Two proteins with structural characteristics similar to peptide sequences identified in the inhibin alpha-subunit precursor sequence have been isolated from bovine follicular fluid. A side-fraction from the purification of bovine follicular fluid inhibin with high levels of inhibin immunoactivity relative to its inhibin bioactivity was fractionated through a sequence of procedures which included triazine dye affinity and phenyl-Sepharose chromatography, gel permeation chromatography on Sephadex G-100, reverse phase HPLC, and preparative polyacrylamide gel electrophoresis. The first of the two proteins identified had a molecular mass of 25-26K under reducing and nonreducing conditions and a NH2-terminal sequence identical to that of 43K inhibin alpha-subunit and showed minimal activity (less than 2% activity) compared with bovine 31K inhibin in either the inhibin in vitro bioassay or the RIA. These data suggest that this protein is the alpha 1-166 sequence of the bovine inhibin alpha-subunit (designated alpha N-subunit), most likely released after processing of either the inhibin alpha-subunit precursor or the 43K alpha-subunit involved in the conversion of 58K to 31K inhibin. The other protein identified (designated pro-alpha C-subunit) has a molecular mass of 27K under nonreducing conditions and 20K and 6K under reducing conditions. It is inactive in the in vitro bioassay, although highly reactive in the inhibin RIA, and has NH2-termini identical to the pro sequence of the inhibin alpha-subunit precursor and the 20K alpha-subunit sequence. These results suggest that pro-alpha C is a disulfide-linked structure and may represent an intermediate in the dimerisation of alpha- and beta-subunits to form inhibin while the alpha N-subunit is probably a proteolytic product of either the alpha-subunit precursor or 58K inhibin.
Human monocyte-derived plasminogen activator inhibitor (mPAI-2) was purified to homogeneity from the U937 cell line and partially sequenced. Oligonucleotide probes derived from this sequence were used to screen a cDNA library prepared from U937 cells. One positive clone was sequenced and contained most of the coding sequence as well as a long incomplete 3' untranslated region (1112 base pairs). This cDNA sequence was shown to encode mPAI-2 by hybrid-select translation. A cDNA clone encoding the remainder of the mPAI-2 mRNA was obtained by primer extension of U937 poly(A)+ RNA using a probe complementary to the mPAI-2 coding region. The coding sequence for mPAI-2 was placed under the control of the A PL promoter, and the protein expressed in Escherichia coli formed a complex with urokinase that could be detected immunologically. By nucleotide sequence analysis, mPAI-2 cDNA encodes a protein containing 415 amino acids with a predicted unglycosylated Mr of 46,543. The predicted amino acid sequence of mPAI-2 is very similar to placental PAI-2 (3 amino acid differences) and shows extensive homology with members of the serine protease inhibitor (serpin) superfamily. mPAI-2 was found to be more homologous to ovalbumin (37%) than the endothelial plasminogen activator inhibitor, PAI-1 (26%). Like ovalbumin, mPAI-2 appears to have no typical amino-terminal signal sequence. The 3' untranslated region of the mPAI-2 cDNA contains a putative regulatory sequence that has been associated with the inflammatory mediators.
Biotinidase catalyzes the hydrolysis of N epsilon-biotinyllysine (biocytin) to form biotin and free lysine. The enzyme has been purified 4800-fold from outdated human plasma and was determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis to have a molecular weight of (76 +/- 2) X 10(3). The same molecular weight was found by molecular sieve chromatography under nondenaturing conditions, indicating biotinidase is a monomer. This value is in contrast to a molecular weight of 115 000 determined by Pispa [Pispa, J. (1965) Ann. Med. Exp. Biol. Fenn., Suppl. 5, 5-39] with an impure biotinidase. The Km for biocytin was 6.2 X 10(-6) M, and biotinidase was found to be sensitive to phenylmethanesulfonamide and iodoacetamide in agreement with earlier studies by Knappe and co-workers [Knappe, J., Brümmer, W., & Bierderbick, K. (1963) Biochem. Z. 338, 599-613], who suggested that serine hydroxyl groups and sulfhydryl groups are essential for enzymatic activity. The specificity of biotinidase was examined by using synthetic and natural biotinyl peptides isolated by specific proteolytic cleavage of the biotinyl subunit of transcarboxylase. It was found that the rate of hydrolysis of biocytin was 83-fold higher than that found for biotin-containing peptides 5-13 residues in length. Removal of methionine from either side of the conserved region around the biocytin did not greatly alter the rate of cleavage. Increasing the peptide to 65-123 residues in length decreased the rate 1200-fold compared to that of biocytin.(ABSTRACT TRUNCATED AT 250 WORDS)
Pyruvate phosphate dikinase contains a pivotal histidyl residue which functions to mediate the transfer of phosphoryl moieties during the reaction catalyzed by the enzyme. The tryptic peptide which contains this essential histidyl residue has been isolated by a two-step procedure originally developed by Wang and co-workers [Wang, T., Jurasek, L., & Bridger, W. A. (1972) Biochemistry 11, 2067]. This peptide has been sequenced by the manual dansyl-Edman procedure and is shown to be NH2-Gly-Gly-Met-Thr-Ser-His-Ala-Ala-Val-Val-Ala-Arg-CO2H. There is no readily interpretable homology between this peptide and other phosphorylated histidyl peptides previously isolated from other enzymes. By use of Chou & Fasman [Chou, P. Y., & Fasman, G. D. (1974) Biochemistry 13, 222], it is predicted that the sequence contains an alpha helix from the methionine residue through to the carboxyl terminal arginine residue.
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