Exploration of Iron and Copper Homeostasis in the Belgrade Rat Model of Iron Deficiency

“…It presents in high concentrations and is closely related to the enzyme catalysis and electron transfer process. It exists in the human body as either Cu (I) or Cu (II) [2]. The shift between these two oxidation states shows their role in oxidation and reduction reactions in the phosphorylation pathway.…”

“…It participates in the function of cuproenzyme which is important in connective tissue formation, nerve transmission, iron homeostasis and angiogenesis. Copper is essentially involved in many proteins including ceruloplasmin, cytochrome c oxidase, dopamine β-hydroxylase and hephaestin [2]. Also, due to its essential role in participating in redox reactions, free copper could be toxic.…”

“…Excessive amount of iron in the human body causes cellular dysfunction and damage, hemochromatosis and bronze diabetes. Likewise, a insufficient amount of iron ions results in decreased intestinal absorption, disruption of hemoglobin transport of oxygen and mutations in the iron response elements of iron regulated mRNAs [2]. Here, the detection of both Fe (II) and Fe (III) will be given.…”

Review of the detection of metal ions using fluorescent probes

“…It presents in high concentrations and is closely related to the enzyme catalysis and electron transfer process. It exists in the human body as either Cu (I) or Cu (II) [2]. The shift between these two oxidation states shows their role in oxidation and reduction reactions in the phosphorylation pathway.…”

“…It participates in the function of cuproenzyme which is important in connective tissue formation, nerve transmission, iron homeostasis and angiogenesis. Copper is essentially involved in many proteins including ceruloplasmin, cytochrome c oxidase, dopamine β-hydroxylase and hephaestin [2]. Also, due to its essential role in participating in redox reactions, free copper could be toxic.…”

“…Excessive amount of iron in the human body causes cellular dysfunction and damage, hemochromatosis and bronze diabetes. Likewise, a insufficient amount of iron ions results in decreased intestinal absorption, disruption of hemoglobin transport of oxygen and mutations in the iron response elements of iron regulated mRNAs [2]. Here, the detection of both Fe (II) and Fe (III) will be given.…”

Review of the detection of metal ions using fluorescent probes