(→Implementing Binary expression on "bacteria counter")
(→Implementing Binary expression on "bacteria counter")
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I just thought about an application problem we would have which is that if we have many copies of B2B1B0 and the different copies express asynchronously, e.g. one set is expressing 100 while another set is expressing 011 just 1 time behind, then this will cause us
I just thought about an application problem we would have which is that if we have many copies of B2B1B0 and the different copies express asynchronously, e.g. one set is expressing 100 while another set is expressing 011 just 1 time behind, then this will cause us problems reading the outcomes. how could we resolve this?
Revision as of 01:31, 21 December 2007
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.
- 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
- Circuit from Cellular Autonoma: one bacterial cell could produce simple circuit or fancy pattern.
- Bacterial cells to assist in production of things like biofuels/fertilisers/etc.
- Cheap and easy production of pharmaceuticals.
In vivo sensors, processors 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.  (more...)
- something similar to peking 2007 one..
- group A bacteria undergo conjugation certain number of times before expressing a promotor
- the promotor promotes the expression in group B bacteria of some other protein.
- after undergoing conjugation certain number of times, group B bacteria express a repressor which inhibites the expresion of promotor from group A bacteria thus negative feedback.
- a system with timing and quatity control
- Express the DNA repair system (enzymes) of radiodurans in e.coli ?
Gold mining bacteria
- Bacteria that uptake gold particles in solution possibly using transporters from alfalfa or other plants used in phytomining. For the purpose of making money.
Bacteria that uptake salt from water for the purpose of desalination. Investigations into archaea probably needed.
HIV rapid diagnostic test
A rapid diagnostic test for HIV using bacteria that express CD4 and CCR5 coupled with an amplification signal (such as used in Brown university 2007).
Bacteria that express CD4 and CCR5 to act as a sink within the body thus lowering the viral load of HIV. Immunogenicity must be removed as was done with Bactoblood (UC Berkeley 2007).
Remote controlled locomotive micromachine
A remote control locomotive micro machine using bacterial flagella as the driver. The bacteria with flagella could possibly adhere to the micro machine using adhesins.
Hyperthermophilic bacteria or archaea treated with uncouplers e.g. DNP, used to boil water for power generation.
A television screen composed of bacteria that release the different colors of fluorescent proteins to form an image.
Bacteria that fix or modify harmful contaminants in soil (i.e. cyanide, petrochemicals) after a spill/industrial activity.
A Feasible implementation of Bacteria Counter using the Binary Counting Strategy
I know we are at the stage of brainstorming. I just thought about a feasible way of implementating a "bacteria counter", just to put it here in case I forgot, not intending to confuse or distract anyone. If not feeling like to read it now, just skip it or come back later. The "bacteria counter" not only can be used for "biological clock" but also could be used for related topics which we might come up later. Just as a proposed idea.
We could use the strategy of binary counting in biological counting systems. Before I start, I shall give a very brief idea (and that's all we need to know) on binary counting (I'm sure some people already knew this via mathematics, computer science, physics, engineering etc):
Binary counting (based on 2) is done in the same a way as decimal counting (based on 10, as we do everyday). For example,
if we want to represent number 3 in binary numbers (bits),
to represent number 4 in binary,
to represent number 5 in binary,
Binary numbers can represent arbitarily large numbers just as digital numbers, e.g. if we have a binary number 1011011,
Implementing Binary expression on "bacteria counter"
Ok, so how can we implement this in bacteria systems? Say we have 3 bacteria: B2 B1 B0, each with its own characteristic colour (or other traits) when its expression is turned on, e.g. B2=red B1=green, B0=blue. Also, each B(n) needs the expression outcome only from B(n-1) plus a toggle control to express its own gene. Then we can read off the current number just by reading the color combinations (or other characteristic traits). For example,
So for instance if our colour combination is red, green, blue, then we know our current time is 7, if colour combination is just red, we know it's time 4. Every expression of B(n) depends only on input from B(n-1) plus another toggle control. So the only bacteria determining counting speed is B0 (just like in a stop watch where the counting speed is entirely dependent on the last digit). Maybe we can race the real clock by adjusting the expression rates!
As we know ALU (Arithmetic Logical Unit) is also based on binary number operation. This idea could be extended to be implemented on binary addition, substitution, multiplication.
This is just 1 out of the many thoughts we've put. We have the whole bucket of great ideas from other brilliant brainstormers!
I just thought about an application problem we would have which is that if we have many copies of B2B1B0 and the different copies express asynchronously, e.g. one set is expressing 100 while another set is expressing 011 just 1 time behind, then this will cause us problems reading the outcomes. how could we resolve this? If we implement this idea in ALU (binary addition, etc) will this problem still occur?