The structures and reactions of metal ions in proteins are of tremendous interest in bioinorganic chemistry, as is the potential for metals in creating novel medicines. New results combine these aspects in describing an unexpected mode for metal-mediated drug efficacy that relies on well-established principles of metalloprotein structure
Interactions between inorganic metal-ion cofactors and organic protein scaffolds are important for t...
Interactions between inorganic metal-ion cofactors and organic protein scaffolds are important for t...
Due to its favorable chemical properties, zinc is used as a structural or catalytic cofactor in a ve...
The structures and reactions of metal ions in proteins are of tremendous interest in bioinorganic ch...
AbstractThe structures and reactions of metal ions in proteins are of tremendous interest in bioinor...
Zinc (II) is an important biometal in human physiology. Moreover, in the last two decades, it was de...
The assimilation of metal nutrients from the host environment is an important factor for the onset a...
The solution and complexation chemistry of zinc ions is the basis for zinc biology. In living organi...
Metal binding proteins or metalloproteins chelate a metal ion cofactor such as iron, zinc, or copper...
Metal binding proteins or metalloproteins chelate a metal ion cofactor such as iron, zinc, or copper...
The solution and complexation chemistry of zinc ions is the basis for zinc biology. In living organi...
AbstractThe solution and complexation chemistry of zinc ions is the basis for zinc biology. In livin...
Engineered proteins will continue to expand the molecular toolkit for applications in medicine, biot...
AbstractThe solution and complexation chemistry of zinc ions is the basis for zinc biology. In livin...
Over the past few decades, transition metal complexes have attracted considerable attention in medic...
Interactions between inorganic metal-ion cofactors and organic protein scaffolds are important for t...
Interactions between inorganic metal-ion cofactors and organic protein scaffolds are important for t...
Due to its favorable chemical properties, zinc is used as a structural or catalytic cofactor in a ve...
The structures and reactions of metal ions in proteins are of tremendous interest in bioinorganic ch...
AbstractThe structures and reactions of metal ions in proteins are of tremendous interest in bioinor...
Zinc (II) is an important biometal in human physiology. Moreover, in the last two decades, it was de...
The assimilation of metal nutrients from the host environment is an important factor for the onset a...
The solution and complexation chemistry of zinc ions is the basis for zinc biology. In living organi...
Metal binding proteins or metalloproteins chelate a metal ion cofactor such as iron, zinc, or copper...
Metal binding proteins or metalloproteins chelate a metal ion cofactor such as iron, zinc, or copper...
The solution and complexation chemistry of zinc ions is the basis for zinc biology. In living organi...
AbstractThe solution and complexation chemistry of zinc ions is the basis for zinc biology. In livin...
Engineered proteins will continue to expand the molecular toolkit for applications in medicine, biot...
AbstractThe solution and complexation chemistry of zinc ions is the basis for zinc biology. In livin...
Over the past few decades, transition metal complexes have attracted considerable attention in medic...
Interactions between inorganic metal-ion cofactors and organic protein scaffolds are important for t...
Interactions between inorganic metal-ion cofactors and organic protein scaffolds are important for t...
Due to its favorable chemical properties, zinc is used as a structural or catalytic cofactor in a ve...
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