Given the rise of bacterial resistance against antibiotics, we urgently need alternative strategies to fight infections. Some propose we should disarm rather than kill bacteria, through targeted disruption of their virulence factors. It is assumed that this approach (i) induces weak selection for resistance because it should only minimally impact bacterial fitness, and (ii) is specific, only interfering with the virulence factor in question. Given that pathogenicity emerges from complex interactions between pathogens, hosts, and their environment, such assumptions may be unrealistic. To address this issue in a test case, we conducted experiments with the opportunistic human pathogen Pseudomonas aeruginosa, where we manipulated the availabil...
While predators and parasites are known for their effects on bacterial population biology, their imp...
Antimicrobial resistance has been estimated to be responsible for over 700,000 deaths per year, ther...
Environmentally transmitted, opportunistic bacterial pathogens have a life cycle that alternates bet...
Given the rise of bacterial resistance against antibiotics, we urgently need alternative strategies ...
Given the rise of bacterial resistance against antibiotics, we urgently need alternative strategies ...
Bacterial infections are often polymicrobial, leading to intricate pathogen-pathogen and pathogen-ho...
Bacterial traits that contribute to disease are termed “virulence factors” and there is much interes...
Bacterial traits that contribute to disease are termed 'virulence factors' and there is much interes...
Background and objectives: Conventional antibiotics select strongly for resistance and are consequen...
Microbes that protect their hosts from pathogens are widespread in nature and are attractive disease...
Passage experiments that sequentially infect hosts with parasites have long been used to manipulate ...
Social interactions have been shown to play an important role in bacterial evolution and virulence. ...
Bacterial traits that contribute to disease are termed “virulence factors” and there is much interes...
Disease virulence may be strongly influenced by social interactions among pathogens, both during the...
While predators and parasites are known for their effects on bacterial population biology, their imp...
Antimicrobial resistance has been estimated to be responsible for over 700,000 deaths per year, ther...
Environmentally transmitted, opportunistic bacterial pathogens have a life cycle that alternates bet...
Given the rise of bacterial resistance against antibiotics, we urgently need alternative strategies ...
Given the rise of bacterial resistance against antibiotics, we urgently need alternative strategies ...
Bacterial infections are often polymicrobial, leading to intricate pathogen-pathogen and pathogen-ho...
Bacterial traits that contribute to disease are termed “virulence factors” and there is much interes...
Bacterial traits that contribute to disease are termed 'virulence factors' and there is much interes...
Background and objectives: Conventional antibiotics select strongly for resistance and are consequen...
Microbes that protect their hosts from pathogens are widespread in nature and are attractive disease...
Passage experiments that sequentially infect hosts with parasites have long been used to manipulate ...
Social interactions have been shown to play an important role in bacterial evolution and virulence. ...
Bacterial traits that contribute to disease are termed “virulence factors” and there is much interes...
Disease virulence may be strongly influenced by social interactions among pathogens, both during the...
While predators and parasites are known for their effects on bacterial population biology, their imp...
Antimicrobial resistance has been estimated to be responsible for over 700,000 deaths per year, ther...
Environmentally transmitted, opportunistic bacterial pathogens have a life cycle that alternates bet...