Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.16.3.1 (ceruloplasmin)
 5,074 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The full-length genes for the heavy (H) and light (L) chains of ferritin isolated from a rat liver cDNA library were amplified using polymerase chain reaction. Each was inserted at the unique BglII site downstream of the p10 promoter of the baculovirus transfer vector pAcUW21. The genes were transferred separately to infectious Autographa californica nuclear polyhedrosis virus (AcNPV) expression vectors after in vivo homologous recombination. Ferritin homopolymers of either H or L chain were expressed up to approximately 1.5 mg per 100 ml of infected cultures (2.0 x 10(6) cells/ml) of Spodoptera frugiperda, Sf-21, 4 days postinfection. Both recombinant H chain ferritin (rH-Ft) and recombinant L chain ferritin (rL-Ft) assembled as multi-subunit complexes with predicted electrophoretic mobility. Neither rH-Ft nor rL-Ft homopolymers had ferroxidase activity in 50 mM NaCl, as we have reported previously for native ferritin [D. DeSilva, D. M. Miller, D.W. Reif, and S.D. Aust (1992) Arch. Biochem. Biophys. 293,409-415]. When ceruloplasmin, a copper-containing protein, was used as a ferroxidase, rH-Ft loaded iron at rates comparable those obtained with native rat liver apoferritin, but rL-Ft failed to load any iron. The initial rate of Fe(II) oxidation catalyzed by ceruloplasmin was increased in the presence of rH-Ft or rat liver ferritin but not in the presence of rL-Ft. A maximum of about 2500 atoms of iron were incorporated into both rH-Ft and rat liver ferritin. These results demonstrate that both rat liver rH-Ft and rL-Ft homopolymer can be properly produced by the baculovirus expression system and ceruloplasmin can only load iron into H chain ferritin. The physiological significance of these results is discussed.
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PMID:Expression and loading of recombinant heavy and light chain homopolymers of rat liver ferritin. 891 51

We have reported previously that the heavy chain of ferritin is required for iron incorporation by ceruloplasmin (J.-H. Guo, M. Abedi, and S. D. Aust (1996) Arch. Biochem. Biophys. 335(1)). The purpose of this study was to determine how many heavy chains were required for ceruloplasmin to interact with ferritin such that iron loading occurred. The cDNA sequences encoding the heavy and light chains of rat liver ferritin were cloned into the baculovirus transfer vector pA-cUW51 under the control of polyhedrin and p10 promoters, respectively, which was then incorporated by homologous recombination into the infections Autographa californica nuclear polyhedrosis virus genome. Both ferritin chains were expressed and assembled into two heteropolymers following the infection of insect cells by recombinant virus, which were separated by DEAE-Sepharose chromatography. The percentage of heavy (H) and light (L) chains making up the two heteropolymers, determined by gel scanning following the resolution of chains on SDS-PAGE, were equivalent to 1 H and 23 L chains and 2 H and 22 L chains. The maximal extent of iron loading was observed using 1 mol of rat ceruloplasmin per mole of H chain in the two heteropolymers. The extent of iron incorporation decreased with additional ceruloplasmin. Iron incorporation into rat liver ferritin, found to contain 10 H chains, increased as the molar ratio of ceruloplasmin to ferritin increased to 4:1 and remained the same up to 8:1. Iron loading into horse spleen ferritin, found to have one H chain, appeared similar to that for recombinant ferritin, having only one H chain. Therefore, we propose that the optimal molar ratio of ceruloplasmin to ferritin depends upon the numbers of H chain making up the ferritin molecule for the maximal incorporation of iron into ferritin. These results also suggest that the iron loading channel is contained within a single H chain subunit.
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PMID:Loading of iron into recombinant rat liver ferritin heteropolymers by ceruloplasmin. 916 16