Farr GH , Ferkey DM , Yost C , Pierce SB , Weaver C , Kimelman D .

HD27262 NICHD NIH HHS , T32-HD07183 NICHD NIH HHS , T32GM07270 NIGMS NIH HHS , T32 HD007183 NICHD NIH HHS , T32 GM007270 NIGMS NIH HHS , R01 HD027262 NICHD NIH HHS

	Figure 3. GBP does not inhibit Xgsk-3 phosphorylation of a peptide substrate. Embryos were injected with RNA encoding Xgsk-3-myc together with control RNA or GBP-FLAG RNA. After 3 h, proteins were extracted and immunoprecipitated with anti-FLAG (Xgsk-3 + GBP), anti-myc (Xgsk-3 + control), or both (uninjected) antibodies. The kinase activity of immune complexes was measured by phosphorus-32 incorporation into the GSK-3–specific substrate prephosphorylated CREB peptide (p-CREB; dark bars). The nonphosphorylated CREB peptide (CREB; light bars) is not a GSK-3 substrate and was used as a control. The activity of duplicate immune complexes is shown.
	Figure 4. Dominant-negative Xgsk-3 binds Axin. Embryos were injected at the two- to eight-cell stage with 1 ng Axin-myc, 0.5 ng Xgsk-3-FLAG, and 0.5 ng dnXgsk-3-FLAG in the animal pole. Embryo extracts were precipitated with anti-FLAG antibody and detected by Western blotting (left panel). An aliquot of each sample taken before immunoprecipitation is shown in the right panel (Total Lysates). Lane numbers in the right panel refer to the same injections as shown above corresponding lane numbers in the left panel.
	Figure 7. Model for GSK-3 regulation in the early Xenopus embryo. (a) On the ventral side of the embryo, GSK-3 is part of a functional degradation complex that includes APC and Axin. When in this complex, GSK-3 phosphorylates β-catenin, targeting it for degradation via the proteosome pathway. Under these conditions, dorsal genes are repressed. (b) On the dorsal side of the embryo, GSK-3 is excluded from the Axin–APC complex by GBP. In addition, GBP may prevent GSK-3 from phosphorylating its normal substrates by blocking access to the active site. β-Catenin accumulates and activates the transcription of dorsal genes. (c) The kinase-deficient dnXgsk-3 functions by binding Axin, thus, keeping endogenous Xgsk-3 from the degradation complex. As in the situation with GBP, β-catenin accumulates and activates the transcription of dorsal genes.

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