The right ingredients: Novel biosynthetic pathways for iron–sulfur clusters (see figure) are being unraveled rapidly in the model organism Saccharomyces cerevisiae. This hot research field provides new insights into the assembly of iron–sulfur proteins as well as into the origin of life, mitochondrial evolution, and iron-storage diseases
Small inorganic assemblies of alternating ferrous/ferric iron and sulphide ions, so-called iron–sulp...
The chemical and electronic variability of Fe-S clusters are surely key factors for why these cofact...
Disrupted iron homeostasis within the human body materializes as various disorders. Pathophysiology ...
Many essential cellular proteins use iron-sulfur (Fe-S) clusters as cofactors. These proteins often ...
Place: Basel Publisher: Mdpi WOS:000586852600001Iron-sulfur (Fe-S) clusters are protein cofactors of...
AbstractProteins containing iron–sulfur (Fe–S) clusters arose early in evolution and are essential t...
AbstractIron–sulfur (Fe/S) clusters are important cofactors of numerous proteins involved in electro...
Iron-sulfur (Fe-S) clusters serve as a fundamental inorganic constituent of living cells ranging fro...
Iron and sulfur are indispensable elements of every living cell, but on their own these elements are...
In plants iron–sulfur (Fe–S) proteins are found in the plastids, mitochondria, cytosol and nucleus, ...
Iron-sulfur (Fe-S) clusters are essential protein cofactors involved in functions ranging from elect...
Iron–sulfur (Fe–S) clusters (ISCs) are versatile, ancient co-factors of proteins that are involved i...
Simple inorganic structures comprised of iron and sulfur are called [Fe-S] clusters. They likely rep...
AbstractIron–sulfur (Fe–S) clusters are versatile protein cofactors that require numerous components...
Iron–sulfur (Fe/S) proteins play crucial roles in living cells by participating in enzyme catalysis,...
Small inorganic assemblies of alternating ferrous/ferric iron and sulphide ions, so-called iron–sulp...
The chemical and electronic variability of Fe-S clusters are surely key factors for why these cofact...
Disrupted iron homeostasis within the human body materializes as various disorders. Pathophysiology ...
Many essential cellular proteins use iron-sulfur (Fe-S) clusters as cofactors. These proteins often ...
Place: Basel Publisher: Mdpi WOS:000586852600001Iron-sulfur (Fe-S) clusters are protein cofactors of...
AbstractProteins containing iron–sulfur (Fe–S) clusters arose early in evolution and are essential t...
AbstractIron–sulfur (Fe/S) clusters are important cofactors of numerous proteins involved in electro...
Iron-sulfur (Fe-S) clusters serve as a fundamental inorganic constituent of living cells ranging fro...
Iron and sulfur are indispensable elements of every living cell, but on their own these elements are...
In plants iron–sulfur (Fe–S) proteins are found in the plastids, mitochondria, cytosol and nucleus, ...
Iron-sulfur (Fe-S) clusters are essential protein cofactors involved in functions ranging from elect...
Iron–sulfur (Fe–S) clusters (ISCs) are versatile, ancient co-factors of proteins that are involved i...
Simple inorganic structures comprised of iron and sulfur are called [Fe-S] clusters. They likely rep...
AbstractIron–sulfur (Fe–S) clusters are versatile protein cofactors that require numerous components...
Iron–sulfur (Fe/S) proteins play crucial roles in living cells by participating in enzyme catalysis,...
Small inorganic assemblies of alternating ferrous/ferric iron and sulphide ions, so-called iron–sulp...
The chemical and electronic variability of Fe-S clusters are surely key factors for why these cofact...
Disrupted iron homeostasis within the human body materializes as various disorders. Pathophysiology ...
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