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Query: UNIPROT:P02794 (
ferritin
)
17,525
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Multiple homologous sequences for the ferritin L subunit are present in mammalian genomes, but so far, only one expressed gene has been described. Here we report the isolation of a cDNA from a mouse bone marrow library, corresponding to an isoform of the mouse ferritin L subunit. This new subunit, that we named Lg, differs from the L subunit of ten amino acids. Specific amplification of mouse genomic DNA using the polymerase chain reaction (PCR) confirmed the presence of this Lg sequence in the mouse genome but also suggested that it must be encoded by an intronless gene. Using a series of different Lg-specific oligonucleotides as probes, we subsequently isolated a genomic clone containing an uninterrupted sequence, identical to the Lg cDNA. This Lg gene lacks introns and does not contain the 28 base pairs (bp) conserved motif usually present at the 5' end of most
ferritin
mRNAs, which confers translational regulation by iron. When transiently transfected into K562 cells, this Lg genomic clone is actively transcribed, suggesting that, although it possesses the characteristics of a processed
pseudogene
, it is likely to correspond to the gene encoding this new
ferritin
subunit.
...
PMID:A second ferritin L subunit is encoded by an intronless gene in the mouse. 154 9
This paper addresses the question of whether abnormalities in
ferritin
expression in the iron storage disease hemochromatosis (HC) involve major deletions or alterations in regions containing the two
ferritin
H genes that lie near the disease locus on chromosome 6p. We present evidence from analyses of Southern blots that neither gene is deleted in hemochromatosis. We also describe a polymorphism in one of the genes that we have previously shown to be a processed
pseudogene
. This polymorphism does not correlate with the presence of HC. The PIC value for this polymorphism was calculated as 0.49.
...
PMID:Polymorphism in a ferritin H gene from chromosome 6p. 167 57
We have used a somatic cell hybrid regional mapping panel for the short arm of chromosome 6, linkage analysis and a population study to map in detail a previously described ferritin heavy chain
pseudogene
sequence on chromosome 6. Our results show that this sequence maps to the short arm of chromosome 6 centromeric to the glyoxylase locus. The
ferritin
pseudogene
locus is thus distant from the locus for the iron storage disease haemochromatosis, confirming previous evidence that this sequence is not a candidate for the haemochromatosis gene.
...
PMID:Fine mapping of a human chromosome 6 ferritin heavy chain pseudogene: relevance to haemochromatosis. 175 92
We have found by analyses of human-hamster hybrid cells that two human
ferritin
H genes lie near the locus of the iron storage disease idiopathic hemochromatosis on chromosome 6p. One of these genes was isolated and shown to be a processed
pseudogene
. Comparison of its sequence with those of other
ferritin
H pseudogenes indicates that they may be derived from a functional H gene other than that on chromosome 11.
...
PMID:Identification of two human ferritin H genes on the short arm of chromosome 6. 230 64
Two types of
ferritin
heavy (H) chain clones have been isolated from cDNA libraries of human fetal and adult brain: one corresponds to the
ferritin H chain mRNA
that is abundant in liver and is called "liver-like" brain cDNA; the other contains an additional 279 nucleotide (nt) sequence in the 3' untranslated region and is called brain
ferritin
H chain cDNA. To map the 279-nt sequence, polymerase chain reaction (PCR) amplification was carried out using DNA from rodent x human hybrid cell lines containing single human chromosomes as templates, and oligomeric primers homologous to the 3' end of the 279-nt sequence (primer A) and to a coding sequence just 5' to the 279-nt sequence. Significant PCR product of the size expected from analysis of the brain
ferritin
H chain cDNA clones and a genomic
ferritin
H chain clone (487 bp) was generated only from hybrid-cell DNA containing human chromosome 11. This PCR product and the "liver-like" brain cDNA (lacking the 279-nt sequence) both hybridized to chromosome 11 fragments that are known to define the well-characterized functional liver
ferritin
H chain gene and a putative
pseudogene
. Preliminary data indicate that primer A (and thus the 279-nt sequence) maps to the functional
ferritin
H chain gene fragments, but binding to the
pseudogene
has not been ruled out.
...
PMID:Localization of a new ferritin heavy chain sequence present in human brain mRNA to chromosome 11. 755 58
The human gene coding for the
apoferritin H subunit
belongs to a complex multigene family constituted by the expressed gene and by an undefined number of pseudogenes. We have used a strategy based on PCR to amplify specifically the H pseudogenes from a sample of human genomic DNA. With this approach, three new H pseudogenes have been cloned and characterized by DNA sequence analysis. In addition, we have identified a new type of
pseudogene
, the size of which (700 bp) is caused by multiple detection events in the putative coding region.
...
PMID:PCR analysis of the H ferritin multigene family reveals the existence of two classes of processed pseudogenes. 758 Aug 90
This note describes a
ferritin
H
pseudogene
and its mapping to chromosome 4 with a hybrid cell panel. This FTH sequence contains an unusual insertion which suggests it could be a retrotranscript of a new functional FTH gene.
...
PMID:An unusual human ferritin H sequence from chromosome 4. 761 29
Thyroid hormone (T3) regulates the expression of rat TSH beta-subunit (TSH beta) mRNA, in part, at the posttranscriptional level, by reducing the half-life of TSH beta mRNA. The mechanism(s) mediating this alteration in mRNA stability are unknown, but previous work indicates that labile protein(s) are involved. The majority of cis-acting elements identified to date that have been implicated in the regulated destabilization of mRNAs have been located in the 3'-untranslated region (3'-UTR) of the mRNA. The 3'-UTR of rat, murine, and human TSH beta mRNA is highly conserved, and within this region is a 12-nucleotide consensus sequence, which is shared by the 3'-UTR of several other genes with unstable mRNAs. We reasoned that this homologous region could represent a binding motif for specific trans-acting RNA-binding protein(s), and that identification and characterization of such trans-acting factor(s) may provide critical insight into the mechanisms underlying T3-induced changes in TSH beta mRNA stability. Utilizing the RNA electrophoretic mobility shift assay and analysis of UV cross-linked RNA-protein complexes, a cytoplasmic trans-acting factor of approximately 80-85 kilodaltons was identified from rat pituitaries and several cell lines that binds in a sequence-specific manner to the 3'-UTR of rat TSH beta mRNA. Using competitive antisense oligonucleotides, the predominant binding site was mapped to the first 41 nucleotides of the 3'-UTR, which includes the consensus region. However, sequence upstream of the consensus was also shown to be important for binding. Using RNA electrophoretic mobility shift assay, two mRNAs containing sequence homology with the consensus region, c-erbA alpha-2 and a rat
ferritin
pseudogene
, were shown to specifically compete with rat TSH beta mRNA for binding of this factor. Remarkably, the binding activity of this factor was regulated positively by T3 within 4 h, but only with rat pituitary extracts. These data suggest that in addition to binding rat TSH beta mRNA in a sequence-specific and T3-regulated manner, this novel trans-acting RNA-binding protein may also bind to other cytoplasmic mRNAs involved in diverse intracellular processes.
...
PMID:Regulated specific protein binding to a conserved region of the 3'-untranslated region of thyrotropin beta-subunit mRNA. 777 83
We have looked for genes for
ferritin
and its translational control protein that could account for anomalies in the expression of
ferritin
(FT) and the transferrin receptor in the duodenum of individuals with hemochromatosis (HC). We show that there are probably only two FTH-like sequences near the HC locus on the short arm of chromosome 6 and no FTL-like sequences. We report the cloning of the previously uncharacterized FTH sequence from 6p (FTHL15) and show that it is probably a processed
pseudogene
. This gene has been mapped with a panel of radiation hybrid cells to near 6p12. Additionally, we show that there are no sequences on chromosome 6p for a protein that coordinately regulates expression of
ferritin
and the transferrin receptor.
...
PMID:Exclusion of ferritins and iron-responsive element (IRE)-binding proteins as candidates for the hemochromatosis gene. 804 62
Bacteria have developed a series of iron-scavenging and transport systems. The expression of many of the iron utilization genes is tightly regulated by the Fe2+ loaded Fur repressor protein. In this study, the Fur titration assay (FURTA) was used to screen for DNA fragments from a genomic DNA library of Photobacterium damselae ssp. piscicida containing potential Fe2+ Fur binding sites or iron binding-proteins which withdraw iron from Fur. One of the clones encoded a tonB gene and adjacent a functionally related exbB gene. An additional and complete tonB exbB exbD gene cluster was identified and sequenced. A gene homologous to the
ferritin
gene was found whose FURTA-positive phenotype may be explained by its iron-binding ability. Genes encoding a putative complete iron-regulated outer membrane transport protein and a
pseudogene
of a transport protein were found. The FURTA assay also revealed iron regulation of the AraC type transcriptional regulation.
...
PMID:Identification of Fur regulated genes in the bacterial fish pathogen Photobacterium damselae ssp. piscicida using the Fur titration assay. 1568 15
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