The primary structure of UK114 tumor antigen.

UK114 is a tumor antigen expressed by various malignant neoplasms. The complete amino acid sequence of UK114 purified from goat liver has been determined by automated Edman degradation of CNBr and endoproteinase Lys-C peptides. The protein contains 137 amino acid residues. which corresponds to a molecular mass of 14,229 Da. MALDI-TOF analysis resulted in a molecular weight of 14,290, suggesting that the N-terminal Met residue is acetylated. Sequence comparison shows that UK114 from goat liver (1) has 77% identity with a previously described 23 kDa protein from rat liver (Levy-Favatier et al. (1993) Eur. J. Biochem. 212, 665-673), (2) shares a very high degree of similarity with a family of prokaryotic and eukaryotic hypothetic proteins whose function have not yet been characterized, and (3) exhibits a significant similarity to a group of tumor-associated antigens which belongs to a superfamily of heat shock proteins, acting as possible targets for the host's antitumor immunity.

L-aspartate oxidase from Escherichia coli. II. Interaction with C4 dicarboxylic acids and identification of a novel L-aspartate: fumarate oxidoreductase activity.

L-Aspartate oxidase is a monomeric flavoprotein that catalyzes the first step in the de novo biosynthetic pathway for pyridine nucleotide formation under both aerobic and anaerobic conditions. In spite of the physiological importance of this biosynthesis in particular in facultative aerobic organisms, such as Escherichia coli, little is known about the electron acceptor of reduced L-aspartate oxidase in the absence of oxygen. In this report, evidence is presented which suggests that in vitro fumarate can play such a role. L-Aspartate oxidase binds succinate and fumarate with Kd values of 0.24 mM and 0.22 mM, respectively. A competitive behaviour was observed for these two dicarboxylic acids towards iminoaspartate and sulfite ions. Photoreduction experiments suggest that fumarate and succinate bind at or close to the active site of the molecule. A new fumarate reductase activity of L-aspartate oxidase is reported using benzylviologen or L-aspartate as reductants and fumarate as oxidant. Steady-state kinetics for the oxidase and the fumarate reductase activity of L-aspartate oxidase were obtained using either fumarate or oxygen as electron acceptor and L-aspartate as electron donor. Finally, succinate was identified as the product of the L-aspartate:fumarate oxidoreductase activity using radiolabeled fumarate under anaerobic conditions. The results suggest that fumarate can be a valuable alternative to oxygen as a substrate for L-aspartate oxidase.

The primary structure of a basic (pI 9.0) fatty acid-binding protein from liver of Gallus domesticus.

The complete amino acid sequence of a basic (pI 9.0) fatty acid-binding protein purified from liver of Gallus domesticus was determined by automated Edman degradation of tryptic, CNBr/HFBA and Staphylococcus aureus protease peptides. The protein contains 125 amino acid residues which correspond to a molecular mass of 14094. The identification of the blocked N-terminus Ac-Ala required digestion of a SV-8 peptide with the acylamino acid-releasing enzyme prior to sequence analysis. Sequence comparison shows that chicken liver basic-FABP has a significant similarity to other proteins belonging to the superfamily of intracellular lipid molecule binding proteins. Moreover, these sequence data confirm that basic-FABP probably binds its substrate in a slightly different way when compared with other FABPs. Basic-FABP was submitted to the EMBL Data Library with an accession number of P80226.