Ubiquitinylation has been identified as a regulator of core PCP function. (A) travel wings (A and B, 28hr APF). Myc::Slimb (A, B) patterns visualized with anti-c-Myc antibodies (blue in A and B) in- and outside clones overexpressing (green, A) and (RFP, B) (layed out in A and B). Overexpression of knock-down clones. knock-down clones abolished Myc::Slimb labeling where Pk accumulates, showing antibody specificity. Regions surrounding knock-down clones show domineering non-autonomy (C, or Cc for magnified images), where apical Myc::Slimb (green) is usually coordinately re-localized with Pk (reddish), although Myc::slimb localization is usually considerably less asymmetric and membrane associated (observe also Fig 4). (D) knock-down clones (RFP in D) accumulate Myc::Slimb (blue, D) in apical (D) and basal planes (D) at 28hr APF, suggesting that this retention of Slimb is also dependent on the Cul1 complex. Scale bars: 10m. Genotypes are (A) driven induces apical accumulation and clustering of Vang::YFP (A; green in A) and Fmi (A; blue in A) (A). However, when Fmi is simultaneously knocked down (using and in the same genetic background, B), Vang::YFP accumulates apically (B) but does not show the same clustering pattern. Pk (red) in A and B. A, B; 28hr APF. GFP::PkdCaaX accumulates in knock-down clones (C). knock-down clones (RFP; C and D) were generated in wings and GFP::PkdCaaX (C and D; green in C, D) and Fmi (C; blue in C) were monitored (C and D; 28 hr APF). GFP::PkdCaaX localization is enriched at cell junctions in knock-down clones (C, compare with Fmi patterns in C) (C, apical; D, sub-apical). The effect of overexpressing Pk lacking its C-terminus on Vang::YFP patterns was analyzed in- and outside overexpressing clones in wing Upamostat tissues (E and F; 28hr APF). HA::PkdC was labelled with anti-HA antibodies. Note that apical HA::PkdC does not localize asymmetrically and is present in apical (E) and basal (F) cytosol. Vang::YFP localization was not affected by overexpression (E and F; compare with A, Figs ?Figs6B6B and ?and7B).7B). Scale bars: 10m. Genotypes are (A) mutant clones (outlined in A and Upamostat A) induce an excess of Pk (A; red in A) and Fmi (A; green in A) double positive vesicles compared to neighboring wildtype tissue. A sub-apical section is Rabbit polyclonal to RAD17 shown. (B-D) In Upamostat wing tissue overexpressing with (as in Fig 3E), homozygous mutant (mutant clones is robust in apical (B), sub-apical (C), and basal (D) planes. Notably, overall Fmi staining is reduced inside the clones (B, C, D), as compared to cells outside the clones, where overexpression induces formation of Fmi-positive vesicles and high levels of clustered apical Fmi, as in Figs ?Figs66 Upamostat and ?and7.7. Scale bars: 10m. Genotypes are (A) overexpression (RFP in A) clusters Vang::YFP at the apical membrane (A). In sub-apical planes (B), Vang::YFP positive vesicles are seen inside the overexpressing cells (B, RFP for overexpressing clones in B) and also in neighboring wildtype cells (arrowheads in the magnified image, Ba). (Bb) A magnified image of the square region in B. 26hr APF. Scale bars: 10m. Genotype: mutant clones in the presence of Fz recruit Vang from neighboring cells to the adjacent cell boundary, causing domineering non-autonomy. To assess whether Pk is required in the responding cell for Vang recruitment, we carried out a twinspot assay. (A) flies were used (mutant clones with Vang::YFP only in surrounding cells); some surrounding cells are wild-type, and others are mutant twin clones. Pk visualized by Pk staining (A, red in A). Yellow dots indicate mutant twin cells facing mutant clones Upamostat (Aa and Ab: magnified images for squares in A). Vang::YFP is recruited to the adjacent membrane of cells abutting mutant cells regardless of whether they express (Aa and Ab; magnification of boxed regions in A; compare membranous Vang::YFP facing mutant.