Add to ORKGAbstract: The ability of bacterial species to colonize and infect host organisms is critically dependent upon their capacity to adhere to cellular surfaces of the host. Adherence to cell surfaces is known to be essential for the activation and delivery of certain virulence factors, but can also directly affect host cell signaling to aid bacterial spread and survival. In this review we will discuss the recent advances in the field of bacterial adhesion, how we are beginning to unravel the effects adhesins have on host cell signaling, and how these changes aid the bacteria in terms of their survival and evasion of immune responses. Finally, we will highlight how the exploitation of bacterial adhesins may provide new therapeutic avenues for th...
A large number of bacterial pathogens targets cell adhesion molecules to establish an intimate conta...
Copyright © 2013 Hiroaki Konishi et al.This is an open access article distributed under theCreative ...
Pathogenic bacteria have evolved a variety of highly selective adhesins allowing these microbes to e...
The ability of bacterial species to colonize and infect host organisms is critically dependent upon ...
During the infection process, pathogenic bacteria undergo large-scale transcriptional changes to pro...
Specific adhesion to host tissue cells is an essential virulence factor of most bacterial pathogens....
Most commensal and pathogenic bacteria interacting with eukaryotic hosts express adhesive molecules ...
Pathogen attachment to host tissue is critical in the progress of many infections. Bacteria use adhe...
Bacterial adhesion is an important step in tissue colonization and depends extensively on the surfac...
Evolving under the constant exposure to an abundance of diverse microbial life, the human body has d...
Specific adhesion to host tissue cells is an essential virulence factor of most bacterial pathogens....
The capacity of pathogenic microorganisms to adhere to host cells and avoid clearance by the host im...
Bacterial pathogens show a remarkable capacity to stick to host tissues and implanted biomaterials, ...
Pathogen attachment to host cells is a key process during infection, and inhibition of pathogen adhe...
The capacity of pathogenic microorganisms to adhere to host cells and avoid clearance by the host im...
A large number of bacterial pathogens targets cell adhesion molecules to establish an intimate conta...
Copyright © 2013 Hiroaki Konishi et al.This is an open access article distributed under theCreative ...
Pathogenic bacteria have evolved a variety of highly selective adhesins allowing these microbes to e...
The ability of bacterial species to colonize and infect host organisms is critically dependent upon ...
During the infection process, pathogenic bacteria undergo large-scale transcriptional changes to pro...
Specific adhesion to host tissue cells is an essential virulence factor of most bacterial pathogens....
Most commensal and pathogenic bacteria interacting with eukaryotic hosts express adhesive molecules ...
Pathogen attachment to host tissue is critical in the progress of many infections. Bacteria use adhe...
Bacterial adhesion is an important step in tissue colonization and depends extensively on the surfac...
Evolving under the constant exposure to an abundance of diverse microbial life, the human body has d...
Specific adhesion to host tissue cells is an essential virulence factor of most bacterial pathogens....
The capacity of pathogenic microorganisms to adhere to host cells and avoid clearance by the host im...
Bacterial pathogens show a remarkable capacity to stick to host tissues and implanted biomaterials, ...
Pathogen attachment to host cells is a key process during infection, and inhibition of pathogen adhe...
The capacity of pathogenic microorganisms to adhere to host cells and avoid clearance by the host im...
A large number of bacterial pathogens targets cell adhesion molecules to establish an intimate conta...
Copyright © 2013 Hiroaki Konishi et al.This is an open access article distributed under theCreative ...
Pathogenic bacteria have evolved a variety of highly selective adhesins allowing these microbes to e...