Cells require iron as a cofactor for proteins that are essential for growth. While delivery of iron to cells by transferrin is well known, Li et al. in this issue of Developmental Cell show that ferritin, through its binding to the cell surface Scara5 receptor, can also deliver iron to cells, permitting kidney organogenesis
There is a critical relationship between oligodendrocyte development, myelin production, and iron bi...
Eukaryotic cells contain hundreds of proteins that require iron cofactors for activity. These iron e...
Iron is the trace element. We get the iron from the dietary sources. The enterocytes lining the uppe...
Cells require iron as a cofactor for proteins that are essential for growth. While delivery of iron ...
SummaryDeveloping organs require iron for a myriad of functions, but embryos deleted of the major ad...
Cellular iron metabolism. Iron is essential for oxidation-reduction catalysis and bioenergetics, but...
AbstractIron transport occurs by the well-known transferrin (Tf)-transferrin receptor (Tf receptor) ...
The transferrin receptor (TR) is the vehicle through which transferrin delivers iron to the intracel...
The exact route of iron through the kidney and its regulation during iron overload are not completel...
AbstractWe studied transport of non-transferrin iron into HeLa cells adapted for growth in defined m...
Ferritin is considered the major iron storage protein which maintains a large iron core in its cavit...
The role o f iron in cell division, cell death and human disease has recently gained increased atten...
Iron belongs among the trace elements and its role in humans is irreplaceable. Up to 5 g of iron can...
Ferritin is a spherical molecule composed of 24 subunits of two types, ferritin H chain (FHC) and fe...
<p>Transferrin (purple rhombus) binds two ferric iron atoms (orange squares) and circulates in the b...
There is a critical relationship between oligodendrocyte development, myelin production, and iron bi...
Eukaryotic cells contain hundreds of proteins that require iron cofactors for activity. These iron e...
Iron is the trace element. We get the iron from the dietary sources. The enterocytes lining the uppe...
Cells require iron as a cofactor for proteins that are essential for growth. While delivery of iron ...
SummaryDeveloping organs require iron for a myriad of functions, but embryos deleted of the major ad...
Cellular iron metabolism. Iron is essential for oxidation-reduction catalysis and bioenergetics, but...
AbstractIron transport occurs by the well-known transferrin (Tf)-transferrin receptor (Tf receptor) ...
The transferrin receptor (TR) is the vehicle through which transferrin delivers iron to the intracel...
The exact route of iron through the kidney and its regulation during iron overload are not completel...
AbstractWe studied transport of non-transferrin iron into HeLa cells adapted for growth in defined m...
Ferritin is considered the major iron storage protein which maintains a large iron core in its cavit...
The role o f iron in cell division, cell death and human disease has recently gained increased atten...
Iron belongs among the trace elements and its role in humans is irreplaceable. Up to 5 g of iron can...
Ferritin is a spherical molecule composed of 24 subunits of two types, ferritin H chain (FHC) and fe...
<p>Transferrin (purple rhombus) binds two ferric iron atoms (orange squares) and circulates in the b...
There is a critical relationship between oligodendrocyte development, myelin production, and iron bi...
Eukaryotic cells contain hundreds of proteins that require iron cofactors for activity. These iron e...
Iron is the trace element. We get the iron from the dietary sources. The enterocytes lining the uppe...