Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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Gene/Protein
Disease
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Target Concepts:
Gene/Protein
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Query: UNIPROT:P02794 (
ferritin
)
17,525
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Nonheme iron proteins can be visualized as blue bands in native polyacrylamide gels using a staining method that is both simple and rapid. The reaction of potassium ferricyanide with protein-bound iron atoms to form royal blue complexes occurs almost instantaneously and is sensitive enough to detect 1 microgram of analytical-grade
ferritin
and 2 micrograms of purified ferredoxin from cyanobacteria. No special treatment of reagents or apparatus was necessary. On comparison, this stain was found to be more specific than the
Ferene
S stain, not detecting bovine serum albumin even when present as a hundredfold excess over
ferritin
. The method was found to be effective for isoelectric focusing gels as well.
...
PMID:A specific stain for the detection of nonheme iron proteins in polyacrylamide gels. 128 87
Previous studies have shown that lenticular levels of Fe and Cu are elevated in age-related cataract. However, it is not known if these metals are present in a state that is permissive for redox reactions that may lead to the formation of free radicals. In addition, there is little data available concerning the concentration and lenticular distribution of
ferritin
, the major intracellular Fe-sequestering protein, in the lens. The aim of the present work was therefore to determine the distribution of
ferritin
and the redox-availability of Fe and Cu in healthy and cataractous lenses. Lens
ferritin
distribution was assessed by ELISA and immunohistochemistry. A modified ELISA detected
ferritin
in an 'insoluble' lens protein fraction. Ferritin levels were not significantly different in the cortex vs nucleus of healthy lenses. In contrast,
ferritin
levels in the cataractous lens nuclei appeared to be 70% lower compared to the cortex. This was at least partially due to the presence of
ferritin
within an insoluble protein fraction of the homogenized lenses. In normal lenses,
ferritin
staining was most intense in the epithelium, with diffuse staining observed throughout the cortex and nucleus. The redox-availability of lenticular metals was determined using: (1) autometallography; (2)
Ferene
-S as a chromogenic Fe chelator; and (3) NO release from nitrosocysteine to probe for redox-active Cu. The autometallography studies showed that the cataractous lenses stained more heavily for redox-active metals in both the nucleus and cortex when compared to age-matched control lenses. Chelatable Fe was detected in homogenized control lenses after incubation with
Ferene
-S, with almost three-fold higher levels detected in the cataractous lenses on average. The Cu-catalysed liberation of NO from added nitrosocysteine was not demonstrated in any lens sample. When exogenous Cu (50 n M) was added to the lenses, it was rapidly chelated. The cataractous samples were approximately twice as effective at redox-inactivation of added Cu. These studies provide evidence that a chelatable pool of potentially redox-active Fe is present at increased concentrations in human cataractous lenses. In contrast, it seems that lenticular Cu may not be readily available for participation in redox reactions.
...
PMID:Distribution of ferritin and redox-active transition metals in normal and cataractous human lenses. 1109 12
Ferritin, an iron-binding protein, was purified from the larval hemolymph of the wax moth, Galleria mellonella by KBr density ultracentrifugation and FPLC (Superose 6). The iron content of
ferritin
was determined by atomic emission spectroscopy and
Ferene
S stain. Native molecular mass of
ferritin
was estimated as 630 kDa. SDS-PAGE revealed that the
ferritin
consists of two major polypeptides of 26 and 32 kDa and one minor polypeptide of 30 kDa. An isoelectric point of
ferritin
was measured to be approximately 7.3 and only the 32-kDa subunit is glycosylated. The
ferritin
contains large amounts of lysine, glutamine, glutamic acid and leucine but tryptophan was not detected. Electron microscopic examination of negatively stained preparations showed an 11-nm particle in external diameter and 7-nm iron core. Ferritin is present in both the ovary and testis. Localization of
ferritin
by immunoelectron microscopy in ovary and testis revealed that the gold particles were located in vitelline membrane and yolk granules but not in follicular epithelium of ovary. In the testis, the gold particles were located in testicular fluid and lumen of vas deferens.
...
PMID:Characterization and immunological analysis of ferritin from the hemolymph of Galleria mellonella. 1142 20
