Abstract
The alpha subunit of human chorionic gonadotropin (hCG) was partially reduced and S-alkylated with [2-14C]iodoacetic acid. The resulting derivative in which on the average 1.6 residues of cystine were modified was completely reduced and S-alkylated. The S-[14C]-carboxymethylated hCG-alpha was then subjected to hydrolysis with trypsin and the hydrolysate was fractionated by gel filtration. The radioactive fractions were further purified by high voltage paper electrophoresis at pH 4.7 to yield tryptic peptides, alpha T-1, alpha T-8, and alpha T-11a, containing 5, 2, and 3 S-carboxymethyl cysteinyl residues, respectively. These peptides were further fragmented by a variety of cleavage reagents such as cyanogen bromide, chymotrypsin, Staphylococcus aureus protease, subtilisin, and cathepsin C to isolate individual S-[14C]carboxymethylcysteine-containing peptides. After ensuring their purity, the specific radioactivity of each S-[14C]carboxymethylcysteine was determined following its isolation from the acid hydrolysate of the peptide by high voltage paper electrophoresis at pH 4.7. The 2 S-[14C]carboxymethylcysteine residues with identical specific radioactivity yielded the precise location of the disulfide bridge in the polypeptide chain. Thus, all five disulfide bonds in hCG-alpha were assigned and are located at positions 7 and 31, 10 and 32, 28 and 60, 59 and 87, and 82 and 84.
Highlights
From the Department of Biological Sciences, Division Buffalo, Amherst Campus, Buffalo, New York 14260 of Cell and Molecular
HCG-a has four distinct domains in half-cystinyl residues at locations 7 and 10, 28, 31, and 32, 59 and 60, and 82, 84, and 87, while human chorionic gonadotropin (hCG)-/3 has 7 of the 12 half-cystinyl residues concentrated in three regions of the polypeptide chain at positions
Because of the relative number of closely situated half-cystinyl residues and the carbohydrate units, the subunits of hCG are resistant to hydrolysis by proteolytic enzymes
Summary
Carboxymethylated hCG-a was subjected to hydrolysis with trypsin and the hydrolysate was fractionated by gel filtration. The radioactive fractions were further purified by high voltage paper electrophoresis at pH 4.7 to yield tryptic peptides, cyT-1, aT-8, and nT-. These peptides were further fragmented by a variety of cleavage reagents such as cyanogen bromide, chymotrypsin, Staphylococcus aureus protease, subtilisin, and cathepsin C to isolate individual. After ensuring their purity, the specific radioactivity of each S-[‘4C]carboxymethylcysteine was determined following its isolation from the acid hydrolysate of the peptide by high voltage paper electrophoresis at pH 4.7. The 2 S-[Wlcarboxymethylcysteine residues with identical specific radioactivity yielded the precise location of the disulfide bridge in the polypeptide chain. All five disulfide bonds in hCG-cu were assigned and are located at positions 7 and 31,lO and 32,28 and 60,59 and 87, and 82 and 84
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