Porcine low M(r) phosphotyrosine protein phosphatase has been purified and the complete amino acid sequence has been determined. Both enzymic and chemical cleavages are used to obtain protein fragment Show more
Porcine low M(r) phosphotyrosine protein phosphatase has been purified and the complete amino acid sequence has been determined. Both enzymic and chemical cleavages are used to obtain protein fragments. FAB mass spectrometry and enzymic subdigestion followed by Edman degradation have been used to determine the structure of the NH2-terminal acylated tryptic peptide. The enzyme consists of 157 amino acid residues, is acetylated at the NH2-terminus, and has arginine as COOH-terminal residue. It shows kinetic parameters very similar to other known low M(r) PTPases. This PTPase is strongly inhibited by pyridoxal 5'-phosphate (Ki = 21 microM) like the low M(r) PTPases from bovine liver, rat liver (AcP2 isoenzyme), and human erythrocyte (Bslow isoenzyme). The comparison of the 40-73 sequence with the corresponding sequence of other low M(r) PTPases from different sources demonstrates that this isoform is highly homologous to the isoforms mentioned above, and shows a lower homology degree with respect to rat AcP1 and human Bfast isoforms. A classification of low M(r) PTPase isoforms based on the type-specific sequence and on the sensitivity to pyridoxal 5'-phosphate inhibition has been proposed. Show less
Five phosphotyrosine-containing peptides have been synthesized by FMOC solid-phase peptide synthesis. These peptides correspond to the 411-419 sequence of the Xenopus src oncogene, to the 1191-1220 se Show more
Five phosphotyrosine-containing peptides have been synthesized by FMOC solid-phase peptide synthesis. These peptides correspond to the 411-419 sequence of the Xenopus src oncogene, to the 1191-1220 sequence of the human EGF receptor precursor, to the 1146-1158 sequence of the human insulin receptor, to the 856-865 sequence of the human beta-PDGF receptor, and to the 5-16 sequence of the erythrocyte human band 3. The peptides were used as substrates for activity assay of two isoforms (AcP1 and AcP2) of a low molecular weight cytosolic PTPase. The assay, performed in microtiter EIA plates using Malachite green to determine the released phosphate, was rapid, reproducible, and sensitive. Both PTPase isoforms were able to hydrolyze all synthesized peptides, though with different affinity and rate. The main kinetic parameters were compared and discussed with respect to the role of the two enzymes in the cell. Show less
Two low M(r) phosphotyrosine protein phosphatases have been isolated from rat liver. The enzymes were previously known as low M(r) acid phosphatases, but several recent studies have demonstrated that Show more
Two low M(r) phosphotyrosine protein phosphatases have been isolated from rat liver. The enzymes were previously known as low M(r) acid phosphatases, but several recent studies have demonstrated that this family of enzymes possesses specific phosphotyrosine protein phosphatase activity. We determined the complete amino acid sequences of the two isoenzymes and named them AcP1 and AcP2. Both consist of 157 amino acid residues, are acetylated at the NH2-terminus, and have His as the COOH-terminus. The molecular weights calculated from the sequences are 18,062 for AcP1 and 17,848 for AcP2. They are homologous except in the 40-73 zone, where about 50% of residues are different. This fact suggests that the two isoenzymes are produced by an alternative splicing mechanism. There is no homology between these two isoenzymes and the receptor-like phosphotyrosine protein phosphatases LAR, CD45, human placenta PTPase 1B, and rat brain PTPase-1. AcP1 and AcP2 are also distinct from rat liver PTPase-1 and PTPase-2, since these last enzymes have higher molecular weights. AcP1 differs from AcP2 with respect to (1) substrate affinity and (2) its sensitivity to activators and inhibitors, thus suggesting a their different physiological function. Show less