U. S. Vogel scite author profile

The plasma membrane-bound mammalian ras proteins of relative molecular mass 21,000 (ras p21) share biochemical and structural properties with other guanine nucleotide-binding regulatory proteins (G-proteins). Oncogenic ras p21 variants result from amino acid substitutions at specific positions that cause p21 to occur predominantly complexed to GTP in vivo. Recently, a GTPase activating protein (GAP) with cytosolic activity has been discovered that stimulates the GTPase activity of normal but not of oncogenic ras p21. GAP might be either a negative regulatory agent which acts further upstream in the regulatory pathway or the downstream target of ras p21. We have identified a protein from bovine brain with apparent relative molecular mass 125,000 that has GAP activity. Here, using pure GAP in a kinetic competition assay, we show that GAP interacts preferentially with the active GTP complexes of both normal and oncogenic Harvey (Ha) ras p21 compared with the inactive GDP complexes. We also report the cloning and sequencing of the complementary DNA for bovine GAP. Regions of GAP share amino acid similarity with the noncatalytic domain of adenylate cyclase from the yeast Saccharomyces cerevisiae and with regions conserved between phospholipase C-148, the crk oncogene product and the nonreceptor tyrosine kinases.

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Molecular Structure, Localization, and Possible Functions of the Myelin‐Associated Enzyme 2′,3′‐Cyclic Nucleotide 3′‐Phosphodiesterase

Vogel

Thompson

1988

Journal of Neurochemistry

144

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A C-terminal domain of GAP is sufficient to stimulate ras p21 GTPase activity.

et al. 1989

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The cDNA for bovine ras p21 GTPase activating protein (GAP) has been cloned and the 1044 amino acid polypeptide encoded by the clone has been shown to bind the GTP complexes of both normal and oncogenic Harvey (Ha) ras p21. To identify the regions of GAP critical for the catalytic stimulation of ras p21 GTPase activity, a series of truncated forms of GAP protein were expressed in Escherichia coli. The C-terminal 343 amino acids of GAP (residues 702-1044) were observed to bind Ha ras p21-GTP and stimulate Ha ras p21 GTPase activity with the same efficiency (kcatIKM 1 x 106 M-s-at 24°C) as GAP purified from bovine brain or full-length GAP expressed in E.coli. Deletion of the final 61 amino acid residues of GAP (residues 986-1044) rendered the protein insoluble upon expression in E.coli. These results define a distinct catalytic domain at the C terminus of GAP. In addition, GAP contains amino acid similarity with the B and C box domains conserved among phospholipase C-II, the crk oncogene product, and the non-receptor tyrosine kinase oncogene products. This homologous region is located in the N-terminal half of GAP outside of the catalytic domain that stimulates ras p21 GTPase activity and may constitute a distinct structural or functional domain within the GAP protein.

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U. S. Vogel

Cloning of bovine GAP and its interaction with oncogenic ras p21

Molecular Structure, Localization, and Possible Functions of the Myelin‐Associated Enzyme 2′,3′‐Cyclic Nucleotide 3′‐Phosphodiesterase

A C-terminal domain of GAP is sufficient to stimulate ras p21 GTPase activity.

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