Human red cell acid phosphatase (ACP1): the primary structure of the two pairs of isozymes encoded by the ACP1*A and ACP1*C alleles.
Article Details
- CitationCopy to clipboard
Dissing J, Johnsen AH
Human red cell acid phosphatase (ACP1): the primary structure of the two pairs of isozymes encoded by the ACP1*A and ACP1*C alleles.
Biochim Biophys Acta. 1992 Jun 24;1121(3):261-8.
- PubMed ID
- 1627603 [ View in PubMed]
- Abstract
The Af, As, Cf and Cs isozymes encoded by the human red cell acid phosphatase ACP1*A and ACP1*C alleles, respectively, have been sequenced. All four isozymes consist of a single non-glycosylated peptide chain (157 residues), acetylated at the amino-terminal alanine residue. Each f isozyme differs from the corresponding s isozyme over the sequence segment 40-73, while the remaining four-fifth of the molecules are identical. These findings are consistent with results for the Bf and Bs isozymes encoded by the common ACP1*B allele and confirm that the presence of a specific f or s segment is a common property to ACP1 isozymes. This supports our hypothesis that f and s isozymes are generated by alternative splicing of exons in the primary RNA transcript. Cf and Cs are identical in sequence with Bf and Bs, respectively. Thus, the ACP1*B and ACP1*C alleles encode exactly the same pair of isozymes, the only difference at the protein level being the ratio of f and s isozyme. Af and As differ from the Bf and Bs isozymes by a single substitution at residue 105; Arg and Gln, respectively. These observations explain the electrophoretic identity of the B and C isozyme pairs and the higher P(i) of the A isozyme pair.