003, Eldar et al., 2003, Somers and Saint, 2003, Han et al., 2003, Sarpal et al., 2003, Peng et al., 2003, Justice et al., 2003, Schubiger et al., 2003, Grueber et al., 2003, Jenkins et al., 2003, Rawson, 2005, Long et al., 2006, Pitman et al., 2006, Choe et al., 2006, Choi et al., 2006, Parker, 2006, Bello et al., 2006, Bernard et al., 2006, Shang et al., 2007, McDonald et al., 2006, Jones et al., 2006, Khodosh et al., 2006, Whited et al., 2007, Yu et al., 2005, Betschinger et al., 2006, Chen et al., 2006, Mathews et al., 2006, Wang et al., 2006, Jafar-Nejad et al., 2006, Kim et al., 2006, Lalevee et al., 2006, Keene et al., 2006, Soller et al., 2006, Chotard et al., 2005, Lee et al., 2006, Mahr and Aberle, 2006, Komiyama, 2007, Ashraf et al., 2006, Ang et al., 2006, Parrish et al., 2006, Gregory et al., 2007, Berdnik et al., 2006, Komiyama et al., 2004, Goldman et al., 2005, Kreher et al., 2005, Arya et al., 2006, Basto et al., 2006, Augustin et al., 2007, Wang and Struhl, 2004, Sweeney et al., 2006, Bazigoui et al., 2007, Boyle et al., 2006, Ward et al., 2006, Girard et al., 2006, Srahna et al., 2006, Li et al., 2006, Benton et al., 2006, Fayyazuddin et al., 2006, D'Alterio et al., 2005, Larsen et al., 2006, Kurtovic et al., 2007, Hyun et al., 2006, Thomas and van Meyel, 2007, Bello et al., 2007, Williams and Truman, 2004, Jefferis et al., 2007, Jones et al., 2007, Lin et al., 2007, Zhu et al., 2005, Mehren and Griffith, 2004, Sugimura et al., 2004, Li et al., 2004, Honjo and Furukubo-Tokunaga, 2005, Wilson and Laurent, 2005, Roegiers et al., 2005, Assa-Kunik et al., 2007, Benton et al., 2007, Liu et al., 2007, Grieder et al., 2007, Friggi-Grelin et al., 2006, Schnorrer et al., 2007)
Tagged with	T:Avic\GFP (Lee and Luo, 1999, Lee et al., 1999, Luo et al., 1999, Lee et al., 2000, Sung and Robinow, 2000, Martini et al., 2000, Boquet et al., 2000, Kiger et al., 2000, Liu et al., 2000, Williams et al., 2000, Bai et al., 2000, Lee et al., 2000, Scott et al., 2001, Winter et al., 2001, Hitier et al., 2001, Billuart et al., 2001, Maurel-Zaffran et al., 2001, Pascual and Preat, 2001, Jefferis et al., 2001, Jefferis et al., 2002, Malpel et al., 2002, Kurusu et al., 2002, Wang et al., 2002, Wong et al., 2002, Marin et al., 2002, Cohen et al., 2002, Sweeney et al., 2002, Grueber et al., 2002, Morales et al., 2002, Rulifson et al., 2002, Ng et al., 2002, Williams and Shepherd, 2002, Rulifson et al., 2002, Behan et al., 2002, Xu et al., 2002, Ponzielli et al., 2002, Dubruille et al., 2002, Kango-Singh et al., 2002, Lohr et al., 2002, Moore et al., 2002, Duffy, 2002, Presente et al., 2002, Hrdlicka et al., 2002, Komiyama et al., 2003, Reuter et al., 2003, Ang et al., 2003, Bello et al., 2003, Hummel et al., 2003, Murthy et al., 2003, Grueber et al., 2003, Justice et al., 2003, Somers and Saint, 2003, Van Doren et al., 2003, Kueppers et al., 2003, Scott et al., 2003, Sugimura et al., 2003, Dobritsa et al., 2003, Fabrizio et al., 2003, Landgraf et al., 2003, Li and Gao, 2003, Subramanian et al., 2003, Watts et al., 2003, Jenkins et al., 2003, Schubiger et al., 2003, Peng et al., 2003, Han et al., 2003, Sarpal et al., 2003, Eldar et al., 2003, Fujioka et al., 2003, Lee et al., 2003, Jefferis et al., 2004, Gendre et al., 2004, Brumby and Richardson, 2003, Voas and Rebay, 2003, Rolls et al., 2003, Zelhof and Hardy, 2004, Nicolai et al., 2003, De Joussineau et al., 2003, Chyb et al., 2003, Wilson et al., 2004, Canamasas et al., 2003, Ye et al., 2004, Tanaka et al., 2004, Rival et al., 2004, Awasaki and Ito, 2004, Watts et al., 2004, Acebes et al., 2004, Kuppers-Munther et al., 2004, Dearborn and Kunes, 2004, Moore et al., 2004, Neves et al., 2004, Zhu and Luo, 2004, Hummel and Zipursky, 2004, Lee and Park, 2004, Alvarado et al., 2004, Comas et al., 2004, Baker et al., 2004, Geisbrecht and Montell, 2004, Martinez-Campos et al., 2004, Thorne et al., 2004, Xu et al., 2004, Rival et al., 2004, Kim and Rulifson, 2004, Sinenko et al., 2004, Wojtowicz et al., 2004, Emoto et al., 2004, Sykes et al., 2004, Pan et al., 2004, Apitz et al., 2004, Shandala et al., 2004, Truman et al., 2004, Tayler et al., 2004, Adam and Montell, 2004, Lee and Treisman, 2004, Larsson et al., 2004, Ng and Luo, 2004, Yang and Kunes, 2004, Carhan et al., 2004, Davidson et al., 2005, Kuzin et al., 2005, Kuzin et al., 2005, Pascual et al., 2005, Taillebourg et al., 2005, Marin et al., 2005, Ting et al., 2005, Rosenzweig et al., 2005, Lee et al., 2005, Tsuda et al., 2005, Fishilevich and Vosshall, 2005, Ramaekers et al., 2005, Rawson et al., 2005, Chen et al., 2005, Orihara-Ono et al., 2005, Cenci and Gould, 2005, Denholm et al., 2005, Ditch et al., 2005, Wang and Struhl, 2005, Williams and Truman, 2005, Leyssen et al., 2005, Cole et al., 2005, Manoli et al., 2005, Nern et al., 2005, Hsiung et al., 2005, Fishilevich et al., 2005, Mirth et al., 2005, Fan et al., 2005, Rodriguez Moncalvo and Campos, 2005, Sanchez-Soriano et al., 2005, Sykes and Condron, 2005, Brown et al., 2006, Monier et al., 2005, Zheng et al., 2006, Sokol and Ambros, 2005, Kimura et al., 2005, Kuo et al., 2005, Masuda-Nakagawa et al., 2005, Inoshita and Tanimura, 2006, Goldstein, 2005, Rawson, 2005)
Cytology
Phenotypic Data
Phenotypic Class

Phenotype Manifest In

Detailed Description
	Statement Reference Causes no toxicity throughout a cell's life. (Lee and Luo, 1999) Expression of Mmus\Cd8a^{Scer\UAS.T:Avic\GFP} under the control of Scer\GAL4^C96 does not result in any wing defects. Expression of Mmus\Cd8a^{Scer\UAS.T:Avic\GFP} under the control of Scer\GAL4^hs.2sev or Scer\GAL4^GMR.PF does not have any effect on the eye. Animals expressing Mmus\Cd8a^{Scer\UAS.T:Avic\GFP} under the control of Scer\GAL4^pnr-MD237 show wild type bristle formation. (Presente et al., 2002) Expression of Mmus\Cd8a^{Scer\UAS.T:Avic\GFP} under the control of Scer\GAL4^CY2 in the follicle cells does not result in a mutant chorion phenotype. (Alvarado et al., 2004)
Interactions
Phenotypic Class
Phenotype Manifest In
NOT Suppressor of
Statement Reference Mmus\Cd8a^{Scer\UAS.T:Avic\GFP}, Scer\GAL4^slbo.2.6 is a non-suppressor of border follicle cell phenotype of Pvr^DN.Scer\UAS, Scer\GAL4^slbo.2.6 (Geisbrecht and Montell, 2004) Mmus\Cd8a^{Scer\UAS.T:Avic\GFP}/Scer\GAL4^slbo.2.6 is a non-suppressor of border follicle cell phenotype of Rac1^N17.Scer\UAS (Geisbrecht and Montell, 2004)
Additional Comments
Genetic Interactions
Statement Reference
Xenogenetic Interactions
Statement Reference The border follicle cell migration defect seen in egg chambers expressing Pvr^DN.Scer\UAS under the control of Scer\GAL4^slbo.2.6 is not suppressed by coexpression of Mmus\Cd8a^{Scer\UAS.T:Avic\GFP}. The border follicle cell migration defect seen in egg chambers expressing Rac1^N17.Scer\UAS under the control of Scer\GAL4^slbo.2.6 is not suppressed by coexpression of Mmus\Cd8a^{Scer\UAS.T:Avic\GFP}. (Geisbrecht and Montell, 2004)
Complementation & Rescue Data
Comments
Stocks ( 14 )
Bloomington	5137 y¹ w^; P{UAS-mCD8::GFP.L}LL5 7475 w^; P{RN2-GAL4}P, P{UAS-mCD8::GFP.L}LL5 8746 y¹ w^; P{GawB}477, P{UAS-mCD8::GFP.L}LL5 7465 y¹ w^; P{CQ2-GAL4}O, P{UAS-mCD8::GFP.L}LL6 7472 y¹ w^; P{RN2-GAL4}E, P{UAS-mCD8::GFP.L}LL6 8768 y¹ w^; P{GawB}109(2)80, P{UAS-mCD8::GFP.L}LL5 5130 y¹ w^; Pin^Yt/CyO; P{UAS-mCD8::GFP.L}LL6 5136 P{UAS-mCD8::GFP.L}LL4, y¹ w^; Pin^Yt/CyO 6314 P{UAS-mCD8::GFP.L}LL4, y¹ w^* P{GawB}lz^gal4 5139 y¹ w^; P{FRT(w^hs)}G13 P{UAS-mCD8::GFP.L}LL5 5146 P{GawB}elav^C155, P{UAS-mCD8::GFP.L}LL4, P{hsFLP}1, w^ 9913 w^*; P{FRT(w^hs)}G13 P{UAS-mCD8::GFP.L}LL5 wkp¹/CyO
	More stocks available...
Notes on Origin
Discoverer

Synonyms & Secondary IDs ( 3 )
Reported As
Symbol Synonym	Mmus\Cd8a^{Scer\UAS.T:Avic\GFP} Mus\Cd8a^{Scer\UAS.T:Avic\GFP} UAS-mCD8-GFP (Sykes et al., 2004)
Name Synonym
Secondary FlyBase IDs

References ( 251 )

Generate a list of	All references relating to this allele ( 251 )

List References by type	Research paper ( 240 ) Supplementary material ( 8 ) Review ( 2 ) Abstract ( 1 )
Recent research papers ( 66 )
	Assa-Kunik et al., 2007, Development 134(6): 1161--1169 Drosophila follicle cells are patterned by multiple levels of Notch signaling and antagonism between the Notch and JAK/STAT pathways. [FBrf0195377] Augustin et al., 2007, J. Neurosci. 27(1): 111--123 Nonvesicular release of glutamate by glial xCT transporters suppresses glutamate receptor clustering in vivo. [FBrf0194976] Bello et al., 2007, Development 134(6): 1091--1099 Polycomb group genes are required for neural stem cell survival in postembryonic neurogenesis of Drosophila. [FBrf0202325] Benton et al., 2007, Nature 450(7167): 289--293 An essential role for a CD36-related receptor in pheromone detection in Drosophila. [FBrf0202608] Bianco et al., 2007, Nature 448(7151): 362--365 Two distinct modes of guidance signalling during collective migration of border cells. [FBrf0200493] Ebacher et al., 2007, Fly 1(2): 86--94 cut mutant Drosophila auditory organs differentiate abnormally and degenerate. [FBrf0200068] Gregory et al., 2007, Fly 1(1): 13--22 A Drosophila Overexpression Screen for Modifiers of Rho Signalling in Cytokinesis. [FBrf0199094] Grieder et al., 2007, Genetics 175(4): 1707--1718 Misexpression screen in Drosophila melanogaster aiming to reveal novel factors involved in formation of body parts. [FBrf0200458] Jefferis et al., 2007, Cell 128(6): 1187--1203 Comprehensive maps of Drosophila higher olfactory centers: spatially segregated fruit and pheromone representation. [FBrf0203179] Jones et al., 2007, Nature 445(7123): 86--90 Two chemosensory receptors together mediate carbon dioxide detection in Drosophila. [FBrf0194189] Komiyama, 2007, Cell 128(2): 399--410 Graded expression of Semaphorin-1a cell-autonomously directs dendritic targeting of olfactory projection neurons. [FBrf0199080] Krzemien et al., 2007, Nature 446(7133): 325--328 Control of blood cell homeostasis in Drosophila larvae by the posterior signalling centre. [FBrf0194113] Kurtovic et al., 2007, Nature 446(7135): 542--546 A single class of olfactory neurons mediates behavioural responses to a Drosophila sex pheromone. [FBrf0200390] Lin et al., 2007, Cell 128(6): 1205--1217 A map of olfactory representation in the Drosophila mushroom body. [FBrf0201372] Liu et al., 2007, Nature 450(7167): 294--298 Drosophila hygrosensation requires the TRP channels water witch and nanchung. [FBrf0201739] Mandal et al., 2007, Nature 446(7133): 320--324 A Hedgehog- and Antennapedia-dependent niche maintains Drosophila haematopoietic precursors. [FBrf0194088] Millard et al., 2007, Nature 447(7145): 720--724 Dscam2 mediates axonal tiling in the Drosophila visual system. [FBrf0202429] Murakami et al., 2007, Development Suppl.: Focal adhesion kinase controls morphogenesis of the Drosophila optic stalk. [FBrf0193558] Schnorrer et al., 2007, Dev. Cell 12(5): 751--766 The transmembrane protein kon-tiki couples to Dgrip to mediate myotube targeting in Drosophila. [FBrf0200480] Shang et al., 2007, Cell 128(3): 601--612 Excitatory local circuits and their implications for olfactory processing in the fly antennal lobe. [FBrf0192172] Thomas and van Meyel, 2007, Development 134(3): 591--600 The glycosyltransferase Fringe promotes Delta-Notch signaling between neurons and glia, and is required for subtype-specific glial gene expression. [FBrf0192828] Whited et al., 2007, Development 134(1): 43--53 Ptpmeg is required for the proper establishment and maintenance of axon projections in the central brain of Drosophila. [FBrf0195205] Ang et al., 2006, Dev. Biol. 293(1): 178--190 Lim kinase regulates the development of olfactory and neuromuscular synapses. [FBrf0190083] Arya et al., 2006, Genetics 174(1): 125--134 Molecular characterization of teflon, a gene required for meiotic autosome segregation in male Drosophila melanogaster. [FBrf0194210] Ashraf et al., 2006, Cell 124(1): 191--205 Synaptic protein synthesis associated with memory is regulated by the RISC pathway in Drosophila. [FBrf0189896] Basto et al., 2006, Cell 125(4): 1375--1386 Flies without centrioles. [FBrf0193251] Bello et al., 2006, Development 133(14): 2639--2648 The brain tumor gene negatively regulates neural progenitor cell proliferation in the larval central brain of Drosophila. [FBrf0194745] Benton et al., 2006, PLoS Biol. 4(2): e20 Atypical membrane topology and heteromeric function of Drosophila odorant receptors in vivo. [FBrf0192657] Berdnik et al., 2006, J. Neurosci. 26(13): 3367--3376 Wiring stability of the adult Drosophila olfactory circuit after lesion. [FBrf0191041] Bernard et al., 2006, Dev. Biol. 295(1): 164--177 Notch pathway repression by vestigial is required to promote indirect flight muscle differentiation in Drosophila melanogaster. [FBrf0193523] Betschinger et al., 2006, Cell 124(6): 1241--1253 Asymmetric segregation of the tumor suppressor brat regulates self-renewal in Drosophila neural stem cells. [FBrf0189901] Boyle et al., 2006, Development 133(9): 1845--1854 Drosophila Eph receptor guides specific axon branches of mushroom body neurons. [FBrf0190278] Brown et al., 2006, Development 133(2): 275--285 Use of time-lapse imaging and dominant negative receptors to dissect the steroid receptor control of neuronal remodeling in Drosophila. [FBrf0190279] Chen et al., 2006, Cell 125(3): 607--620 The molecular diversity of Dscam is functionally required for neuronal wiring specificity in Drosophila. [FBrf0189904] Choe et al., 2006, Proc. Natl. Acad. Sci. USA 103(31): 11601--11606 Liprin-alpha is required for photoreceptor target selection in Drosophila. [FBrf0195369] Choi et al., 2006, Development 133(11): 2223--2232 Programmed cell death mechanisms of identifiable peptidergic neurons in Drosophila melanogaster. [FBrf0190281] Fayyazuddin et al., 2006, PLoS Biol. 4(3): 420--431 The nicotinic acetylcholine receptor Dalpha7 is required for an escape behavior in Drosophila. [FBrf0191369] Friedman and Perrimon, 2006, Nature 444(7116): 230--234 A functional RNAi screen for regulators of receptor tyrosine kinase and ERK signalling. [FBrf0194379] Friggi-Grelin et al., 2006, Europ. J. Cell Biol. 85(11): 1155--1166 The cis-Golgi Drosophila GMAP has a role in anterograde transport and Golgi organization in vivo, similar to its mammalian ortholog in tissue culture cells. [FBrf0194167] Girard et al., 2006, Dev. Biol. 299(2): 530--542 Chromatin immunoprecipitation reveals a novel role for the Drosophila SoxNeuro transcription factor in axonal patterning. [FBrf0194303] Hyun et al., 2006, Molec. Cell. Biol. 26(22): 8293--8302 Control of G2/M transition by Drosophila Fos. [FBrf0195157] Inoshita and Tanimura, 2006, Proc. Natl. Acad. Sci. USA 103(4): 1094--1099 Cellular identification of water gustatory receptor neurons and their central projection pattern in Drosophila. [FBrf0191468] Jafar-Nejad et al., 2006, Development 133(9): 1683--1692 Senseless and Daughterless confer neuronal identity to epithelial cells in the Drosophila wing margin. [FBrf0190299] Keene et al., 2006, Curr. Biol. 16(15): 1524--1530 Drosophila dorsal paired medial neurons provide a general mechanism for memory consolidation. [FBrf0193609] Khodosh et al., 2006, Development 133(23): 4655--4665 Bchs, a BEACH domain protein, antagonizes Rab11 in synapse morphogenesis and other developmental events. [FBrf0195140] Kim et al., 2006, Genes Dev. 20(20): 2806--2819 The bHLH-PAS protein Spineless is necessary for the diversification of dendrite morphology of Drosophila dendritic arborization neurons. [FBrf0195191] Kim et al., 2006, Curr. Biol. 16(13): 1395--1407 A command chemical triggers an innate behavior by sequential activation of multiple peptidergic ensembles. [FBrf0194317] Kobayashi et al., 2006, Proc. Natl. Acad. Sci. USA 103(39): 14417--14422 Differential microarray analysis of Drosophila mushroom body transcripts using chemical ablation. [FBrf0194633] Lalevee et al., 2006, Curr. Biol. 16(15): 1502--1508 Control of cardiac rhythm by ORK1, a Drosophila two-pore domain potassium channel. [FBrf0195123] Larsen et al., 2006, Proc. Natl. Acad. Sci. USA 103(47): 17813--17817 An efficient promoter trap for detection of patterned gene expression and subsequent functional analysis in Drosophila. [FBrf0192951] Lee et al., 2006, Proc. Natl. Acad. Sci. USA 103(33): 12580--12585 Sex- and clock-controlled expression of the neuropeptide F gene in Drosophila. [FBrf0194171] Li et al., 2006, Genes Dev. 20(20): 2793--2805 MicroRNA-9a ensures the precise specification of sensory organ precursors in Drosophila. [FBrf0193418] Long et al., 2006, Genetics 172(3): 1633--1642 De novo GMP synthesis is required for axon guidance in Drosophila. [FBrf0190740] Mahr and Aberle, 2006, Gene Expression Patterns 6(3): 299--309 The expression pattern of the Drosophila vesicular glutamate transporter: a marker protein for motoneurons and glutamatergic centers in the brain. [FBrf0190508] Mathews et al., 2006, Development 133(6): 1143--1153 Zinc transport activity of Fear of Intimacy is essential for proper gonad morphogenesis and DE-cadherin expression. [FBrf0190307] McDonald et al., 2006, Dev. Biol. 296(1): 94--103 Multiple EGFR ligands participate in guiding migrating border cells. [FBrf0193922] Parker, 2006, Curr. Biol. 16(20): 2058--2065 Control of compartment size by an EGF ligand from neighboring cells. [FBrf0193620] Parrish et al., 2006, Genes Dev. 20(7): 820--835 Genome-wide analyses identify transcription factors required for proper morphogenesis of Drosophila sensory neuron dendrites. [FBrf0190556] Pielage et al., 2006, J. Cell Biol. 175(3): 491--503 A postsynaptic spectrin scaffold defines active zone size, spacing, and efficacy at the Drosophila neuromuscular junction. [FBrf0192906] Pitman et al., 2006, Nature 441(7094): 753--756 A dynamic role for the mushroom bodies in promoting sleep in Drosophila. [FBrf0193322] Soller et al., 2006, Curr. Biol. 16(18): 1771--1782 Sex-peptide-regulated female sexual behavior requires a subset of ascending ventral nerve cord neurons. [FBrf0192935] Srahna et al., 2006, PLoS Biol. 4(11): A signaling network for patterning of neuronal connectivity in the Drosophila brain. [FBrf0192599] Wang et al., 2006, Development 133(7): 1231--1240 Steroid hormone-dependent transformation of polyhomeotic mutant neurons in the Drosophila brain. [FBrf0190330] Ward et al., 2006, Dev. Biol. 297(2): 461--470 Border of Notch activity establishes a boundary between the two dorsal appendage tube cell types. [FBrf0200192] Zheng et al., 2006, EMBO J. 25(3): 615--627 Baboon/dSmad2 TGF-beta signaling is required during late larval stage for development of adult-specific neurons. [FBrf0190369] Zhu et al., 2006, Cell 127(2): 409--422 Gradients of the Drosophila Chinmo BTB-zinc finger protein govern neuronal temporal identity. [FBrf0194848] Show all research papers ...
Recent reviews (0)
	All reviews listed in FlyBase were published before 2006 Show reviews ...

Allele Mmus\Cd8aScer\UAS.T:Avic\GFP

Allele Mmus\Cd8a^{Scer\UAS.T:Avic\GFP}