Add to ORKGBacteria have a great capacity for adjusting their metabolism in response to environmental changes by linking extracellular stimuli to the regulation of genes by transcription factors. By working in a co-operative manner, transcription factors provide a rapid response to external threats, allowing the bacteria to survive. This review will focus on transcription factors MarA, SoxS and Rob in Escherichia coli, three members of the AraC family of proteins. These homologous proteins exemplify the ability to respond to multiple threats such as oxidative stress, drugs and toxic compounds, acidic pH, and host antimicrobial peptides. MarA, SoxS and Rob recognize similar DNA sequences in the promoter region of more than 40 regulatory target genes. A...
Bacterial cells often face hostile environmental conditions, to which they adapt by activation of st...
In bacteria, the defense system deployed to counter oxidative stress is orchestrated by three transc...
Bacterial pathogens employ diverse fitness and virulence mechanisms to gain an advantage in competit...
Bacterial resistance to antibiotics has focused primarily on the role of acquired genetic elements c...
To survive and adapt to changing environments, bacteria have evolved mechanisms to express appropria...
The multiple antibiotic resistance (mar) operon in Escherichia coli is responsible for resistance to...
The Escherichia coli marRAB operon is a paradigm for chromosomally encoded antibiotic resistance. Th...
Enteric pathogens sense numerous signals specific to the anatomical location in the intestine and in...
When exposed to low concentrations of toxic chemicals, bacteria modulate the expression of a number ...
Bacteria possess multiple mechanisms to survive exposure to various chemical stresses and antimicrob...
Control of membrane permeability is a key step in regulating the intracellular concentration of anti...
Extraintestinal pathogenic strains of Escherichia coli cause a wide range of diseases including coli...
Escherichia coli Rob, SoxS and MarA are monomeric members of the AraC/XylS family of transcription a...
The emergence and spread of molecular mechanisms which make bacteria resistant to antibiotics togeth...
Antimicrobials have revolutionised modern medicine, but in our hubris, we have turned a blind eye to...
Bacterial cells often face hostile environmental conditions, to which they adapt by activation of st...
In bacteria, the defense system deployed to counter oxidative stress is orchestrated by three transc...
Bacterial pathogens employ diverse fitness and virulence mechanisms to gain an advantage in competit...
Bacterial resistance to antibiotics has focused primarily on the role of acquired genetic elements c...
To survive and adapt to changing environments, bacteria have evolved mechanisms to express appropria...
The multiple antibiotic resistance (mar) operon in Escherichia coli is responsible for resistance to...
The Escherichia coli marRAB operon is a paradigm for chromosomally encoded antibiotic resistance. Th...
Enteric pathogens sense numerous signals specific to the anatomical location in the intestine and in...
When exposed to low concentrations of toxic chemicals, bacteria modulate the expression of a number ...
Bacteria possess multiple mechanisms to survive exposure to various chemical stresses and antimicrob...
Control of membrane permeability is a key step in regulating the intracellular concentration of anti...
Extraintestinal pathogenic strains of Escherichia coli cause a wide range of diseases including coli...
Escherichia coli Rob, SoxS and MarA are monomeric members of the AraC/XylS family of transcription a...
The emergence and spread of molecular mechanisms which make bacteria resistant to antibiotics togeth...
Antimicrobials have revolutionised modern medicine, but in our hubris, we have turned a blind eye to...
Bacterial cells often face hostile environmental conditions, to which they adapt by activation of st...
In bacteria, the defense system deployed to counter oxidative stress is orchestrated by three transc...
Bacterial pathogens employ diverse fitness and virulence mechanisms to gain an advantage in competit...