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Revision as of 13:33, 15 October 2016

Home

  Sonicell

  Abstract in plain English


Synthetic biology aims to control cells so they can obey our commands and do what we want, for example to produce drugs when needed. In our project we made cells respond to ultrasound or touch. When we touch the cells they light up, which can be recorded on a camera. Ideally we want cells to respond to our commands as fast as possible, because sometimes we can’t wait an hour before the cells produce the medicine and release it. That is why we gave cells a novel mechanism of processing information. We achieved this by combining several enzymes that recognize very specific parts of proteins and cut them, which changes their function. This allowed us to combine different signals, like sound, touch, light or chemicals, to obtain the desired cell response. The new enzymes can also cut the anchor with which medicines are attached to cells after the cells make them. Among many possible uses of our inventions, we can imagine activating cells in the brain by ultrasound, which means that we don’t need to use surgery to help people with Parkinson’s disease, or can trigger fast production of insulin in the body, to help people with diabetes.

project scheme module1 module1 module1 module1

  Achievements

newAtiGEM new at science

newAtiGEM new at iGEM

  • Mammalian cell sensitivity to ultrasound and mechanical stimuli was increased by ectopic expression of bacterial or human cation permeable channels and functional reconstitution of bacterial protein gas vesicles from two protein components (GvpA and GvpC) newAtiGEM
  • A custom-made ultrasound generator device was used to stimulate mammalian cells newAtiGEM
  • A mechano-sensory luciferase reporter sensitive to an influx of free calcium ions was introduced into mammalian cells, which enabled rapid light emission of mammalian cells in response to mechanical stimuli and enabled painting on cells by touch with exciting potentials for other applications newAtiGEM
  • A circular proteolysis-activated luciferase reporter was experimentally verified and introduced into the iGEM collection newAtiGEM
  • A set of four different orthogonal site-specific proteases was designed and tested as split proteins in mammalian cells newAtiGEM
  • New orthogonal protease-based signaling pathways and information processing platform was designed and several logic functions based on the combination of multiple input signals were tested experimentally newAtiGEM
  • Proteolysis of the ER retention signal was introduced as the trigger for the fast release of proteins from cells aimed to enable fast therapeutic responses such as required for the release of peptide hormones, neuroactive peptides etc. newAtiGEM

  Medal requirements

Gold:

Silver: