To test if Orb2B has a specific role in memory in the adult, we manipulated Orb2B
expression in a temporal fashion in a viable orb2mCPEB2RBD background using the tripartite UAS/Gal4/Gal80 expression system ( McGuire et al., 2003). Expression in the adult MBs of the wild-type UAS-orb2B, but not UAS-orb2B∗ with the RBD mutated, was sufficient for full rescue of long-term memory (1, TubG80ts, orb2mCPEB2RBD, UAS-orb2B, MB247G4 (29°C), LI = 28.4; 3, TubG80ts, orb2mCPEB2RBD, UAS-orb2B∗, MB247G4 (29°C), LI = 5.89) ( Figure 4C; Table S5C). This result shows that in addition to its role during development, Orb2B has a specific function in long-term memory in adult animals that requires its RBD. If, as we propose, Orb2A does not require its RBD, and Orb2B
does not require its Q domain, then we might expect complementation between the relevant orb2 alleles. To test this, we generated a series click here of Orb2 mutant alleles in which we mutated the key residues in the RBD predicted to be essential for binding to its RNA targets ( Mendez et al., 2002). Transheterozygous orb2RBD∗ΔB/orb2ΔA flies, with the functional RBD only in Orb2B, are viable and have normal memory (6, orb2RBD∗ΔB/orb2ΔA, LI = 20.59; 2, orb2ΔA/orb2ΔB, LI = Selleckchem ABT888 20.83) ( Figure 4B; Table S5B). By contrast, flies with the functional RBD only in Orb2A are lethal (7, orb2RBD∗ΔA/ orb2ΔB). Moreover, transheterozygotes which lack a functional RBD in Orb2A and the Q domain in Orb2B have memory at the level of both wild-type animals and animals with only one wild-type copy of each isoform (8, orb2ΔQΔA/orb2RBD∗ΔB, LI = 20.68; 2, orb2ΔA/orb2ΔB, LI = 20.83) ( Figure 4B; Table S5B). One possible explanation for this interallelic complementation between orb2A and orb2B alleles could be that the proteins they encode form a functional complex. We examined this possibility by light microscopy and biochemistry. Due to the small size of Drosophila neurons, we used expression studies in the Drosophila S2 cell line. S2 cells do not
express Orb2 MG-132 clinical trial (our unpublished deep seq. data); therefore, we had a clean background in which to test for aggregation and the potential role of the Orb2 Q domain in this process. When individually expressed, Orb2A and Orb2B, have distinct localizations. While both isoforms are localized to the cytoplasm, Orb2A has a granular appearance whereas Orb2B is diffuse. Interestingly, loss of the Q domain in Orb2A (Orb2AΔQGFP) led to a loss of the granular appearance whereas deletion of this domain in Orb2B (Orb2BΔQGFP) did not cause any detectable change ( Figure 5A). This observation was extended by IP experiments. In immunoprecipitates from S2 cells transfected with both Orb2AGFP and Orb2BGFP, we observed large Orb2 complexes ranging between 100–400 kDa.