@hereiskarl @SarahMackAttack @UConnMCB @Ologies @tpwky They don’t appear to eat each other. Bdellovibrio have a mechanism to protect themselves from their own lytic enzymes, and this might protect them from their fellow Bdellos as well. https://t.co/UuRfBR
Ankyrin-mediated self-protection during cell invasion by the bacterial predator Bdellovibrio bacteriovorus https://t.co/LGKywI8e8o
Elegant - Bacterial self-protection mechanism to prevent suicide by enzymes that degrade others' bacterial cell wall https://t.co/hLGH6sVJiV
New Paper from I04 https://t.co/0N86CSzpzv (PDB 5CER)
RT @NatureRevMicro: How does the bacterial predator Bdellovibrio bacteriovorus defend itself from its predatory mechanism? https://t.co/3Ky…
RT @NatureRevMicro: How does the bacterial predator Bdellovibrio bacteriovorus defend itself from its predatory mechanism? https://t.co/3Ky…
RT @NatureRevMicro: How does the bacterial predator Bdellovibrio bacteriovorus defend itself from its predatory mechanism? https://t.co/3Ky…
RT @NatureRevMicro: How does the bacterial predator Bdellovibrio bacteriovorus defend itself from its predatory mechanism? https://t.co/3Ky…
RT @NatureRevMicro: How does the bacterial predator Bdellovibrio bacteriovorus defend itself from its predatory mechanism? https://t.co/3Ky…
RT @NatureRevMicro: How does the bacterial predator Bdellovibrio bacteriovorus defend itself from its predatory mechanism? https://t.co/3Ky…
RT @NatureRevMicro: How does the bacterial predator Bdellovibrio bacteriovorus defend itself from its predatory mechanism? https://t.co/3Ky…
How does the bacterial predator Bdellovibrio bacteriovorus defend itself from its predatory mechanism? https://t.co/3KycZwGTVI #midweekmicro
RT @HobleyLab: Fab paper from the Sockett and Lovering labs on Bdellovibrio! Nice to see the good work continues! https://t.co/nQtcCqTqRW
RT @HobleyLab: Fab paper from the Sockett and Lovering labs on Bdellovibrio! Nice to see the good work continues! https://t.co/nQtcCqTqRW
Fab paper from the Sockett and Lovering labs on Bdellovibrio! Nice to see the good work continues! https://t.co/nQtcCqTqRW
Ankyrin-mediated self-protection during cell invasion by the bacterial predator Bdellovibrio bacteriovorus https://t.co/lqxvfsPS4j
RT @HendersonLab: Great work by @IMIBirmingham researcher Andrew Lovering: how a bacterial predator protects itself from self-killing! http…
RT @HendersonLab: Great work by @IMIBirmingham researcher Andrew Lovering: how a bacterial predator protects itself from self-killing! http…
RT @HendersonLab: Great work by @IMIBirmingham researcher Andrew Lovering: how a bacterial predator protects itself from self-killing! http…
RT @HendersonLab: Great work by @IMIBirmingham researcher Andrew Lovering: how a bacterial predator protects itself from self-killing! http…
RT @HendersonLab: Great work by @IMIBirmingham researcher Andrew Lovering: how a bacterial predator protects itself from self-killing! http…
RT @HendersonLab: Great work by @IMIBirmingham researcher Andrew Lovering: how a bacterial predator protects itself from self-killing! http…
RT @HendersonLab: Great work by @IMIBirmingham researcher Andrew Lovering: how a bacterial predator protects itself from self-killing! http…
RT @HendersonLab: Great work by @IMIBirmingham researcher Andrew Lovering: how a bacterial predator protects itself from self-killing! http…
RT @EMBO_YIP: How do bacterial predators protect themselves when invading their prey? See Lovering lab’s new paper in @NatureComms https://…
RT @HendersonLab: Great work by @IMIBirmingham researcher Andrew Lovering: how a bacterial predator protects itself from self-killing! http…
RT @HendersonLab: Great work by @IMIBirmingham researcher Andrew Lovering: how a bacterial predator protects itself from self-killing! http…
RT @HendersonLab: Great work by @IMIBirmingham researcher Andrew Lovering: how a bacterial predator protects itself from self-killing! http…
RT @HendersonLab: Great work by @IMIBirmingham researcher Andrew Lovering: how a bacterial predator protects itself from self-killing! http…
RT @HendersonLab: Great work by @IMIBirmingham researcher Andrew Lovering: how a bacterial predator protects itself from self-killing! http…
Great work by @IMIBirmingham researcher Andrew Lovering: how a bacterial predator protects itself from self-killing! https://t.co/e4h9gVpMq1
RT @EMBO_YIP: How do bacterial predators protect themselves when invading their prey? See Lovering lab’s new paper in @NatureComms https://…
RT @EMBO_YIP: How do bacterial predators protect themselves when invading their prey? See Lovering lab’s new paper in @NatureComms https://…
RT @EMBO_YIP: How do bacterial predators protect themselves when invading their prey? See Lovering lab’s new paper in @NatureComms https://…
Nice work on self-protection during cell invasion by the bacterial predator Bdellovibrio bacteriovorus https://t.co/OLxVBgZMhv
Ace work from the Lovering lab: Ankyrin-mediated self-protection by the bacterial predator Bdellovibrio https://t.co/368IYWrdYD
RT @EMBO_YIP: How do bacterial predators protect themselves when invading their prey? See Lovering lab’s new paper in @NatureComms https://…
RT @EMBO_YIP: How do bacterial predators protect themselves when invading their prey? See Lovering lab’s new paper in @NatureComms https://…
How do bacterial predators protect themselves when invading their prey? See Lovering lab’s new paper in @NatureComms https://t.co/0Ukq4ZvUzL