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Query: UNIPROT:P02794 (
ferritin
)
17,525
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The primary structure of
artemin
, a major protein isolated from Artemia cysts, has been determined by direct Edman degradation of the purified protein. The amino-terminal acetylated protein has 229 amino acid residues and a high content of histidine and cysteine/cystine. A search in the GenBank Data Base at Los Alamos, using the FASTA program [Pearson, W. R. & Lipman, D. J. (1988) Proc. Natl. Acad. Sci. USA 85, 2444-2448] revealed a limited but unmistakable similarity to
ferritin
from vertebrates.
...
PMID:The primary structure of artemin from Artemia cysts. 224 91
Embryos of the brine shrimp, Artemia franciscana, exhibit remarkable resistance to physiological stress, which is temporally correlated with the presence of two proteins, one a small heat shock/alpha-crystallin protein termed p26 and the other called
artemin
, of unknown function.
Artemin
was sequenced previously by Edman degradation, and its relationship to
ferritin
, an iron storage protein, established. The isolation from an Artemia expressed sequence tag library of
artemin
and
ferritin
cDNAs extends this work.
Artemin
cDNA was found to contain an ORF of 693 nucleotides, and its deduced amino-acid sequence, except for the initiator methionine, was identical with that determined previously. Ferritin cDNA is 725 bp in length with an ORF of 516 nucleotides.
Artemin
amino-acid residues 32-185 are most similar to
ferritin
, but
artemin
is enriched in cysteines. The abundance of cysteines and their intramolecular spatial distribution suggest that
artemin
protects embryos against oxidative damage and/or that its function is redox regulated. The conserved regions in
artemin
and
ferritin
monomers are structurally similar to one another and both proteins assemble into oligomers. However, modeling of the quaternary structure indicated that
artemin
multimers lack the central space used for metal storage that characterizes
ferritin
oligomers, implying different roles for this protein. Probing of Northern blots revealed two
artemin
transcripts, one of 3.5 kb and another of 2.2 kb. These transcripts decreased in parallel and had almost disappeared by 16 h of development. The
ferritin
transcript of 0.8 kb increased slightly during reinitiation of development, then declined, and was almost completely gone by 16 h. Clearly, the loss of
artemin
and
ferritin
during embryo development is due to transcriptional regulation and proteolytic degradation of the proteins.
...
PMID:Molecular characterization of artemin and ferritin from Artemia franciscana. 1249 84
Embryos of the brine shrimp, Artemia franciscana, either develop directly into swimming larvae or are released from females as encysted gastrulae (cysts) which enter diapause, a reversible state of dormancy. Metabolic activity in diapause cysts is very low and these embryos are remarkably resistant to physiological stresses. Encysting embryos, but not those undergoing uninterrupted development, synthesize large amounts of two proteins, namely p26 and
artemin
. Cloning and sequencing demonstrated p26 is a small heat shock/alpha-crystallin protein while
artemin
has structural similarity to
ferritin
. p26 exhibits molecular chaperone activity in vitro, moves reversibly into nuclei during stress and confers thermotolerance on transformed organisms, suggesting critical roles in cyst development. The function of
artemin
is unknown. Encysted Artemia also contain an abundance of trehalose, a disaccharide capable of protecting embryos. Artemia represent a novel experimental system where the developmental functions of small heat shock/alpha-crystallin proteins and other stress response elements can be explored.
...
PMID:Molecular chaperones, stress resistance and development in Artemia franciscana. 1498 54
Oviparously developing embryos of the crustacean Artemia franciscana encyst and enter diapause, exhibiting a level of stress tolerance seldom seen in metazoans. The extraordinary stress resistance of encysted Artemia embryos is thought to depend in part on the regulated synthesis of
artemin
, a
ferritin
superfamily member. The objective of this study was to better understand
artemin
function, and to this end the protein was synthesized in Escherichia coli and purified to apparent homogeneity. Purified
artemin
consisted of oligomers approximately 700 kDa in molecular mass that dissociated into monomers and a small number of dimers upon SDS/PAGE.
Artemin
inhibited heat-induced aggregation of citrate synthase in vitro, an activity characteristic of molecular chaperones and shown here to be shared by
apoferritin
and
ferritin
. This is the first report that
apoferritin
/
ferritin
may protect cells from stress other than by iron sequestration. Stably transfected mammalian cells synthesizing
artemin
were more resistant to heat and H(2)O(2) than were cells transfected with vector only, actions also shared by molecular chaperones such as the small heat shock proteins. The data indicate that
artemin
is a structurally modified
ferritin
arising either from a common ancestor gene or by duplication of the
ferritin
gene. Divergence, including acquisition of a C-terminal peptide extension and ferroxidase center modification, eliminated iron sequestration, but chaperone activity was retained. Therefore, because
artemin
accumulates abundantly during development, it has the potential to protect embryos from stress during encystment and diapause without adversely affecting iron metabolism.
...
PMID:Functional characterization of artemin, a ferritin homolog synthesized in Artemia embryos during encystment and diapause. 1725 68
Artemia cysts can tolerate extreme environments, partly due to a heat-stable protein called
artemin
. According to previous studies,
artemin
shares structural similarity with ferritins. Actually, there is still no strong structural information about
artemin
three-dimensional (3-D) structure. In this research, the
artemin
encoding gene from Artemia urmiana was cloned and sequenced. A reliable 3-D model of
artemin
was initially built using
ferritin
as template and refined using Molecular Dynamic (MD) Simulation. It is interesting that the proposed model, confirmed by circular dichroism (CD), shows significant differences in secondary structure contents with
ferritin
. Three conserved regions (ferroxidase center, iron nucleation center and 3-fold channel) in ferritins, cooperating in iron-interaction, have been substantially changed in
artemin
. Analysis of C-terminal region of the model revealed its major role in preventing
artemin
from iron-binding due to some suitable interactions. Finally, it is concluded that significant differences between
artemin
and
ferritin
, both in conserved regions related to iron-interaction and three-dimensional structure, can justify their functional differences.
...
PMID:Sequence and structural analysis of artemin based on ferritin: a comparative study. 1948 49
Diapause-destined embryos of the crustacean, Artemia franciscana, accumulate large amounts of an oligomeric, heat-stable, molecular chaperone termed
artemin
, a cysteine-enriched
ferritin
homologue. In this study, cysteines 22, 61, 166, and 172 of
artemin
were substituted with alanines, respectively yielding ArtC22A, ArtC61A, ArtC166A, and ArtC172A. Wild-type and modified artemins were synthesized in transformed bacteria and purified. As measured by heat-induced denaturation of citrate synthase in vitro, each substitution reduced chaperone activity, with ArtC172A the least active. Protein modeling indicated that C172 is close to a region of surface hydrophobicity, also present in
ferritin
, suggesting that this site contributes to chaperone activity. Only slight differences in oligomer molecular mass were apparent between
artemin
variants, but ArtC22A and ArtC61A displayed significantly reduced thermostability, perhaps due to the disruption of an inter-subunit disulphide bridge. In contrast, ArtC172A was thermostable, reflecting the location of C172 on the oligomer surface and that it contributes minimally to
artemin
stabilization. To our knowledge, this is the initial study of structure/function relationships within a
ferritin
homologue of importance in diapause and the first to indicate that a defined region of hydrophobicity contributes to
artemin
and
ferritin
chaperoning.
...
PMID:The structural stability and chaperone activity of artemin, a ferritin homologue from diapause-destined Artemia embryos, depend on different cysteine residues. 2087 95
Artemin
acts as a molecular chaperone by protecting Artemia embryos undergoing encystment from damage, caused by heat or other forms of stress. According to the amino acid sequence alignment, although
artemin
shows a fair amount of homology with
ferritin
, it also contains an extra C-terminal. Analysis of the C-terminal extension of
artemin
model in previous studies has shown that there are some favorable interactions between this region and its surrounding cleft. In the current study we tried to investigate the role of this C-terminal in chaperone activity of
artemin
. This extra C-terminal (39 residues) was deleted and the truncated gene was cloned and expressed in Escherichia coli. According to in vivo chaperone-like activity studies, both full-length and C-terminal truncated
artemin
conferred thermotolerance on transfected E. coli cells. However, bacteria expressing truncated derivative of
artemin
was less resistant than those producing native
artemin
against heat. Moreover, the activity recovery on carbonic anhydrase (CA), as protein substrate, was less in the presence of truncated
artemin
than that of full-length
artemin
. The results demonstrated that C-terminal deletion decreases the ability of
artemin
for chaperone-like activity. Theoretical investigations showed that deletion of
artemin
C-terminal extension makes substantial structural alterations in a way that structural stability and overall integrity of
artemin
decrease.
...
PMID:Deletion of extra C-terminal segment and its effect on the function and structure of artemin. 2160 Sep 15
Females of the crustacean Artemia franciscana produce either motile nauplii or gastrula stage embryos enclosed in a shell impermeable to nonvolatile compounds and known as cysts. The encysted embryos enter diapause, a state of greatly reduced metabolism and profound stress tolerance.
Artemin
, a diapause-specific
ferritin
homolog in cysts has molecular chaperone activity in vitro.
Artemin
represents 7.2% of soluble protein in cysts, approximately equal to the amount of p26, a small heat shock protein. However, there is almost twice as much
artemin
mRNA in cysts as compared with p26 mRNA, suggesting that
artemin
mRNA is translated less efficiently. RNA interference employing the injection of
artemin
double-stranded RNA into the egg sacs of A. franciscana females substantially reduced
artemin
mRNA and protein in cysts. Decreasing
artemin
diminished desiccation and freezing tolerance of cysts, demonstrating a role for this protein in stress resistance. Knockdown of
artemin
increased the time required for complete discharge of a brood of cysts carried within a female from a few hours up to 4 days, an effect weakened in successive broods.
Artemin
, an abundant molecular chaperone, contributes to stress tolerance of A. franciscana cysts while influencing their development and/or exit from females.
...
PMID:Artemin, a diapause-specific chaperone, contributes to the stress tolerance of Artemia franciscana cysts and influences their release from females. 2452 27
Oviparously developing embryos of the brine shrimp, Artemia, arrest at gastrulation and are released from females as cysts before entering diapause, a state of dormancy and stress tolerance. Diapause is terminated by an external signal, and growth resumes if conditions are permissible. However, if circumstances are unfavorable, cysts enter quiescence, a dormant stage that continues as long as adverse conditions persist. Artemia embryos in diapause and quiescence are remarkably resistant to environmental and physiological stressors, withstanding desiccation, cold, heat, oxidation, ultraviolet radiation, and years of anoxia at ambient temperature when fully hydrated. Cysts have adapted to stress in several ways; they are surrounded by a rigid cell wall impermeable to most chemical compounds and which functions as a shield against ultraviolet radiation. Artemia cysts contain large amounts of trehalose, a non-reducing sugar thought to preserve membranes and proteins during desiccation by replacing water molecules and/or contributing to vitrification. Late embryogenesis abundant proteins similar to those in seeds and other anhydrobiotic organisms are found in cysts, and they safeguard cell organelles and proteins during desiccation. Artemia cysts contain abundant amounts of p26, a small heat shock protein, and
artemin
, a
ferritin
homologue, both ATP-independent molecular chaperones important in stress tolerance. The evidence provided in this review supports the conclusion that it is the interplay of these protective elements that make Artemia one of the most stress tolerant of all metazoan organisms.
...
PMID:Stress tolerance during diapause and quiescence of the brine shrimp, Artemia. 2633 84
Embryos of the crustacean, Artemia franciscana, may undergo oviparous development, forming encysted embryos (cysts) that are released from females and enter diapause, a state of suppressed metabolism and greatly enhanced stress tolerance. Diapause-destined embryos of A. franciscana synthesize three small heat shock proteins (sHsps), p26, ArHsp21 and ArHsp22, as well as
artemin
, a
ferritin
homologue, all lacking in embryos that develop directly into nauplii. Of these diapause-specific molecular chaperones, p26 and
artemin
are important contributors to the extraordinary stress tolerance of A. franciscana cysts, but how their synthesis is regulated is unknown. To address this issue, a cDNA for heat shock factor 1 (Hsf1), shown to encode a protein similar to Hsf1 from other organisms, was cloned from A. franciscana. Hsf1 was knocked down by RNA interference (RNAi) in nauplii and cysts of A. franciscana. Nauplii lacking Hsf1 died prematurely upon release from females, showing that this transcription factor is essential to the survival of nauplii. Diapause cysts with diminished amounts of Hsf1 were significantly less stress tolerant than cysts containing normal levels of Hsf1. Moreover, cysts deficient in Hsf1 possessed reduced amounts of p26, ArHsp21, ArHsp22 and
artemin
, revealing dependence on Hsf1 for expression of their genes and maximum stress tolerance. The results demonstrate an important role for Hsf1, likely in concert with other transcription factors, in the survival and growth of A. franciscana and in the developmentally regulated synthesis of proteins responsible for the stress tolerance of diapausing A. franciscana cysts.
...
PMID:Stress tolerance in diapausing embryos of Artemia franciscana is dependent on heat shock factor 1 (Hsf1). 2997 76
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