Vanadium biochemical and molecular biological approaches
Since the early 1980s, the biochemical behavior of vanadium has been investigated extensively such as its potent inhibitory role for Na+/K+-ATPase and its participation in insulin-mimicking but also because of the more recent findings on the enzymes and compounds containing vanadium. In addition, knowledge of the medicinal applications of vanadium such as the biochemical roles of its compounds in bone development, cellular mechanisms, signaling pathways and anti-cancer agents has increased enormously. Vanadium: Featuring Biochemical and Molecular Biological Approaches adds to this knowledge by.
"Since the early 1980s, the biochemical behavior of vanadium has been investigated extensively such as its potent inhibitory role for Na+/K+-ATPase and its participation in insulin-mimicking but also because of the more recent findings on the enzymes and compounds containing vanadium. In addition, knowledge of the medicinal applications of vanadium such as the biochemical roles of its compounds in bone development, cellular mechanisms, signaling pathways and anti-cancer agents has increased enormously. Vanadium: Featuring Biochemical and Molecular Biological Approaches adds to this knowledge by."
"Since the early 1980s, the biochemical behavior of vanadium has been investigated extensively such as its potent inhibitory role for Na+/K+-ATPase and its participation in insulin-mimicking but also because of the more recent findings on the enzymes and compounds containing vanadium. In addition, knowledge of the medicinal applications of vanadium such as the biochemical roles of its compounds in bone development, cellular mechanisms, signaling pathways and anti-cancer agents has increased enormously. Vanadium: Featuring Biochemical and Molecular Biological Approaches adds to this knowledge by."@en
"Since the early 1980s, the biochemical behavior of vanadium has been investigated extensively such as its potent inhibitory role for Na+/K+-ATPase and its participation in insulin-mimicking but also because of the more recent findings on the enzymes and compounds containing vanadium. In addition, knowledge of the medicinal applications of vanadium such as the biochemical roles of its compounds in bone development, cellular mechanisms, signaling pathways and anti-cancer agents has increased enormously. Vanadium: Featuring Biochemical and Molecular Biological Approaches adds to this knowledge by ..."@en
"The publication of Vanadium: Biochemical and Molecular Biological Approaches is particularly timely as its publication exactly coincides with the centennial anniversary of the discovery of vanadium by Professor Henze, in the blood cells of an ascidian (tunicate) collected in Gulf of Naples in 1911. Vanadium, atomic number 23, covers a wide range of oxidation states (from -2 to +5) and has unpaired electrons. Depending on these properties, a wide variety of enzymes and compounds containing vanadium have been found and the biochemical behaviour of vanadium has been investigated extensively. This monograph provides not only the basic properties and recent advances of vanadium chemistry but also presents recent topics on hyper-accumulators of vanadium, enzymatic roles of vanadium, biochemical functions of vanadium and medicinal functions of vanadium, which have been discovered by Biochemical and Molecular Biological Approaches. Vanadium: Biochemical and Molecular Biological Approaches is aimed at pure and applied chemists, biochemists, pharmaceutical and medical scientists."
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