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Fig. 3. SHP-2 forms a complex with Spry1. (A) Co-immunoprecipitation
analysis. HEK293 cells were transfected with plasmids expressing HA-Spry1
(lanes 1-3, 7-9) or HA-Spry1Y53F (lanes 4-6), plasmid expressing
SHP-2-V5 (lanes 1-6), and empty vector (lanes 1, 4, 7) or vector expressing
FGFR3 (lanes 2, 5, 8) or constitutively-active FGFR3K644E (lanes 3,
6, 9) to increase FGF pathway activity. SHP-2-V5 was immunoprecipitated from
cell lysates. (Top) Immunoblot of immunoprecipitates probed with anti-HA to
detect co-immunoprecipitated HA-Spry1. (Middle) Blot reprobed with anti-V5
showing SHP-2-V5 in immunoprecipitates. (Bottom) Immunoblot of whole cell
lysates probed with anti-HA to show HA-Spry1 expression. Similar results were
obtained in three experiments. (B) GST pull-down analysis of SHP-2
interaction with Spry1. HEK293 cells were transfected with plasmids expressing
HA-Spry1 and FGFR3K644E to increase HA-Spry1 phosphorylation. Cell
lysates were incubated with beads coated with purified GST (lane 1), or GST
fused to constitutively active SHP-2E76A (lane 2) or to truncated
SHP-2 containing only the SH2 domains (lane 3). (Top) Immunoblot of proteins
bound to beads, probed with anti-HA. HA-Spry1 bound to
GST-SHP-2E76A (lane 2) and, less well, to GST-SHP-2SH2
(lane 3). Similar results were obtained in three experiments. (Bottom)
Coomassie Blue-stained SDS-PAGE gel of purified GST fusion proteins. Positions
of full-length proteins are indicated; lower molecular weight forms are
presumably breakdown products.
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