At least six different actins are expressed in a higher mammal: An analysis based on the amino acid sequence of the amino-terminal tryptic peptide

The protein chemical characterization of the amino-terminal tryptic peptide of actin from different bovine tissues shows that at least six different actin structural genes are expressed in this mammal.Unique amirio acid sequences are found for actin from skeletal muscle, for actin from heart muscle, for two different actin species from smooth muscle, and for two different actin species typical of non-muscle tissues such as brain and thymus. The presence of more than one actin species in the same tissue (e.g. nonmuscle tissues and smooth muscles) is demonstrated by different amino-terminal peptides which, however, are closely related. The actins from the sarcomeric muscles (e.g. skeletal muscle and heart muscle) show unique but extremely similar amino-terminal peptides. A limited comparison of bovine and avian actins involving smooth and skeletal muscles emphasizes that among higher vertebrates actin divergence involves tissue rather than species specificity.For the lower eukaryotic organism Physarum polycephalum a single actin amino-terminal peptide is found, indicating that only one actin species is present during the plasmodial stage. The amino acid sequence of this peptide although unique reveals a high degree of homology with the corresponding mammalian cytoplasmic actin peptides.Different actin extraction and purification procedures have been compared by the relative yields of the different amino-terminal peptides. The results indicate that the various actin species obtained by the current purification procedures are a true reflection of the actual actins present in the tissue. In addition we compare the resolution provided by either isoelectric focusing analysis of different actins or by the protein chemical characterization of the amino-terminal peptides of different actins. We show that the latter procedure is more suitable for recording changes in actin expression during evolution and differentiation.