Add to ORKGThe recent and dramatic rise of antibiotic resistance among bacterial pathogens underlies the fear that standard treatments for infectious disease will soon be largely ineffective. Resistance has evolved against nearly every clinically used antibiotic, and in the near future, we may be hard-pressed to treat bacterial infections previously conquered by "magic bullet" drugs. While traditional antibiotics kill or slow bacterial growth, an important emerging strategy to combat pathogens seeks to block the ability of bacteria to harm the host by inhibiting bacterial virulence factors. One such virulence factor, the type three secretion system (T3SS), is found in over two dozen Gram-negative pathogens and functions by injecting effector proteins ...
Commonly used antibiotics are becoming less effective; therefore, the development of new antimicrobi...
AbstractType III secretion systems are used by many gram-negative bacterial pathogens of animals and...
As antibiotic resistance among bacterial pathogens continues to escalate, posing an immense threat t...
Antibiotic resistance in pathogens requires new targets for developing novel antibacterials. The bac...
Drug-resistant pathogens have presented increasing challenges to the discovery and development of ne...
Current antibiotic therapies for bacterial pathogens target common components essential for viabilit...
Despite the large arsenal of antibiotics available on the market, treatment of bacterial infections ...
The aims of my dissertation research were to characterize the activity of inhibitors targeting the b...
Numerous human, animal, and plant pathogenic strains of Gram-negative bacteria have been shown to pr...
SummaryBacterial virulence mechanisms are attractive targets for antibiotic development because they...
The aims of my dissertation research were to determine how a bacterial virulence factor, the type II...
Infections caused by Gram-negative pathogens pose a major health burden. Both respiratory and gastro...
The injectisome type three secretion system (T3SS) is a major virulence factor in Pseudomonas aerugi...
There is an overall significance and need for new therapies targeting bacterial infections for numer...
The identification of chemical compounds that prevent and combat bacterial diseases is fundamental f...
Commonly used antibiotics are becoming less effective; therefore, the development of new antimicrobi...
AbstractType III secretion systems are used by many gram-negative bacterial pathogens of animals and...
As antibiotic resistance among bacterial pathogens continues to escalate, posing an immense threat t...
Antibiotic resistance in pathogens requires new targets for developing novel antibacterials. The bac...
Drug-resistant pathogens have presented increasing challenges to the discovery and development of ne...
Current antibiotic therapies for bacterial pathogens target common components essential for viabilit...
Despite the large arsenal of antibiotics available on the market, treatment of bacterial infections ...
The aims of my dissertation research were to characterize the activity of inhibitors targeting the b...
Numerous human, animal, and plant pathogenic strains of Gram-negative bacteria have been shown to pr...
SummaryBacterial virulence mechanisms are attractive targets for antibiotic development because they...
The aims of my dissertation research were to determine how a bacterial virulence factor, the type II...
Infections caused by Gram-negative pathogens pose a major health burden. Both respiratory and gastro...
The injectisome type three secretion system (T3SS) is a major virulence factor in Pseudomonas aerugi...
There is an overall significance and need for new therapies targeting bacterial infections for numer...
The identification of chemical compounds that prevent and combat bacterial diseases is fundamental f...
Commonly used antibiotics are becoming less effective; therefore, the development of new antimicrobi...
AbstractType III secretion systems are used by many gram-negative bacterial pathogens of animals and...
As antibiotic resistance among bacterial pathogens continues to escalate, posing an immense threat t...