Bi-substrate analogue ligands for affinity chromatography of protein kinases

The direct biochemical analysis of protein tyrosine kinases from yeast has been difficult due to their very low activity in crude cell lysates. Here we present a procedure for the enrichment and partial purification of protein tyrosine kinases from Saccharomyces cerevisiae based on single-step subst

## Abstract Affinity chromatography of proteins requires a ligand covalently bound to a solid support separated by a spacer of sufficient length. In the specific case of acetyl‐cholinesterase we have reduced the conventional spacer synthesis from five to three steps. For affinity chromatography of

The ability of protein kinases to phosphorylate synthetic peptides corresponding to identified protein phosphorylation sites has previously been used to determine primary structural requirements and has helped define distinct "recognition sequences" for a variety of enzymes. Here, we have used an im

## Abstract A new chelating compound has been developed for use in the immobilized metal affinity chromatographic (IMAC) separation of proteins. The bidentate ligand, α‐amino phenylalanine tetrazole, **4**, was synthesized __via__ a five‐step synthesis from __N__‐fluorenylmethoxycarbonyl phenylalan