Further characterization of the major forms of reptile beta-endorphin |
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Authors: | Robert M Dores |
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Institution: | University of Colorado, School of Medicine, Department of Physiology, Denver, CO 80262, USA |
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Abstract: | Biosynthetically labeled reptile intermediate pituitary beta-endorphin-sized material was fractionated by SP-Sephadex ion exchange chromatography into two major opiate-active forms which eluted at 0.28 M NaCl and 0.32 M NaCl, respectively; the 0.32 M form of reptile β-endorphin (mw=3500), serves as the precursor for the 0.28 M form of reptile β-endorphin (mw=3200), (Dores and Surprenant, 1983). Analysis of tryptic digests of these reptile β-endorphins by paper electrophoresis at pH 3.5 and gel filtration on a Sephadex G-15 column indicated that there are two tyrosine residues, two arginine residues and one methionine residue in reptile β-endorphin. Furthermore, the NH2-terminal tryptic peptide of both reptile β-endorphins is approximately nine amino acids in size and contains tyrosine, methionine and arginine. Analyses of chymotryptic/protease digests of the 3H]tyrosine-labeled NH2-terminal tryptic peptide analyzed by descending paper chromatography revealed that the NH2-terminal tyrosine of reptile β-endorphin is not -N-acetylated. A second tyrosine-containing tryptic peptide was detected in the COOH-terminal region of reptile β-endorphin; however this tryptic peptide differs in the two forms of reptile β-endorphin in terms of size and net charge at pH 3.5. These differences account for the apparent molecular weight differences and distinct ion exchange properties of the 0.28 M and 0.32 M forms of reptile β-endorphin. Thus in the reptile intermediate pituitary the principal post-translational mechanism for modifying β-endorphin is COOH-terminal proteolytic cleavage. |
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Keywords: | Beta-endorphin Post-translational processing Intermediate pituitary Reptile |
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