To reduce background activity, which was a problem in previous works, we generated N-terminal truncation mutants of histidine kinases in the hope to reduce autodimerization. Also check out this paper by Mazé et al.: https://t.co/qc6DMzIDOI that came out wh
RT @synbio_papers: Artificial signaling in mammalian cells enabled by prokaryotic two-component system. https://t.co/U8KRNlFHL8
RT @synbio_papers: Artificial signaling in mammalian cells enabled by prokaryotic two-component system. https://t.co/U8KRNlFHL8
Artificial signaling in mammalian cells enabled by prokaryotic two-component system. https://t.co/U8KRNlFHL8
RT @cutlersr: Artificial signaling in mammalian cells enabled by prokaryotic two-component system https://t.co/dXoFDfyOm4
RT @cutlersr: Artificial signaling in mammalian cells enabled by prokaryotic two-component system https://t.co/dXoFDfyOm4
RT @cutlersr: Artificial signaling in mammalian cells enabled by prokaryotic two-component system https://t.co/dXoFDfyOm4
RT @cutlersr: Artificial signaling in mammalian cells enabled by prokaryotic two-component system https://t.co/dXoFDfyOm4
RT @cutlersr: Artificial signaling in mammalian cells enabled by prokaryotic two-component system https://t.co/dXoFDfyOm4
RT @cutlersr: Artificial signaling in mammalian cells enabled by prokaryotic two-component system https://t.co/dXoFDfyOm4
RT @cutlersr: Artificial signaling in mammalian cells enabled by prokaryotic two-component system https://t.co/dXoFDfyOm4
RT @cutlersr: Artificial signaling in mammalian cells enabled by prokaryotic two-component system https://t.co/dXoFDfyOm4
Artificial signaling in mammalian cells enabled by prokaryotic two-component system https://t.co/dXoFDfyOm4
Artificial signaling in mammalian cells enabled by prokaryotic two-component system https://t.co/9EioP9h9R3
RT @nchembio: Yaakov Benenson and colleagues adapted bacterial two-component signaling systems for signaling in mammalian cells under the c…
RT @nchembio: Yaakov Benenson and colleagues adapted bacterial two-component signaling systems for signaling in mammalian cells under the c…
RT @nchembio: Yaakov Benenson and colleagues adapted bacterial two-component signaling systems for signaling in mammalian cells under the c…
RT @nchembio: Yaakov Benenson and colleagues adapted bacterial two-component signaling systems for signaling in mammalian cells under the c…
The link: https://t.co/ExisdPLPXk
RT @nchembio: Yaakov Benenson and colleagues adapted bacterial two-component signaling systems for signaling in mammalian cells under the c…
Yaakov Benenson and colleagues adapted bacterial two-component signaling systems for signaling in mammalian cells under the control of small molecules or GPCR ligands https://t.co/jpO0CSKq2q (free-to-read at https://t.co/ejuFAzMRXH)
Artificial signaling in mammalian cells enabled by prokaryotic two-component system.: Related Articles Artificial signaling in mammalian cells enabled by prokaryotic two-component system. Nat Chem Biol. 2019 Dec 16;: Authors: Mazé A, Benenson Y Abstract… h
Reenginering signal transduction in bacteria for human cells: In an article in @nchembio, Alain Mazé and Kobi Benenson describe how the mechanisms for signal transduction in bacteria can be reengineered to enable signal transduction in mammalian cells >
RT @NatureRevMicro: Engineering two-component systems to signal in mammalian cells @nchembio https://t.co/pNrxXXLXKI
Engineering two-component systems to signal in mammalian cells @nchembio https://t.co/pNrxXXLXKI