Add to ORKGBiometals such as copper, cobalt and zinc are essential to life. These transition metals are used as cofactors in many enzymes. Nonetheless, these metals cause deleterious effects if their intracellular concentration exceeds the cells' requirement. Prokaryotic organisms usually employ efflux systems to maintain metals in appropriate intracellular concentrations.The Cus system of Escherichia coli plays a crucial part in the copper homeostasis of the organism. This system is a tetrapartite efflux system, which includes an additional component compared to similar efflux systems. This fourth component is a small periplasmic protein, CusF. CusF is essential for full copper resistance, yet its role within the Cus system has not been characterized...
The dissemination of resistant pathogenic microbes has become one of the most challenging problems t...
X-ray absorption spectroscopy and computational chemistry have been used to probe the structure of b...
Bacteria have evolved sophisticated cellular transport mechanisms to maintain metal homeostasis to n...
Copper homeostasis in Escherichia coli is mediated in part by a copper sensing system (the Cus syste...
Copper is a trace element utilized by organisms as a cofactor involved in redox chemistry, electron ...
The periplasmic Cu<sup>+</sup>/Ag<sup>+</sup> chaperone CusF features a novel cation−π interaction b...
Copper is an important micronutrient required as a redox co-factor in the catalytic centers of enzym...
Bacteria may live in harsh environments where they face changing and new conditions. Therefore, the ...
CusCFBA is one of the metal efflux systems in Escherichia coli that is highly specific for its subst...
Transition metals such as copper, zinc and nickel are required in many enzymatic processes that requ...
Copper is an absolute requirement for living systems and the intracellular trafficking of this metal...
Copper is an absolute requirement for living systems and the intracellular trafficking of this metal...
Copper is an absolute requirement for living systems and the intracellular trafficking of this metal...
Copper is a transition metal which is essentially needed in living things. It plays various roles su...
© 2017 Dr. Chathuri Jayanthika Kumari WijekoonCopper is an essential but potentially toxic element f...
The dissemination of resistant pathogenic microbes has become one of the most challenging problems t...
X-ray absorption spectroscopy and computational chemistry have been used to probe the structure of b...
Bacteria have evolved sophisticated cellular transport mechanisms to maintain metal homeostasis to n...
Copper homeostasis in Escherichia coli is mediated in part by a copper sensing system (the Cus syste...
Copper is a trace element utilized by organisms as a cofactor involved in redox chemistry, electron ...
The periplasmic Cu<sup>+</sup>/Ag<sup>+</sup> chaperone CusF features a novel cation−π interaction b...
Copper is an important micronutrient required as a redox co-factor in the catalytic centers of enzym...
Bacteria may live in harsh environments where they face changing and new conditions. Therefore, the ...
CusCFBA is one of the metal efflux systems in Escherichia coli that is highly specific for its subst...
Transition metals such as copper, zinc and nickel are required in many enzymatic processes that requ...
Copper is an absolute requirement for living systems and the intracellular trafficking of this metal...
Copper is an absolute requirement for living systems and the intracellular trafficking of this metal...
Copper is an absolute requirement for living systems and the intracellular trafficking of this metal...
Copper is a transition metal which is essentially needed in living things. It plays various roles su...
© 2017 Dr. Chathuri Jayanthika Kumari WijekoonCopper is an essential but potentially toxic element f...
The dissemination of resistant pathogenic microbes has become one of the most challenging problems t...
X-ray absorption spectroscopy and computational chemistry have been used to probe the structure of b...
Bacteria have evolved sophisticated cellular transport mechanisms to maintain metal homeostasis to n...