Add to ORKGIn plants, intracellular Fe trafficking must satisfy both chloroplastic and mitochondrial demands for Fe without allowing its accumulation in the organelles, in dangerous, redox-active forms. The Fe storage protein ferritin is involved in such intracellular control of Fe trafficking and homeostasis in both organelles; indeed it can be targeted to chloroplasts (as known since years) but also to mitochondria [1-3]. The recent characterization of Arabidopsis atfer4 mutants knock-out for the ferritin isoform targeted also to mitochondria [2,3], unveiled a putative signalling role of ferritin, beside its known role as Fe store; the fact that Fe trafficking is affected in heterotrophic atfer4 mutant cells [2], but not in atfer4 plants [3], posed...
In this work, evidence for the presence of ferritins in plant mitochondria is supplied. Mitochondria...
Mitochondria and chloroplasts are organelles with high iron demand that are particularly susceptible...
Fe is essential for all cells because it is the cofactor of numerous proteins, however, excess free ...
Intracellular Fe trafficking must satisfy both chloroplastic and mitochondrial demands for Fe withou...
Although iron has a major role in mitochondrial activity, the processes of iron transport, trafficki...
for Fe without allowing its accumulation in the organelles in dangerous redox-active forms. Protein ...
Although iron has a major role in mitochondrial activity, the processes of iron transport, trafficki...
Iron is an essential element for all living organisms, although it can be very toxic to cell because...
Although iron has a major role in mitochondrial activity, the processes of iron transport, trafficki...
In plants, the iron storage protein ferritin can be targeted to both chloroplasts and mitochondria. ...
Iron is an essential element for all living organisms, although it can be very toxic to cell. This d...
Iron sequestration inside the plant cell may be accomplished by ferritins, a class of proteins able ...
Ferritins are iron-storage proteins which, in Arabidopsis, have a clear role in protection against o...
Iron is an essential element for all living organisms. Coordinated to metallo-protein active sites, ...
Ferritins are iron-storage proteins involved in the environmental and developmental control of the f...
In this work, evidence for the presence of ferritins in plant mitochondria is supplied. Mitochondria...
Mitochondria and chloroplasts are organelles with high iron demand that are particularly susceptible...
Fe is essential for all cells because it is the cofactor of numerous proteins, however, excess free ...
Intracellular Fe trafficking must satisfy both chloroplastic and mitochondrial demands for Fe withou...
Although iron has a major role in mitochondrial activity, the processes of iron transport, trafficki...
for Fe without allowing its accumulation in the organelles in dangerous redox-active forms. Protein ...
Although iron has a major role in mitochondrial activity, the processes of iron transport, trafficki...
Iron is an essential element for all living organisms, although it can be very toxic to cell because...
Although iron has a major role in mitochondrial activity, the processes of iron transport, trafficki...
In plants, the iron storage protein ferritin can be targeted to both chloroplasts and mitochondria. ...
Iron is an essential element for all living organisms, although it can be very toxic to cell. This d...
Iron sequestration inside the plant cell may be accomplished by ferritins, a class of proteins able ...
Ferritins are iron-storage proteins which, in Arabidopsis, have a clear role in protection against o...
Iron is an essential element for all living organisms. Coordinated to metallo-protein active sites, ...
Ferritins are iron-storage proteins involved in the environmental and developmental control of the f...
In this work, evidence for the presence of ferritins in plant mitochondria is supplied. Mitochondria...
Mitochondria and chloroplasts are organelles with high iron demand that are particularly susceptible...
Fe is essential for all cells because it is the cofactor of numerous proteins, however, excess free ...