• Title/Summary/Keyword: human ferritin

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Purification and Glycosylation Pattern of Human L-Ferritin in Pichia pastoris

  • Lee, Jong-Lim;Yang, Seung-Nam;Park, Cheon-Seok;Jeoung, Doo-Il;Kim, Hae-Yeong
    • Journal of Microbiology and Biotechnology
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    • v.14 no.1
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    • pp.68-73
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    • 2004
  • Ferritin is an iron storage protein found in most living organisms. For expression and industrial use, human light chain ferritin (L-ferritin) was cloned from human liver cDNA library and expressed in Pichia pastoris strain GS115. The recombinant L-ferritin in Pichia pastoris was glycosylated. In a fed-batch culture, the cell mass reached about 57 g/l of dry cell weight, and the L-ferritin in the cell was increased to about 95 mg/l after 150 h. In an atomic absorption spectrometry analysis, the intracellular content of iron in the L-ferritin transformant was measured as $1,694{\pm}85\;\mu\textrm{g}g/g$, which is 5.4-fold more than that of the control strain. This L-ferritin transformant could serve as iron-fortified nutrients in animal feed stock.

Improved Coexpression and Multiassembly Properties of Recombinant Human Ferritin Subunits in Escherichia coli

  • Lee, Jung-Lim;Levin, Robert E.;Kim, Hae-Yeong
    • Journal of Microbiology and Biotechnology
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    • v.18 no.5
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    • pp.926-932
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    • 2008
  • Human heavy chain (H-) and light chain (L-) ferritins were amplified from a human cDNA library. Each ferritin gene was inserted downstream of the T7 promoter of bacterial expression vectors, and two types of coexpression vectors were constructed. The expression levels of recombinant ferritins ranged about 26-36% of whole-cell protein. H-ferritin exhibited a lower expression ratio compared with L-ferritin, by a coexpression system. However, the coexpression of HL-ferritins was significantly increased above the expression ratio of H-ferritin by cultivation without IPTG induction overnight. Purified recombinant H-, L-, HL-, and LH-ferritins were shown to be homo- and heteropolymeric high molecular complexes and it was indicated that their assembled subunits would be able to work functionally in the cell. Thus, these results indicate an improvement in the expression strategy of H-ferritin for heteropolymeric production and studies of ferritin assembly in Escherichia coli.

Recombinant Human L-ferritin from Saccharomyces cerevisiae: Molecular Characterization and Synthesis of Iron Oxide Nanoparticles (효모에서 생산한 재조합 human L-ferritin의 생화학적 특성 및 나노입자의 철산화물 합성)

  • Kim, Kyung-Suk
    • KSBB Journal
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    • v.26 no.2
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    • pp.119-125
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    • 2011
  • In the synthesis of nanoparticles, much attention has been paid to regulating the particle size. There has been a possible evident that using the central cavity (core) of the protein ferritin has a greatly significant influence on it because the core can generate the nanometer-sized mineral particles of variable metal ions. In this report, recombinant human L-ferritins produced from Saccharomyces cerevisiae were purified and their molecular properties were characterized. The cDNA for human ferritin L chain was also expressed in another host such as Escherichia coli, and the properties of recombinant L-ferritins were compared. From isoelectric focusing experiment, the L-ferritin from the recombinant yeast showed no indication of N-glycosylation. Some post-translational modifications other than N-glycosylation were speculated in the L-ferritins from yeast. A difference was made in the L-ferritins in their iron uptake rates and the initial rate of the L-ferritin from yeast was slightly increased. The reconstitution yield and size distribution of the core minerals were analyzed in the L-ferritins by transmission electron microscopy. The L-ferritin from yeast with higher reconstitution yield (54.5%) showed slightly larger sizes (mean 6.92 nm) with narrower size distribution than the L-ferritin from E. coli. It is, in conclusion, speculated that L-ferritin from yeast is relatively superior to the other, in view of the size of nanoparticle and its relative homogeneity.

Cooperative Activity of Subunits of Human Ferritin Heteropolymers in Escherichia coli

  • Lee, Jung;Seo, Hyang-Yun;Jeon, Eun-Soon;Park, Ok-Soon;Lee, Kang-Min;Park, Chung-Ung;Kim, Kyung-Suk
    • BMB Reports
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    • v.34 no.4
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    • pp.365-370
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    • 2001
  • We constructed a comparative expression system in order to produce recombinant human ferritin homo- and heteropolymers in Escherichia coli. Human ferritin H-(hfH) and L-chain (hfL) genes were expressed without amino acid changes under the control of a tac promoter. Ferritin heteropolymers of varying subunit composition were also produced by combining two different expression systems, a bicistronic expression system and a coplasmid expression system. As a result, recombinant H-chain ferritin and ferritin heteropolymers were catalytically active in forming iron core in vivo. In particular, the ferritin heteropolymer that is composed of 7% H-subunit and 93% L-subunit was capable of forming an iron core of the protein, while the L-chain ferritin homopolymer was inactive in vivo. This result indicates that the two H-subunits (i.e., 7% H-subunit content) are important to keep ferritin active in the cells. In addition, human ferritins were identified as the major iron binding proteins in the transformed cells. Also, the amount of iron bound to the recombinant ferritins was proportional to the H-subunit content in ferritin heteropolymers in vivo.

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Expression of Human Heavy-Chain and Light-Chain Ferritins in Saccharomyces cerevisiae for Functional Foods and Feeds (Saccharomyces cerevisiae을 이용한 사람의 H-, L-ferritins 발현 연구)

  • Han, Hye-Song;Lee, Joong-Lim;Park, Si-Hong;Kim, Jae-Hwan;Kim, Hae-Yeong
    • Microbiology and Biotechnology Letters
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    • v.36 no.3
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    • pp.221-226
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    • 2008
  • To produce human ferritins in yeast, human H-chain and L-chain ferritins were amplified from previously cloned vectors. Each amplified ferritin gene was inserted into the pYES2.1/V5-His-TOPO yeast expression vector under the control of the GAL1promoter. Western blot analysis of the recombinant yeast cells revealed that H-and L-chain subunits of human ferritin were expressed in Saccharomyces cerevisiae. Atomic absorption spectrometry (AAS) analysis demonstrated that the intracellular content of iron in the ferritin transformant was 1.6 to 1.8-fold higher than that of the control strain. Ferritin transformants could potentially supply iron-fortified nutrients for food and feed.

Repair of Iron Deficiency in Rats by the Intake of Recombinant Yeast Producing Human H-ferritin (훼리틴 생산 재조합 효모의 철분 결핍성 빈혈 개선 효과)

  • Hwang Eun-Hee
    • Journal of the East Asian Society of Dietary Life
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    • v.16 no.1
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    • pp.93-98
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    • 2006
  • This study examined whether or not the iron that is accumulated in the recombinant microbes that produce ferritin is bioavailable to rats with iron deficiency. Rats induced with iron deficiency were treated with iron preparations of $Fe(NH_4)_2(SO_4)_2$, horse spleen ferritin, control yeast, and ferritin-producing recombinant yeast for 14 days. The bioavailability of iron was examined by measuring hemoglobin concentration, hematocrit value, and tissue iron stores. Differences between dietary groups were determined by one-way ANOVA, at the level of significance p<0.05. Based on hemoglobin concentration and hematocrit value, iron in $Fe(NH_4)_2(SO_4)_2$, horse spleen ferritin, and ferritin-producing yeast were bioavailable in rats and cured iron deficiency. The efficacy of ferritin and ferritin-producing yeast was confirmed in establishing tissue iron stores after the induction of iron deficiency. The iron sources of ferritin and the ferritin-producing yeast seemed to be as effective for the recovery from iron deficiency as the iron compounds of ferric citrate and ferrous ammonium sulfate. The results suggest that the iron stored in ferritin of the recombinant yeast is bioavailable, and that the recombinant yeast may contribute widely as a source of iron to resolve the global problem of iron deficiency.

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Functional Assembly of Recombinant Human Ferritin Subunits in Pichia pastoris

  • Lee, Jung-Lim;Park, Cheon-Seok;Kim, Hae-Yeong
    • Journal of Microbiology and Biotechnology
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    • v.17 no.10
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    • pp.1695-1699
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    • 2007
  • Ferritin is an iron storage protein found in most living organisms as a natural assembled macromolecule. For studying the functional ability of the ferritin assembly, human H- and L-ferritins were expressed and purified from Pichia pastoris strain GS115. The recombinant H- and L-ferritins showed a globular form with transmission electron microscopy. The rate of iron uptake for H-ferritin was significantly faster than that for the L-ferritin in vitro. By gel permeation chromatography analysis, recombinant ferritins were confirmed as multimeric subunits with high molecular weight and it was indicated that assembled subunits were able to store iron in vivo.

Heterologous Expression of Human Ferritin H-chain and L-chain Genes in Saccharomyces cerevisiae (재조합 효모를 이용한 사람 H-Chain 교 L-Chain Ferritin의 생산)

  • 서향임;전은순;정윤조;김경숙
    • KSBB Journal
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    • v.17 no.2
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    • pp.162-168
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    • 2002
  • Human ferritin H- and L-chain genes(hfH and hfL) were cloned into the yeast shuttle vector YEp352 with various promoters, and the vectors constructed were used to transform Saccharomyces cerevisiae 2805. Three different promoters fused to hfH and hfL were used: galactokinase 1 (GAL1) promoter, glyceraldehyde-3-phosphate dehydrogenase(GPD) promoter and alcohol dehydrogenase 1(ADH1 ) promoter. SDS-polyacrylamide gel electrophoresis and Western blotting analyses displayed expression of the introduced hfH and hfL. In the production of both ferritin H and L subunits GAL1 promoter was more effective than GPD promoter or ADH1 promoter. Ferritin H and L subunits produced in S. cerevisiae were spontaneously assembled into its holoproteins as proven on native polyacrylamide gels. Both recombinant H and L-chain ferritins were catalytically active in forming iron core. When the cells were cultured in the medium containing 10 mM ferric citrate, the cell-associated concentration of iron was 174.9 $\mu\textrm{g}$ Per gram(dry cell weight) for the recombinant yeast YG-L and 148.8 $\mu\textrm{g}$ Per gram(dry cell weight) for the recombinant yeast YG-L but was 49.4 $\mu\textrm{g}$ Per gram(dry cell weight) in the wild type, indicating that the iron contents of yeast is improved by heterologous expression of human ferritin H-chain or L-chain genes.

Iron Uptake by the Recombinant Yeasts Producing Ferritin Heteropolymers (재조합 효모에 의한 Ferritin 이형집합체의 발현과 철 흡수)

  • Chang Yu Jung;Park Chung Ung;Kim Kyung Suk
    • KSBB Journal
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    • v.19 no.5
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    • pp.352-357
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    • 2004
  • Human ferritin H- and L-chain genes (hfH and hfL) were cloned into the yeast shuttle vector YEp352 containing the GAL1 (galactokinase) and GAL10 (epimerase) divergent promoters and the vectors constructed were used to transform Saccharomyces cerevisiae 2805. SDS-PAGE displayed expression of the introduced hfH and hfL in both recombinant strains of Y1H10L and Y1L10H. The ferritin subunits, that represented ca. $22\%$ and $15\%$ of the soluble proteins in Y1H10L and Y1L10H, were spontaneously assembled into active ferritin heteropolymers. The H subunit content of the purified recombinant human ferritin heteropolymers was proven to reflect the relative expression yield of the subunits. When the cells of 2d culture were incubated with 14.3 mM Fe(2), the cellular iron concentration of Y1H10L and Y1L10H was 1.7 and 2.0 times, respectively, that of the control strain. It is assumed that increase in the iron uptake of the recombinant yeasts is closely related to ferritin expression and H subunit content.

Expression of a Carboxy-Terminal Deletion Mutant of Recombinant Tadpole H-Chain Ferritin in Escherichia coli

  • Lee, Mi-Young;Kim, Young-Taek;Kim, Kyung-Suk
    • BMB Reports
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    • v.29 no.5
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    • pp.411-416
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    • 1996
  • In order to study the role of the protein shell in both iron uptake and iron core formation of ferritin, we constructed a deletion mutant of the ferritin gene and expressed the mutant gene in Escherichia coli, This mutant was obtained by introducing an amber mutation at position Pro-157 and a deletion of the 19 amino acid residues at the carboxy-terminus of the recombinant tadpole H-chain ferritin. The deleted amino acids correspond to E-helix forming the hydrophobic channel in the protein. E. coli harboring the plasmid pTHP157, which contains the deleted gene, was grown at $23^{\circ}C$ in the presence of 0.1 mM IPTG, and the induced protein appeared to be partly soluble. Nondenaturing polyacrylamide gel electrophoresis showed that the expressed mutant H-chains coassemble into holoprotein, suggesting that E-helix is not necessary for assembly of the subunits as reported for human H-chain ferritin. Its ability in iron core formation was proven in an Fe staining gel, the result disagreeing with the observation that the hydrophobic channel is necessary for iron core formation in human H-chain ferritin.

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