Difference between revisions of "Part:BBa K1017603"
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This unit includes 37℃ RBS and LuxR. 37℃ RBS, a RBS which on/off is controlled by temperature. LuxR, a protein which can activate lux promoter after binding with AHL. This unit act as a biotheometer, producing lux protein when the environment is higher than 37℃ and stop expressing when lower than 37℃. | This unit includes 37℃ RBS and LuxR. 37℃ RBS, a RBS which on/off is controlled by temperature. LuxR, a protein which can activate lux promoter after binding with AHL. This unit act as a biotheometer, producing lux protein when the environment is higher than 37℃ and stop expressing when lower than 37℃. | ||
− | When the temperature is higher than 37℃, the downstream gene LuxR is expressed. Therefore , P<sub>lux</sub> is activated and the downstream gene, sRNA, can be produced, then the sRNA will bind to the rRBS so the Shine-Dalgarno sequence can't be exposed.Without the ribosome binding, causing the downstream gene of the rRBS can't be translated. When lower than 37℃, P<sub>lux</sub> is no longer activated , which means sRNA production shuts down. Thus, the | + | When the temperature is higher than 37℃, the downstream gene LuxR is expressed. Therefore , P<sub>lux</sub> is activated and the downstream gene, sRNA, can be produced, then the sRNA will bind to the rRBS so the Shine-Dalgarno sequence can't be exposed.Without the ribosome binding, causing the downstream gene of the rRBS can't be translated. When lower than 37℃, P<sub>lux</sub> is no longer activated , which means sRNA production shuts down. Thus, the downstream gene of the rRBS can be expressed normally. |
Revision as of 15:23, 24 September 2013
37℃ RBS + LuxR
This unit includes 37℃ RBS and LuxR. 37℃ RBS, a RBS which on/off is controlled by temperature. LuxR, a protein which can activate lux promoter after binding with AHL. This unit act as a biotheometer, producing lux protein when the environment is higher than 37℃ and stop expressing when lower than 37℃.
When the temperature is higher than 37℃, the downstream gene LuxR is expressed. Therefore , Plux is activated and the downstream gene, sRNA, can be produced, then the sRNA will bind to the rRBS so the Shine-Dalgarno sequence can't be exposed.Without the ribosome binding, causing the downstream gene of the rRBS can't be translated. When lower than 37℃, Plux is no longer activated , which means sRNA production shuts down. Thus, the downstream gene of the rRBS can be expressed normally.
Mechanism
When the temperature is higher than 37℃, 37℃ RBS functions normally and the downstream gene can be expressed. In contrast with high temperature,37℃ RBS forms a hairpin structure that block the ribosome binding when lower 37℃. Thus, the downstream gene, mGFP, is not able to translate.
Data
From chart 1, we can clearly found that the time to reach same O.D. value(0.8) various as the temperature changes. The expression of mGFP under 37°C and 42°C reached a higher OD value in less time than the expression below 37°C. This demonstrates the fact that 37°C RBS functions more efficiently above or at 37°C. On the other hand, the fact that 37°C RBS leads to moderate expression even under 37°C degree might be a problem, since then we cannot make sure that only single gene is expressed under 37°C.
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000COMPATIBLE WITH RFC[1000]