The well-established killing of bacteria by copper surfaces, also called contact killing, is currently believed to be a combined effect of bacterial contact with the copper surface and the dissolution of copper, resulting in lethal bacterial damage. Iron can similarly be released in ionic form from iron surfaces and would thus be expected to also exhibit contact killing, though essentially no contact killing is observed by iron surfaces. However, we here show that exposure of bacteria to iron surfaces in the presence of copper ions results in efficient contact killing. The process involves reduction of Cu2+ to Cu+ by iron; Cu+ has been shown to be considerably more toxic to cells than Cu2+. The specific Cu+ chelator, bicinchoninic acid, sup...
Metallic copper alloys have recently attracted attention as a new antimicrobial weapon for areas whe...
Contamination of dry surfaces with infectious pathogens can have a significant role in infection spr...
Metallic copper alloys have recently attracted attention as a new antimicrobial weapon for areas whe...
The well-established killing of bacteria by copper surfaces, also called contact killing, is current...
Bacteria, yeasts, and viruses are rapidly killed on metallic copper surfaces, and the term "contact ...
The killing of bacteria on metallic copper surfaces in minutes to hours is referred to as contact ki...
Bacteria, yeasts, and viruses are rapidly killed on metallic copper surfaces, and the term “contact ...
Metallic copper surfaces rapidly and efficiently kill bacteria. Cells exposed to copper surfaces acc...
Bacteria are rapidly killed on copper surfaces. However, the mechanism of this process remains uncle...
Metallic copper surfaces rapidly and efficiently kill bacteria. Cells exposed to copper surfaces acc...
We have reported previously that copper I and II ionic species, and superoxide but not Fenton reacti...
Contaminated touch surfaces have been implicated in the spread of hospital-acquired infections and t...
Recently, copper (Cu) in its metallic form has regained interest for its antimicrobial properties. U...
Aims: atudies to date have shown rapid killing of bacterial cells when exposed to copper surfaces. T...
Maintaining human health during long-term space missions is of major concern at any time. It is well...
Metallic copper alloys have recently attracted attention as a new antimicrobial weapon for areas whe...
Contamination of dry surfaces with infectious pathogens can have a significant role in infection spr...
Metallic copper alloys have recently attracted attention as a new antimicrobial weapon for areas whe...
The well-established killing of bacteria by copper surfaces, also called contact killing, is current...
Bacteria, yeasts, and viruses are rapidly killed on metallic copper surfaces, and the term "contact ...
The killing of bacteria on metallic copper surfaces in minutes to hours is referred to as contact ki...
Bacteria, yeasts, and viruses are rapidly killed on metallic copper surfaces, and the term “contact ...
Metallic copper surfaces rapidly and efficiently kill bacteria. Cells exposed to copper surfaces acc...
Bacteria are rapidly killed on copper surfaces. However, the mechanism of this process remains uncle...
Metallic copper surfaces rapidly and efficiently kill bacteria. Cells exposed to copper surfaces acc...
We have reported previously that copper I and II ionic species, and superoxide but not Fenton reacti...
Contaminated touch surfaces have been implicated in the spread of hospital-acquired infections and t...
Recently, copper (Cu) in its metallic form has regained interest for its antimicrobial properties. U...
Aims: atudies to date have shown rapid killing of bacterial cells when exposed to copper surfaces. T...
Maintaining human health during long-term space missions is of major concern at any time. It is well...
Metallic copper alloys have recently attracted attention as a new antimicrobial weapon for areas whe...
Contamination of dry surfaces with infectious pathogens can have a significant role in infection spr...
Metallic copper alloys have recently attracted attention as a new antimicrobial weapon for areas whe...