Df(3L)BSC445 and LanB2MB04039 were obtained from Bloomington Stoc

Df(3L)BSC445 and LanB2MB04039 were obtained from Bloomington Stock Center. UAS-mys-RNAi (v29619), UAS-mew-RNAi (v44890), UAS-wb-RNAi (v3141), and UAS-Dcr-2 ( Dietzl et al., 2007) were obtained from Vienna Drosophila RNAi Center (VDRC). vkg-GFPG00205 ( Morin et al., 2001) was obtained from FlyTrap ( Kelso et al., 2004). For imaging class IV da dendrites, we used either CD4-tdTom ( Han et al., 2011) or spGFP11-CD4-tdTom driven by a ppk enhancer ( Grueber

et al., 2003). spGFP11-CD4-tdTom is otherwise the same as CD4-tdTom except for the use of a synthetic signal peptide and the small split-GFP fragment ( Feinberg et al., 2008) before CD4 and the lack of an ER exit signal from Kir2.1. Both ppk-CD4-tdTom and ppk-spGFP11-CD4-tdTom were constructed this website in pHemmar, a dual-platform transgenic vector that endows high expression in the Drosophila nervous system ( Han et al., 2011). ppk-CD4-tdTom and ppk-spGFP11-CD4-tdTom behave similarly in labeling class IV da dendrites and both are referred to as ppk-CD4-tdTom in the text. To make the more specific and stronger ppk-Gal4 than one described previously ( Grueber et al., 2007), pDEST-Hemmar learn more ( Han et al., 2011) was modified to make pDEST-APIGH, a Gal4-coding destination vector to be driven by any enhancer. The ppk enhancer was then cloned into pDEST-APIGH by Gateway cloning (Invitrogen). To make UAS-HRP-DsRed-GPI, a HRP-DsRed-GPI fusion gene was assembled in pCS2 vector by sequential

restriction cloning to contain, from 5′ to 3′, the signal peptide sequence of wingless (AA1-AA37), HRP cDNA, DsRedT1 cDNA (Clontech), GPI sequence of dally-like (AA695-AA765). The HRP-DsRed-GPI fragment was then cloned into pUAST ( Brand and Perrimon, 1993) between EcoRI and XbaI. Transgenic animals were obtained via P-element-mediated transformation with a standard protocol. MARCM analyses of mys and mew were performed as described previously ( Grueber et al., 2002). mys1 FRT19A/FM7c or mewM6 FRT19A/FM7c female flies were crossed with tub-Gal80 FRT19A; hs-Flp Gal4109(2)80 UAS-mCD8-GFP to generate marked neurons mutant for mys or mew, respectively. Embryos were

collected for 2 hr and allowed to develop for 3hr at 25°C, then heat-shocked for 1 hr at 38°C. Heat-shocked embryos were then reared on grape agar plates at 25°C until Endonuclease the time of living imaging at ∼96 hr AEL. RNAi knock-down of mys and mew in da neurons were carried out with driver Gal421-7 UAS-Dcr-2. Knock-down of wb in the larval epidermis was carried out with driver UAS-Dcr-2; hh-Gal4 UAS-EGFP. UAS-EGFP was used to label epidermal cells that express the RNAi constructs. The effectiveness of UAS-mew-RNAi and UAS-wb-RNAi in the wing was tested with UAS-Dcr-2; hh-Gal4 UAS-EGFP. As cross between UAS-mys-RNAi and UAS-Dcr-2; hh-Gal4 UAS-EGFP produces progeny dying at early larval stages, knock-down by UAS-mys-RNAi was tested with a wing-specific Gal4, MS1096 ( Lunde et al., 1998). Animals were reared at 25°C in density-controlled vials.

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