We have developed a simplified procedure for the production of metabolically labeled calmodulin. We used bacterial clones ( Escherichia coli) that were found to express VU-1 calmodulin, a calmodulin that is fully active with a variety of calmodulin-regulated enzymes. VU-1 calmodulin was labeled with sulfur-35 in bacteria maintained in a sulfur-free medium. Calmodulin was then purified by chromatography on phenyl-Sepharose. Under these conditions, the specific activity of the proteins was 150 to 400 cpm/fmol of calmodulin. To demonstrate the utility of this labeled VU-1 calmodulin, we examined the calmodulin-binding proteins in aortic myocyte preparation from Day 0 and Day 15 cultures by using both the gel and the nitrocellulose overlay protocols. The results showed that calmodulin-binding proteins are easily detected by the two procedures and that the profile of these target proteins changed in myocyte with time in culture. While most of these calmodulin-binding proteins have not been identified, the relative mobility on SDS-PAGE gels suggests that myosin light chain kinase ( M r ≈ 137,000) was detected by these methods. We demonstrated here that the nitrocellulose overlay was faster than the gel overlay and that this technique can be useful for the study of calmodulin-binding proteins.
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