RT @MoriartyLab: Real-time visualization of bacterial-vascular interactions in blood vessels of live mice reveals distinct interaction prop…
Real-time visualization of bacterial-vascular interactions in blood vessels of live mice reveals distinct interaction properties mediated by #fibronectin and GAG-binding sequences of the bacterial vascular adhesin BBK32. https://t.co/gdTQgNz6EI https:/
Real-time visualization of bacterial-vascular interactions in blood vessels of live mice reveals distinct interaction properties mediated by #fibronectin and GAG-binding sequences of the bacterial vascular adhesin BBK32. https://t.co/gdTQgNhvNa https:/
RT @MoriartyLab: Real-time visualization of bacterial-vascular interactions in blood vessels of live mice reveals distinct interaction prop…
Real-time visualization of bacterial-vascular interactions in blood vessels of live mice reveals distinct interaction properties mediated by #fibronectin and GAG-binding sequences of the bacterial vascular adhesin BBK32. https://t.co/gdTQgNhvNa
Real-time visualization of bacterial-vascular interactions in blood vessels of live mice reveals distinct interaction properties mediated by #fibronectin and GAG-binding sequences of the bacterial vascular adhesin BBK32. https://t.co/gdTQgNz6EI http
RT @MoriartyLab: Intravital microscopy visualization of bacterial-vascular interactions in blood vessels reveals distinct interaction prope…
Intravital microscopy visualization of bacterial-vascular interactions in blood vessels reveals distinct interaction properties mediated by #fibronectin and GAG-binding sequences of bacterial vascular adhesin BBK32. https://t.co/gdTQgNz6EI https://t.co
Bacterial-vascular interactions in vivo are mediated by sequential, mechanistically distinct interactions with host macromolecules https://t.co/gdTQgNhvNa
Hmm...have an idea due to this...nice and easy crude experiment too if you have a culture system. https://t.co/KuZAQuMEBx
RT @MoriartyLab: #vascular binding of #bacteria under shear force through sequential mechanistically distinct interactions with host macrom…
#vascular binding of #bacteria under shear force through sequential mechanistically distinct interactions with host macromolecules https://t.co/gdTQgNhvNa
#vascular binding of #bacteria under shear force through mechanistically distinct interactions with host macromolecules https://t.co/gdTQgNz6EI
Vascular binding of a pathogen under shear force through mechanistically distinct interactions with host macromolecules. https://t.co/gdTQgNhvNa
RT @MoriartyLab: Vascular binding of a pathogen under shear force through mechanistically distinct interactions with host macromolecules…
Vascular binding of a pathogen under shear force through mechanistically distinct interactions with host macromolecules https://t.co/gdTQgNz6EI
Retweeted Sari Suomalainen (@SuomalainenSK): How important that this research exists! #Lyme https://t.co/0I3UFnjxap https://t.co/v3ZMClun5v
RT @SuomalainenSK: How important that this research exists! #Lyme https://t.co/k1kBYIwJ0b
How important that this research exists! #Lyme https://t.co/k1kBYIwJ0b
RT @MoriartyLab: Vascular binding of Lyme disease pathogen via mechanistically distinct sequential interactions with host molecules https:/…
Vascular binding of Lyme disease pathogen via mechanistically distinct sequential interactions with host molecules https://t.co/Q4gDJObZ3S
RT @MoriartyLab: Vascular binding of a pathogen under shear force through mechanistically distinct sequential interactions with... https://…
Retweeted Moriarty Lab (@MoriartyLab): Bacterial #Vascular binding via host molecules https://t.co/mHki2lTxhu... https://t.co/cTBj73N3FL
RT @MoriartyLab: Bacterial #Vascular binding via host molecules https://t.co/mHki2lTxhu #science #microbiology https://t.co/buZ7MA3v6f
RT @UofTDentLib: #DentFacultyPub @WileyLibINFO Vascular binding of a pathogen under shear force through mechanistically distinct...https://…
#DentFacultyPub @WileyLibINFO Vascular binding of a pathogen under shear force through mechanistically distinct...https://t.co/EOmT3Tukdy
There is so much more In depth we need to explain about this. https://t.co/vybb9DKQFf
RT @MoriartyLab: Bacterial #Vascular binding via host molecules https://t.co/mHki2lTxhu #science #microbiology https://t.co/buZ7MA3v6f
RT @MoriartyLab: Bacterial #Vascular binding via host molecules https://t.co/mHki2lTxhu #science #microbiology https://t.co/buZ7MA3v6f
RT @MoriartyLab: Bacterial #Vascular binding via host molecules https://t.co/mHki2lTxhu #science #microbiology https://t.co/buZ7MA3v6f
RT @MoriartyLab: Bacterial #Vascular binding via host molecules https://t.co/mHki2lTxhu #science #microbiology https://t.co/buZ7MA3v6f
Bacterial #Vascular binding via host molecules https://t.co/mHki2lTxhu #science #microbiology https://t.co/buZ7MA3v6f
MOVIES: #Vascular binding mechanisms of #bacteria https://t.co/888YICGyuY https://t.co/1l8qoXE6QU #science #microbiology
Retweeted NatCapLyme (@NatCapLyme): Vascular binding of a pathogen under shear force through mechanistically... https://t.co/t0nF5OlF6u
RT @NatCapLyme: Vascular binding of a pathogen under shear force through mechanistically distinct sequential interactions with... http://t.…
Retweeted Alisyn Gayle (@AlisynGayle): Vascular binding of pathogen under shear force thru mechanistically... https://t.co/X0CZYVmZ78
RT @AlisynGayle: Vascular binding of pathogen under shear force thru mechanistically distinct sequential interxns w/host macromolecules ht…
RT @MoriartyLab: Vascular binding of a pathogen under shear force through mechanistically distinct sequential interactions with... https://…
Vascular binding of a pathogen under shear force through mechanisti.... https://t.co/OoM7uaMvrD
Vascular binding of a pathogen under shear force through mechanistically distinct sequential interactions with... https://t.co/nOfPVarB8s
Vascular binding of pathogen under shear force thru mechanistically distinct sequential interxns w/host macromolecules http://t.co/hSHIiKUW
Vascular binding of a pathogen under shear force through mechanistically distinct sequential interactions with... http://t.co/lpgO0J1b