Research on microbe-host interactions focuses principally on pathogens, yet our immune system must deal with the huge number of beneficial commensal bacteria in our gut. It is becoming clear that the host immune system must reach a delicate balance between destroying dangerous bacterial pathogens while preserving the beneficial gut microbiota
A complex relationship between the microbiota and the host emerges early at birth and continues thro...
Symbiotic, parasitic, and commensal relationships have precise definitions in biology, but often the...
The intestinal microbial ecosystem is complex, and few of the principles that contribute to homeosta...
Research on microbe-host interactions focuses principally on pathogens, yet our immune system must d...
The discovery that microorganisms can be etiologic agents of disease has driven clinical, research a...
All mammals are born ignorant to the existence of micro-organisms. Soon after birth, however, every ...
According to a classical view of bacterial-host interactions at intestinal surfaces, the commensal m...
Although we might shudder at the thought of billions of bacteria living in our lower intestine, we a...
Quantitative and qualitative aspects of commensal bacteria determine the active and quiescent status...
The microbiota plays a fundamental role on the induction, training, and function of the host immune ...
All animals live in symbiosis. Shaped by eons of co-evolution, host bacterial associations have deve...
Although microbes have been classically viewed as pathogens, it is now well established that the maj...
The human gut commensal microbiota forms a complex population of microorganisms that survive by main...
Commensal bacteria are necessary for the development and maintenance of a healthy immune system. Har...
The intestinal microbiome is essential to multiple aspects of host physi-ology (1). Recent studies h...
A complex relationship between the microbiota and the host emerges early at birth and continues thro...
Symbiotic, parasitic, and commensal relationships have precise definitions in biology, but often the...
The intestinal microbial ecosystem is complex, and few of the principles that contribute to homeosta...
Research on microbe-host interactions focuses principally on pathogens, yet our immune system must d...
The discovery that microorganisms can be etiologic agents of disease has driven clinical, research a...
All mammals are born ignorant to the existence of micro-organisms. Soon after birth, however, every ...
According to a classical view of bacterial-host interactions at intestinal surfaces, the commensal m...
Although we might shudder at the thought of billions of bacteria living in our lower intestine, we a...
Quantitative and qualitative aspects of commensal bacteria determine the active and quiescent status...
The microbiota plays a fundamental role on the induction, training, and function of the host immune ...
All animals live in symbiosis. Shaped by eons of co-evolution, host bacterial associations have deve...
Although microbes have been classically viewed as pathogens, it is now well established that the maj...
The human gut commensal microbiota forms a complex population of microorganisms that survive by main...
Commensal bacteria are necessary for the development and maintenance of a healthy immune system. Har...
The intestinal microbiome is essential to multiple aspects of host physi-ology (1). Recent studies h...
A complex relationship between the microbiota and the host emerges early at birth and continues thro...
Symbiotic, parasitic, and commensal relationships have precise definitions in biology, but often the...
The intestinal microbial ecosystem is complex, and few of the principles that contribute to homeosta...
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