Gene/Protein
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Drug
Enzyme
Compound
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Target Concepts:
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Query: UNIPROT:P02774 (
Gc-globulin
)
196
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The mammalian plasma vitamin D binding protein (DBP), or
Gc-globulin
, is recognized to have at least two functional properties: sterol binding and G-actin sequestration. Affinity labeling of the sterol binding site with the radioactive electrophilic ligand, 3 beta-(bromoacetoxy)-25-hydroxycholecalciferol, followed by limited proteolysis, permitted the isolation and identification of three overlapping peptides in the amino terminus of the molecule. When G-actin affinity chromatography was applied to other proteolytic fragments, two fragments from the carboxy terminus of the molecule were isolated and identified. Another, large, tryptic fragment displayed both sterol- and actin-binding properties. The amino-terminal assignment of the sterol-binding domain was confirmed by demonstrating sterol-specific binding by an in vitro transcribed and translated product of a mutated rat DBP cDNA encoding a protein truncated in its carboxy terminus. The sterol-binding domain was localized to the region between the first-amino-terminal disulfide bond, and the actin-binding domain was found between residues 350 and 403. A high degree of sequence conservation in these regions was found among human, rat, and mouse DBP's. These functional domain assignments confirm the apparent independence of these two binding activities and help to explain the observed triprotein complex of DBP-actin-DNase I and the competition between DBP and
profilin
for G-actin binding. Our findings should facilitate more precise delineation of the binding domains by site-directed mutagenesis experiments.
...
PMID:Identification of the sterol- and actin-binding domains of plasma vitamin D binding protein (Gc-globulin). 164 50
The mechanism of the interaction between two genetically determined serum vitamin D-binding protein forms and the muscle skeletal actin was investigated.
Vitamin D-binding protein
was isolated in a good yield from human serum, using immunoaffinity chromatography. 16 mg of pure vitamin D-binding protein were obtained from 100 ml of serum. The interaction between purified vitamin D-binding protein and skeletal muscle actin was studied by viscosity, delta A (232 nm) measurements and by electron microscopy. The effect of vitamin D-binding protein on actin polymerization is characterized by the decrease of the nucleation and elongation rates and by the decrease of the final concentration of polymerized actin in the steady state. The depolymerizing effect is not the result of direct action on vitamin D-binding protein on F-actin but rather of an increased concentration of the complex of the former protein with G-actin. The characteristics of the vitamin D-binding protein and
profilin
interactions with actin are similar. Both proteins seem to react only with G-actin.
...
PMID:The effect of serum vitamin D-binding protein on polymerization and depolymerization of actin is similar to the effect of profilin on actin. 668 65
Infection of host cells by Listeria monocytogenes results in the recruitment of cytoplasmic actin into a tail-like appendage that projects from one end of the bacterium. Each filamentous actin tail progressively lengthens, providing the force which drives the bacterium in a forward direction through the cytoplasm and later results in Listeria cell-to-cell spread. Host cell actin monomers are incorporated into the filamentous actin tail at a discrete site, the bacterial-actin tail interface. We have studied the consequences of microinjecting three different actin monomer-binding proteins on the actin tail assembly and Listeria intracellular movement. Introduction of high concentrations of
profilin
(estimated injected intracellular concentration 11-22 microM) into infected PtK2 cells causes a marked slowing of actin tail elongation and bacterial migration. Lower intracellular concentrations of two other injected higher affinity monomer-sequestering proteins,
Vitamin D-binding protein
(DBP; 1-2 microM) and DNase I (6-7 microM) completely block bacterial-induced actin assembly and bacterial migration. The onset of inhibition by each protein is gradual (10-20 min) indicating that the mechanisms by which these proteins interfere with Listeria-induced actin assembly are likely to be complex. To exclude the possibility that Listeria recruits preformed actin filaments to generate the tails and that these monomer-binding proteins act by depolymerizing such performed actin filaments, living infected cells have been injected with fluorescently labeled phalloidin (3 microM). Although the stress fibers are labeled, no fluorescent phalloidin is found in the tails of the moving bacteria. These results demonstrate that Listeria-induced actin assembly in PtK2 cells is the result of assembly of actin monomers into new filaments and that Listeria's ability to recruit polymerization competent monomeric actin is very sensitive to the introduction of exogenous actin monomer-binding proteins.
...
PMID:Listeria monocytogenes intracellular migration: inhibition by profilin, vitamin D-binding protein and DNase I. 772 67
