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pubmed:abstractText |
A protein-NeuAc complex involved in colominic acid biosynthesis has been identified in membrane preparations of Escherichia coli K-235. This compound had an Mr (estimated by SDS/polyacrylamide-gel electrophoresis and autoradiography) of about 100,000 and played the role of an 'initiator' or 'primer' (endogenous acceptor) in the synthesis of the whole polymer. Incubations of E. coli membranes with CMP-[14C]NeuAc (CMP-N-[14C]acetylneuraminic acid) pointed to the existence of a protein fraction (primer acceptor) that linked residues of sialic acid (N-acetylneuraminic acid, NeuAc) up to a maximal size, later releasing them as low-Mr sialyl polymers (LMrS, Mr less than 10,000). In the presence of colominic acid (final acceptor) the radioactivity linked to the protein quickly decreased, appearing stoichiometrically bound to the whole polysaccharide. When membrane preparations were previously digested with Streptomyces proteinase or de-activated by heating (80 degrees C, 10 min), no incorporation of labelled NeuAc into trichloroacetic acid-insoluble material was detected. These results suggested that colominic acid molecules are synthesized while they are bound to a proteinaceous acceptor that is subsequently excised in the presence of colominic acid, generating the native protein. The antibiotic tunicamycin inhibited the biosynthesis of colominic acid, affecting the synthesis of this protein-(NeuAc)n intermediate. All these results are described here for the first time.
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