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Detection of allergens in food

  • the presence of certain alergen promote the expression of GFP.
  • must be fast reaction. ie. detection on the spot.
  • cell-free medium and can be stored in bottles under normal condition.

Biological Circuits

  • variable resistors, capaceitors, a catalog of resistors ...
  • setup a basic ALU(arithmetic logic unit), from pre-designed gates
  • biological clock; counts up in seconds or minutes (not countdown like peking07-hopcount), something similar but not elegant enough has been done by Harvard2006

Biological Manufacturing

  • Bacterial cells to assist in production of things like biofuels/fertilisers/etc.
  • Cheap and easy production of pharmaceuticals.

Biological Control

In vivo sensors and actuators

Bacteria have remarkable abilities to sense, process and actuate. These attributes of bacteria are potentially useful in designing and fabricating them for therapeutic purposes. One good example is here. [1] In his quest to build tumor killing bacteria, he articulated some steps useful for building synthetic biological systems.

1) Define spatial and temporal environments that the bacteria encounter.

2) Identify processes that satisfy the environmental constraints and promote environmental progression.

3) Identify modules that satisfy these requirements.

4) Build a minimal system from parts.

5) If required, go back to 2), re-build and add complexity.

Of course, unless the chassis has no system that is already running, the systems that are being built here are done in the existence of a host system, which perform

1) DNA replication

2) Transcription

3) Translation

4) DNA repair

5) Protein enzymatic functions

6) Protein non-enzymatic functions

7) Protein degradation

8) Cell division

9) Metabolism for energy

The above applies to the construction of synthetic system using plasmids, which is what we will likely use. Some potential problems with this approach is cross-talk of newly built system with the host system. The concept of orthogonality [2] should be understood here because it can be useful to avoid cross-talk. In terms of optimizing some parts for specific functions, the concept of directed evolution is powerful and was applied in the tumor killing bacteria example above. Of course, directed evolution is only possible if positive selection for the part functions is possible.

The generic approach presented for sensing, processing and actuating responses with bacteria can be tailored for some applications on top of my mind (see below). The study of these applications require our engineer friends to tell us how to study the transfer functions from sensing to processing, what logic devices (eg. Inverters, AND gate, switches, etc) to use for processing, and how to study the transfer function from processing to actuation. Of course, modeling at the level of device and system function will be appreciated too.

Can we built bacteria to interface with cells other than mammalian cells?

1) Perhaps insect cells [[Image:]]