The ability of Syk protein tyrosine kinase (PTK) to phosphorylate peptides, where tyrosine had been replaced by conformationally constrained analogs, has been exploited to develop highly selective substrates suitable for the specific monitoring of Syk activity. In particular we have synthesized a peptidomimetic, RRRAAEDDE(L-Htc)EEV (syktide), with the 3(S)-7-hydroxy-1,2,3,4-tetrahydroisoquinoline-3-carboxyl acid residue (L-Htc) replaced for tyrosine, which is phosphorylated by Syk with remarkable efficiency (K(cat)=73 min(-1), K(m)=11 microM), while it is not affected to any appreciable extent by a number of PTKs tested so far. These properties make syktide the first choice substrate for the specific monitoring of Syk.
Specific monitoring of Syk protein kinase activity by peptide substrates including constrained analogs of tyrosine
DONELLA, ARIANNA;RUZZA, PAOLO;CESARO, LUCA;BRUNATI, ANNA MARIA;CALDERAN, ANDREA;BORIN, GIANFRANCO;PINNA, LORENZO
2002
Abstract
The ability of Syk protein tyrosine kinase (PTK) to phosphorylate peptides, where tyrosine had been replaced by conformationally constrained analogs, has been exploited to develop highly selective substrates suitable for the specific monitoring of Syk activity. In particular we have synthesized a peptidomimetic, RRRAAEDDE(L-Htc)EEV (syktide), with the 3(S)-7-hydroxy-1,2,3,4-tetrahydroisoquinoline-3-carboxyl acid residue (L-Htc) replaced for tyrosine, which is phosphorylated by Syk with remarkable efficiency (K(cat)=73 min(-1), K(m)=11 microM), while it is not affected to any appreciable extent by a number of PTKs tested so far. These properties make syktide the first choice substrate for the specific monitoring of Syk.Pubblicazioni consigliate
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