International audienceFew studies within the pathogenic field have used advanced imaging and analytical tools to quantitatively measure pathogenicity in vivo. In this work, we present a novel approach for the investigation of host-pathogen processes based on medium-throughput 3D fluorescence imaging. The guinea pig model for Shigella flexneri invasion of the colonic mucosa was used to monitor the infectious process over time with GFP-expressing S. flexneri. A precise quantitative imaging protocol was devised to follow individual S. flexneri in a large tissue volume. An extensive dataset of confocal images was obtained and processed to extract specific quantitative information regarding the progression of S. flexneri infection in an unbiased...
International audienceShigella flexneri, the causative agent of bacillary dysentery, induces massive...
In human and nonhuman primates, Shigella spp. cause bacillary dysentery by invading colon epithelium...
International audienceThe gastrointestinal tract is the main ecological niche in which Lactobacillus...
International audienceFew studies within the pathogenic field have used advanced imaging and analyti...
International audienceShigella spp. are bacterial pathogens that invade the human colonic mucosa usi...
BACKGROUND: Shigella, an enteroinvasive bacteria induces a major inflammatory response responsible f...
Background: Shigella, an enteroinvasive bacteria induces a major inflammatory response responsible f...
International audienceMacropinocytosis is the uptake of extracellular fluid within vesicles of varyi...
International audienceIntracellular bacterial pathogens have evolved a plethora of strategies to inv...
International audiencePathogens survive and propagate within host cells through a wide array of comp...
Interactions between individual pathogenic microbes and host tissues involve fast and dynamic proces...
Shigella spp. are gram-negative, non-motile bacteria that can infect humans and higher order primate...
<p>(A,B) Infection of HT-29 cells with CFP-expressing <i>S. flexneri</i>. (A) Representative images ...
Shigella flexneri is a gram-negative bacterium which causes the most communicable of bacterial dysen...
The Gram-negative bacterium Shigella flexneri is the causative agent of shigellosis, a diarrhoeal di...
International audienceShigella flexneri, the causative agent of bacillary dysentery, induces massive...
In human and nonhuman primates, Shigella spp. cause bacillary dysentery by invading colon epithelium...
International audienceThe gastrointestinal tract is the main ecological niche in which Lactobacillus...
International audienceFew studies within the pathogenic field have used advanced imaging and analyti...
International audienceShigella spp. are bacterial pathogens that invade the human colonic mucosa usi...
BACKGROUND: Shigella, an enteroinvasive bacteria induces a major inflammatory response responsible f...
Background: Shigella, an enteroinvasive bacteria induces a major inflammatory response responsible f...
International audienceMacropinocytosis is the uptake of extracellular fluid within vesicles of varyi...
International audienceIntracellular bacterial pathogens have evolved a plethora of strategies to inv...
International audiencePathogens survive and propagate within host cells through a wide array of comp...
Interactions between individual pathogenic microbes and host tissues involve fast and dynamic proces...
Shigella spp. are gram-negative, non-motile bacteria that can infect humans and higher order primate...
<p>(A,B) Infection of HT-29 cells with CFP-expressing <i>S. flexneri</i>. (A) Representative images ...
Shigella flexneri is a gram-negative bacterium which causes the most communicable of bacterial dysen...
The Gram-negative bacterium Shigella flexneri is the causative agent of shigellosis, a diarrhoeal di...
International audienceShigella flexneri, the causative agent of bacillary dysentery, induces massive...
In human and nonhuman primates, Shigella spp. cause bacillary dysentery by invading colon epithelium...
International audienceThe gastrointestinal tract is the main ecological niche in which Lactobacillus...