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== light sensing device ==
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→[[ETH Zurich 2006#System modeling|back to main page]]
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The light sensing device's PoPs output activity should be a monotonic function of the light intensity the cell is subjected to.
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== Light sensing device ==
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=== implementation alternatives ===
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The light sensing device's PoPS output activity should be a monotonic function of the light intensity the cell is subjected to.
 +
 
 +
=== Implementation alternatives ===
An already existing light sensing device made by the coliroid project was reused: [http://www.nature.com/nature/journal/v438/n7067/abs/nature04405.html Synthetic biology: Engineering Escherichia coli to see light] (Nature 2005), [http://partsregistry.org/Featured_Parts:Light_Sensor light sensor device].
An already existing light sensing device made by the coliroid project was reused: [http://www.nature.com/nature/journal/v438/n7067/abs/nature04405.html Synthetic biology: Engineering Escherichia coli to see light] (Nature 2005), [http://partsregistry.org/Featured_Parts:Light_Sensor light sensor device].
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This light sensing device is ''low active'', that is: <br/>no light results in high PoPS output, exposure to light in low PoPS.
 
[[Image:ETH light sensing parts.png|600px|center]]
[[Image:ETH light sensing parts.png|600px|center]]
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=== assembly procedure ===
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'''Note''': This light sensing device is ''low active'', that is no light results in high PoPS output, exposure to light in low PoPS. Technically, we would have to add an additional inverter to the system to comply with the specification. For simplicity, we decided to ''redefine'' the light input in such a way that no light means active. For experiments, however, it is anyway preferable if light means no input signal and thus no action. One can then operate under normal daylight conditions without stimulating the system inputs.
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=== Assembly procedure ===
Olga got the strain '''RU1012(KmR)''' and the plasmids '''pCPH8(CmR)''' and '''pPL-PCB(AmpR)''' from Christopher Voigt &lt;cavoigt at picasso.ucsf.edu&gt [Engineering Escherichia Coli to see light; Nature vol. 438.].
Olga got the strain '''RU1012(KmR)''' and the plasmids '''pCPH8(CmR)''' and '''pPL-PCB(AmpR)''' from Christopher Voigt &lt;cavoigt at picasso.ucsf.edu&gt [Engineering Escherichia Coli to see light; Nature vol. 438.].
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## run tests
## run tests
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=== test procedure ===
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=== Test procedure ===
# plate saturated liquid culture out on LB+envZ(15mg/50ml) plates.
# plate saturated liquid culture out on LB+envZ(15mg/50ml) plates.
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# the colonies on the wrapped plate should remain colorless, the ones exposed to light should become dark.
# the colonies on the wrapped plate should remain colorless, the ones exposed to light should become dark.
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In the auxiliaries to the nature publication they state regarding theyer light source: ".1331 W/cm^2 from 620-680nm (active state of the phytochrome) and .0132 W/cm^2 from 715-755nm (inactive state of the phytochrome)". 715-755nm is near infrared, 620-680nm is red. The best matching commonly available light sources I can find would be [[http://en.wikipedia.org/wiki/Image:Red-YellowGreen-Blue_LED_spectra.gif| red LED]] [[http://en.wikipedia.org/wiki/Image:Spectra-Philips_32T8_natural_sunshine_fluorescent_light.jpg| white fluorescent light]] and [[http://en.wikipedia.org/wiki/Image:Spectrum_of_blue_sky.gif| indirect skylight]]. A simple battery driven LED light source should be trivial to assemble, appropriate to put in the incubator, but not very powerful. A compact fluorescent light would be more appropriate but harder to get.
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In the auxiliaries to the nature publication they state regarding theyer light source: ".1331 W/cm^2 from 620-680nm (active state of the phytochrome) and .0132 W/cm^2 from 715-755nm (inactive state of the phytochrome)". 715-755nm is near infrared, 620-680nm is red. The best matching commonly available light sources I can find would be [http://en.wikipedia.org/wiki/Image:Red-YellowGreen-Blue_LED_spectra.gif| red LED] [http://en.wikipedia.org/wiki/Image:Spectra-Philips_32T8_natural_sunshine_fluorescent_light.jpg| white fluorescent light] and [http://en.wikipedia.org/wiki/Image:Spectrum_of_blue_sky.gif| indirect skylight]. A simple battery driven LED light source such as a bicycle backlight should work and could be put into the incubator, but would not be very powerful. A compact fluorescent light might be more appropriate but harder to get.
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=== assembly progress ===
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=== Assembly progress ===
;2006-10-16:
;2006-10-16:
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;2006-10-23:
;2006-10-23:
# mounted the plates with bacteria-side towards the light source to a white fluorescent lamp for approx 6h --[[User:Ajk|Ajk]]
# mounted the plates with bacteria-side towards the light source to a white fluorescent lamp for approx 6h --[[User:Ajk|Ajk]]
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;2006-10-29:
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# made glycerol stocks of RU1012+pPCB+pCPH8, stored them in -80°C freezer at Sven Panke's lab --[[User:Ajk|Ajk]]
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=== test results ===
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=== Test results ===
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The unwrapped plate stayed clear throughout the tests. The wrapped plate was deeply blue when it was inspected at the end. Apperently there was enough light in the occasionally opened incubator (opaque door!) to inhibit lacZ expression. --[[User:Ajk|Ajk]] 11:29, 23 October 2006 (EDT)
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The unwrapped plate stayed clear throughout the tests. The wrapped plate was deeply blue when it was inspected at the end. --[[User:Ajk|Ajk]] 11:29, 23 October 2006 (EDT)
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=== parts ===
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[[Image:ETH06 Light sensing twoplatestest.jpg|600px|center]]
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=== Parts ===
[http://partsregistry.org/Featured_Parts:Light_Sensor light sensor device#BioBricks parts list]
[http://partsregistry.org/Featured_Parts:Light_Sensor light sensor device#BioBricks parts list]
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&rarr;[[ETH Zurich 2006#System modeling|back to main page]]

Latest revision as of 18:11, 31 October 2006

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Contents

Light sensing device

The light sensing device's PoPS output activity should be a monotonic function of the light intensity the cell is subjected to.

Implementation alternatives

An already existing light sensing device made by the coliroid project was reused: [http://www.nature.com/nature/journal/v438/n7067/abs/nature04405.html Synthetic biology: Engineering Escherichia coli to see light] (Nature 2005), [http://partsregistry.org/Featured_Parts:Light_Sensor light sensor device].

ETH light sensing parts.png

Note: This light sensing device is low active, that is no light results in high PoPS output, exposure to light in low PoPS. Technically, we would have to add an additional inverter to the system to comply with the specification. For simplicity, we decided to redefine the light input in such a way that no light means active. For experiments, however, it is anyway preferable if light means no input signal and thus no action. One can then operate under normal daylight conditions without stimulating the system inputs.

Assembly procedure

Olga got the strain RU1012(KmR) and the plasmids pCPH8(CmR) and pPL-PCB(AmpR) from Christopher Voigt <cavoigt at picasso.ucsf.edu&gt [Engineering Escherichia Coli to see light; Nature vol. 438.].

A autonomous light sensing system can be obtained by cloning those two plasmids into the strain.

  1. plate RU1012 on LB+Km
  2. pick RU1012 cultures -> 5ml liquid culture (LB+Km)
    1. inoculate 200ml liquid culture
    2. grow for 3h
    3. wash twice (that means centrifuge, pipet off the liquid, dissolve in fresh LB?)
    4. make them competent
    5. make samples
    6. transform with both pCPH8 and pPL-PCB
    7. plate on
      1. LB+Cm
      2. LB+Ap
      3. LB+Ap+Cm
    1. if cultures survive on the Ap+Cm plate inoculate liquid culture 5ml LB+Km
    2. run tests

Test procedure

  1. plate saturated liquid culture out on LB+envZ(15mg/50ml) plates.
  2. wrap one plate in something opaque, expose both plates to light at 37°C.
  3. the colonies on the wrapped plate should remain colorless, the ones exposed to light should become dark.

In the auxiliaries to the nature publication they state regarding theyer light source: ".1331 W/cm^2 from 620-680nm (active state of the phytochrome) and .0132 W/cm^2 from 715-755nm (inactive state of the phytochrome)". 715-755nm is near infrared, 620-680nm is red. The best matching commonly available light sources I can find would be [http://en.wikipedia.org/wiki/Image:Red-YellowGreen-Blue_LED_spectra.gif| red LED] [http://en.wikipedia.org/wiki/Image:Spectra-Philips_32T8_natural_sunshine_fluorescent_light.jpg| white fluorescent light] and [http://en.wikipedia.org/wiki/Image:Spectrum_of_blue_sky.gif| indirect skylight]. A simple battery driven LED light source such as a bicycle backlight should work and could be put into the incubator, but would not be very powerful. A compact fluorescent light might be more appropriate but harder to get.

Assembly progress

2006-10-16
  1. poured LB+Km plates --Ajk
  2. inoculated RU1012 on a LB+Km plate --Ajk
2006-10-17
  1. picked a RU1012 colony and inoculated a 5ml liquid culture (LB+Km), plate in fridge --Ajk
2006-10-18
  1. diluted the RU1012 liquid culture to 200ml and incubated it again --Ajk
  2. it turned out that my interpretation of the lab procedure notes I got was too minimalistic, had to set up a new 3ml liquid LB culture from another colony on the plate made th 16th. --Ajk
2006-10-19
  1. diluted yesterdays liquid culture to 2x50ml and grew it up to OD600=~.4 --Ajk
  2. poured plates 2x Amp and 4x Cm+Amp --Ajk
  3. washed the cultures twice with water, once with 10% glycerol --Ajk
  4. one shot of electroporesis with both pPCB and pCPH8 and one control without plasmids, leftover RU1012 in -80°C --Ajk
  5. plated on 4x Cm+Amp, 2x Cm, 2x Amp, control: 1x Cm, 1x Km leftover transformed cells in fridge --Ajk
2006-10-20
  1. found colonies on all plates except the Cm control which is perfect!! picked one of the colonies from a Cm+Amp plate into a 5ml liquid LB+Km culture for testing. --Ajk
  2. poured 2x LB+Km+envZ plates --Ajk
2006-10-21;
  1. plated 100ul liquid culture onto each of the LB+Km+envZ plates, wrapped one of them in tin foil and incubated both --Ajk
2006-10-23
  1. mounted the plates with bacteria-side towards the light source to a white fluorescent lamp for approx 6h --Ajk
2006-10-29
  1. made glycerol stocks of RU1012+pPCB+pCPH8, stored them in -80°C freezer at Sven Panke's lab --Ajk

Test results

The unwrapped plate stayed clear throughout the tests. The wrapped plate was deeply blue when it was inspected at the end. --Ajk 11:29, 23 October 2006 (EDT)

ETH06 Light sensing twoplatestest.jpg

Parts

[http://partsregistry.org/Featured_Parts:Light_Sensor light sensor device#BioBricks parts list]

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