Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P02794 (ferritin)
17,525 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ultrastructural, flow cytometric, and molecular studies were performed on leukemia cells from bone marrow and pleural effusion of a 6-year-old boy diagnosed with undifferentiated (MO) leukemia, using routine histology and immunostains at diagnosis and relapse. Ultrastructurally, surface and/or intracellular ferritin particles were present on or in some blasts and the majority of blasts contained identifiable acid ferrocyanide reactive inorganic iron comparable to that seen in normal early erythroblasts. The cells lacked other evidence of differentiation, including diaminobenzidine-reactive or immunoreactive hemoglobin. Flow cytometric analysis of malignant cells showed a lack of lymphoid or myeloid markers. Anti-transferrin receptor antibody was positive on 93% of cells and antibody to glycophorin A reacted with 23% of cells. RNA blot analysis of leukemia cells with myeloperoxidase (MPO) showed an absence of appreciable levels of MPO mRNA. Chromosome analysis showed 51,XY, t(1;16)(p31;q24), +6, +10, +15, +19, +21. The oncogene c-myb, which is specifically expressed and regulated in hematopoietic cells and produces a DNA-binding protein responsible for myeloid differentiation, was found to be duplicated in the patient's tumor cells. Expression of c-jun, N-ras, c-myc, and p53 was normal. The data indicate that the malignant cells in this patient are of early erythroid lineage at diagnosis and relapse and that classification of cell lineage can be enhanced by ultrastructural Prussian blue staining. The failure of this otherwise undifferentiated leukemia to express or evolve into a myeloid phenotype is biologically and clinically distinct from previously described cases of erythroid and myeloid leukemia and may represent a previously unidentified phenotype which should be included in the spectrum of 'undifferentiated' childhood leukemia.
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PMID:Childhood undifferentiated leukemia with early erythroid markers and c-myb duplication. 170 34

In the search for diabetes genes, the combined approaches of positional cloning with random markers and subsequent evaluation of candidate genes mapping to areas of interest will be increasingly used. For islet candidate genes of unknown function, expressed trinucleotide (triplet) repeats represent a unique subset. It is unlikely that abnormal expansion of expressed islet triplet repeats would be a major cause of diabetes, yet the triplet repeats are frequently polymorphic and can thus be used to map the genes in the human genome. In this study, a human islet cDNA library was screened with (CGG)7 and (CAG)7, and 23 triplet repeats were isolated. Sequencing revealed four known and six novel islet genes containing 4-15 triplet repeats. The four known cDNAs included ferritin, the major iron-binding protein in cells; HSGSA2R, a full-length clone of the alpha-subunit of the G-regulatory protein; HUMSATB1A, a DNA-binding protein expressed predominantly in thymus; and HUMPPA-PRO, a ribosomal protein. The triplet repeats in ferritin and HUMPPAPRO were found to be monomorphic. Characterization of the six unique novel expressed islet triplet cDNAs revealed that they were 0.6-1.5 kb in size, contained 4-15 triplet repeats, and were expressed in islets and all other tissues examined. Four of the novel clones, CGG-isl 10, CGG-isl 11, CAG-isl 6, and CAG-isl 7, were mapped to human chromosomes 19, 16, 12, and 3, respectively, via somatic cell hybrids. One islet cDNA, CAG-isl 7, contained a repeat that was highly polymorphic, with 14 alleles (4-18 triplets) in African-Americans (heterozygosity = 0.86) and 6 alleles (heterozygosity = 0.77) in whites. Northern analysis indicated that the mRNA was abundant in pancreatic islets. A putative full-length clone contained an open reading frame encoding 213 amino acids with a variable number of alanines (4-18) within the COOH-terminal. The gene was uniquely mapped with odds > 1,000:1 on chromosome 3p in Centre d'Etude du Polymorphisme Humain pedigrees. There were no differences in CAG-isl 7 allele frequencies between African-American patients with NIDDM (n = 108) and control subjects (n = 116), nor was expansion above 18 repeats noted. Linkage analysis in 14 nonglucokinase maturity-onset diabetes of the young pedigrees showed a cumulative logarithm of odds score of -33.19 at theta = 0.00. Abnormal expansion was not observed in 20 IDDM patients with one NIDDM parent. While these data suggest no major role for CAG-isl 7 in diabetes, at least four of the six novel islet triplet genes are coexpressed in pancreatic islets and neural tissue, and these genes can now be considered as candidates for diabetes and/or neuropsychiatric diseases.
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PMID:Identification of trinucleotide repeat-containing genes in human pancreatic islets. 854 59

The crystal structure of Dps, a DNA-binding protein from starved E. coli that protects DNA from oxidative damage, has been solved at 1.6 A resolution. The Dps monomer has essentially the same fold as ferritin, which forms a 24-mer with 432 symmetry, a hollow core and pores at the three-fold axes. Dps forms a dodecamer with 23 (tetrahedral) point group symmetry which also has a hollow core and pores at the three-folds. The structure suggests a novel DNA-binding motif and a mechanism for DNA protection based on the sequestration of Fe ions.
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PMID:The crystal structure of Dps, a ferritin homolog that binds and protects DNA. 954 21

An iron-rich protein, DpsA(Hsal), was isolated from the archaeon Halobacterium salinarum sharing a sequence identity of 35% with the starvation-induced DNA-binding protein, DpsA, of Synechecoccus sp. PCC7942. It consists of 20-kDa subunits forming a dodecameric structure. The protein exhibits a ferric iron loading of up to 100 Fe ions per mole of holoprotein. CD spectra and secondary structure calculations are consistent with an alpha-helical contribution of 60%. The UV/VIS spectrum provides no evidence for the presence of heme groups. This protein exhibits features of a non-heme type bacterial ferritin (Ftn) although it shares only little sequence homology with Ftn. Molecular modelling disclosed a high structural similarity to E. coli Dps.
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PMID:The DpsA-homologue of the archaeon Halobacterium salinarum is a ferritin. 1214 54

An iron-rich protein was isolated from the Archaeon Halobacterium salinarum sharing a sequence identity of 35% with the starvation-induced DNA-binding protein, DpsA, of Synechecoccus sp. PCC 7942. It consists of 20 kDa subunits, forming a dodecameric structure. The protein exhibits a ferric iron loading of up to 103 Fe ions/mol of holoprotein. CD spectra are consistent with an alpha-helical contribution of 58%. The UV/visible spectrum provides no evidence for the presence of haem groups. This protein exhibits features of a non-haem-type bacterial ferritin although it shares only little sequence homology with non-haem bacterial ferritin.
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PMID:Characterization of a non-haem ferritin of the Archaeon Halobacterium salinarum, homologous to Dps (starvation-induced DNA-binding protein). 1219 73

Evolution of an oxygenic atmosphere required primordial life to accommodate the toxicity associated with reactive oxygen species. We have characterized an archaeal antioxidant from the hyperthermophilic acidophile Sulfolobus solfataricus. The amino acid sequence of this approximately 22-kDa protein shares little sequence similarity with proteins with known function. However, the protein shares high sequence similarity with hypothetical proteins in other archaeal and bacterial genomes. Nine of these hypothetical proteins form a monophyletic cluster within the broad superfamily of ferritin-like diiron-carboxylate proteins. Higher order structural predictions and image reconstructions indicate that the S. solfataricus protein is structurally related to a class of DNA-binding protein from starved cells (Dps). The recombinant protein self assembles into a hollow dodecameric protein cage having tetrahedral symmetry (SsDps). The outer shell diameter is approximately 10 nm, and the interior diameter is approximately 5 nm. Dps proteins have been shown to protect nucleic acids by physically shielding DNA against oxidative damage and by consuming constituents involved in Fenton chemistry. In vitro, the assembled archaeal protein efficiently uses H2O2 to oxidize Fe(II) to Fe(III) and stores the oxide as a mineral core on the interior surface of the protein cage. The ssdps gene is up-regulated in S. solfataricus cultures grown in iron-depleted media and upon H2O2 stress, but is not induced by other stresses. SsDps-mediated reduction of hydrogen peroxide and possible DNA-binding capabilities of this archaeal Dps protein are mechanisms by which S. solfataricus mitigates oxidative damage.
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PMID:An archaeal antioxidant: characterization of a Dps-like protein from Sulfolobus solfataricus. 1602 30

The ferritin-like DNA-binding protein from starved cells (Dps) family proteins are present in a number of pathogenic bacteria. Dps in the enterohepatic pathogen, Helicobacter hepaticus is characterized and a H. hepaticus dps mutant was generated by insertional mutagenesis. While the wild type H. hepaticus cells were able to survive in an atmosphere containing up to 6.0% O2, the dps mutant failed to grow in 3.0% O2, and it was also more sensitive to oxidative reagents like H2O2, cumene hydroperoxide and t-butyl hydroperoxide. Upon air exposure, the dps- cells had more damaged DNA than the wild type; they became coccoid or lysed and they contained approximately 6-fold higher amount of 8-oxoguanine (8-oxoG) DNA lesions than wild type cells. Purified H. hepaticus Dps was shown to be able to bind both iron and DNA. The iron-loaded form of Dps protein had much greater DNA binding ability than the native Dps or the iron-free Dps.
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PMID:Helicobacter hepaticus Dps protein plays an important role in protecting DNA from oxidative damage. 1675 37

To survive in host cells, intracellular pathogens or symbiotic bacteria require protective mechanisms to overcome the oxidative stress generated by phagocytic activities of the host. By genomic library tagging, we cloned a dps (stands for DNA-binding protein from starved cells) gene of the symbiotic "Candidatus Legionella jeonii" organism (called the X bacterium) (dps(X)) that grows in Amoeba proteus. The gene encodes a 17-kDa protein (pI 5.19) with 91% homology to Dps and DNA-binding ferritin-like proteins of other organisms. The cloned gene complemented the dps mutant of Escherichia coli and conferred resistance to hydrogen peroxide. Dps(X) proteins purified from E. coli transformed with the dps(X) gene were in oligomeric form, formed a complex with pBlueskript SKII DNA, and protected the DNA from DNase I digestion and H(2)O(2)-mediated damage. The expression of the dps(X) gene in "Candidatus Legionella jeonii" was enhanced when the host amoeba was treated with 2 mM H(2)O(2) and by phagocytic activities of the host cell. These results suggested that the Dps protein has a function protective of the bacterial DNA and that its gene expression responds to oxidative stress generated by phagocytic activities of the host cell. With regard to the fact that invasion of Legionella sp. into respiratory phagocytic cells causes pneumonia in mammals, further characterization of dps(X) expression in the Legionella sp. that multiplies in a protozoan host in the natural environment may provide valuable information toward understanding the protective mechanisms of intracellular pathogens.
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PMID:The dps gene of symbiotic "Candidatus Legionella jeonii" in Amoeba proteus responds to hydrogen peroxide and phagocytosis. 1695 Sep 18

Dps, a ferritin-like DNA-binding protein, protects bacterial DNA against oxidative stress and hyper-compacts the nucleoid into a crystalline-like structure. In Escherichia coli, transcription of dps from a single promoter is directed by sigma S-RNA polymerase in stationary phase and by sigma 70-RNA polymerase in fast-dividing cells exposed to oxidative stress. In this issue of Molecular Microbiology, Grainger and co-workers demonstrate that the nucleoid-associated proteins, FIS and H-NS, control sigma factor selection at the dps promoter by a novel mechanism. The finding suggests a simple mechanism of growth phase control of Dps production and has implications for the response to oxidative stress by pathogenic enterobacteria.
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PMID:Fine-tuned growth phase control of dps, encoding a DNA protection protein, by FIS and H-NS. 1845 10

Ferritins are members of a much larger superfamily of proteins, which are characterised by a structural motif consisting of a bundle of four parallel and anti-parallel alpha helices. The ferritin superfamily itself is widely distributed across all three living kingdoms, in both aerobic and anaerobic organisms, and a considerable number of X-ray structures are available, some at extremely high resolution. We describe first of all the subunit structure of mammalian H and L chain ferritins and then discuss intersubunit interactions in the 24-subunit quaternary structure of these ferritins. Bacteria contain two types of ferritins, FTNs, which like mammalian ferritins do not contain haem, and the haem-containing BFRs. The characteristic carboxylate-bridged di-iron ferroxidase sites of H chain ferritins, FTNs and BFRs are compared, as are the potential entry sites for iron and the 'nucleation' site of L chain ferritins. Finally we discuss the three-dimensional structures of the 12-subunit bacterial Dps (DNA-binding protein from starved cells) proteins as well as their intersubunit di-iron ferroxidase site.
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PMID:X-ray structures of ferritins and related proteins. 2036 95


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