Characterization of
#Gasdermin E-mediated
#pyroptosis in the basal chordate
#amphioxus reveals that
#GSDME is transcriptionally regulated by IRF1/8, involved in bacteria-induced tissue damage, and inhibited by
#caspase inhibitor
#PLOSBiology https://plos.io/3p6klcm
Characterization of GSDME in amphioxus provides insights into the functional evolution of GSDM-mediated pyroptosis
Characterization of Gasdermin E-mediated pyroptosis in the basal chordate amphioxus reveals that it is transcriptionally regulated by IRF1/8, involved in bacteria induced tissue damage, and inhibited by caspase inhibitor.
Characterization of
#Gasdermin E-mediated
#pyroptosis in the basal chordate
#amphioxus reveals that
#GSDME is transcriptionally regulated by IRF1/8, involved in bacteria-induced tissue damage, and inhibited by
#caspase inhibitor
#PLOSBiology https://plos.io/3p6klcmCharacterization of GSDME in amphioxus provides insights into the functional evolution of GSDM-mediated pyroptosis
Characterization of Gasdermin E-mediated pyroptosis in the basal chordate amphioxus reveals that it is transcriptionally regulated by IRF1/8, involved in bacteria induced tissue damage, and inhibited by caspase inhibitor.
Characterization of
#Gasdermin E-mediated
#pyroptosis in the basal chordate
#amphioxus reveals that
#GSDME is transcriptionally regulated by IRF1/8, involved in bacteria-induced tissue damage, and inhibited by
#caspase inhibitor
#PLOSBiology https://plos.io/3p6klcmCharacterization of GSDME in amphioxus provides insights into the functional evolution of GSDM-mediated pyroptosis
Characterization of Gasdermin E-mediated pyroptosis in the basal chordate amphioxus reveals that it is transcriptionally regulated by IRF1/8, involved in bacteria induced tissue damage, and inhibited by caspase inhibitor.
PLOS Biology
