Add to ORKGIron-sulfur clusters act as important cofactors for a number of transcriptional regulators in bacteria, including many mammalian pathogens. The sensitivity of iron-sulfur clusters to iron availability, oxygen tension, and reactive oxygen and nitrogen species enables bacteria to use such regulators to adapt their gene expression profiles rapidly in response to changing environmental conditions. In this review, we discuss how the [4Fe-4S] or [2Fe-2S] cluster-containing regulators FNR, Wbl, aconitase, IscR, NsrR, SoxR, and AirSR contribute to bacterial pathogenesis through control of both metabolism and classical virulence factors. In addition, we briefly review mammalian iron homeostasis as well as oxidative/nitrosative stress to provide cont...
International audienceIron-sulfur (Fe-S) clusters are inorganic prosthetic groups composed of only i...
Iron-sulfur clusters function as cofactors of a wide range of proteins, with diverse molecular roles...
P. aeruginosa (PAO1) has two putative genes encoding ferredoxin NADP(+) reductases, denoted fprA and...
Iron-sulfur clusters act as important cofactors for a number of transcriptional regulators in bacter...
Significance. In recent years, bacterial iron-sulfur cluster proteins that function as regulators of...
The Firmicutes bacteria participate extensively in virulence and pathological processes. Enterococcu...
IscR is a global transcription regulator responsible for governing various physiological processes d...
In bacteria-host interactions, competition for iron is critical for the outcome of the infection. As...
IscR is a global transcription regulator responsible for governing various physiological processes d...
International audienceIron-sulfur (Fe-S) clusters are important cofactors conserved in all domains o...
Iron-sulfur ([Fe-S]) cluster proteins have essential functions in many biological processes. [Fe-S] ...
Significance: Iron–sulfur cluster proteins carry out multiple functions, including as regulators of ...
International audienceIron–sulfur (Fe–S)‐containing proteins contribute to various biological proces...
Iron-sulfur clusters-containing proteins participate in many cellular processes, including crucial b...
The metabolic flexibility of bacteria is key to their ability to survive and thrive in a wide range ...
International audienceIron-sulfur (Fe-S) clusters are inorganic prosthetic groups composed of only i...
Iron-sulfur clusters function as cofactors of a wide range of proteins, with diverse molecular roles...
P. aeruginosa (PAO1) has two putative genes encoding ferredoxin NADP(+) reductases, denoted fprA and...
Iron-sulfur clusters act as important cofactors for a number of transcriptional regulators in bacter...
Significance. In recent years, bacterial iron-sulfur cluster proteins that function as regulators of...
The Firmicutes bacteria participate extensively in virulence and pathological processes. Enterococcu...
IscR is a global transcription regulator responsible for governing various physiological processes d...
In bacteria-host interactions, competition for iron is critical for the outcome of the infection. As...
IscR is a global transcription regulator responsible for governing various physiological processes d...
International audienceIron-sulfur (Fe-S) clusters are important cofactors conserved in all domains o...
Iron-sulfur ([Fe-S]) cluster proteins have essential functions in many biological processes. [Fe-S] ...
Significance: Iron–sulfur cluster proteins carry out multiple functions, including as regulators of ...
International audienceIron–sulfur (Fe–S)‐containing proteins contribute to various biological proces...
Iron-sulfur clusters-containing proteins participate in many cellular processes, including crucial b...
The metabolic flexibility of bacteria is key to their ability to survive and thrive in a wide range ...
International audienceIron-sulfur (Fe-S) clusters are inorganic prosthetic groups composed of only i...
Iron-sulfur clusters function as cofactors of a wide range of proteins, with diverse molecular roles...
P. aeruginosa (PAO1) has two putative genes encoding ferredoxin NADP(+) reductases, denoted fprA and...