Difference between revisions of "Part:BBa K1017602"
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[[File:NCTU 37RBS result.png|center|600px|Chart 1. 37°C RBS efficiency under different temperatures.]] | [[File:NCTU 37RBS result.png|center|600px|Chart 1. 37°C RBS efficiency under different temperatures.]] | ||
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+ | <p>As shown in Figure 7 the normalized expression, obtained by dividing the florescence expression (emmision 612 nm and excitation 584 nm) with the OD600 value, of GFP under 37 °C is much higher than the expression under 25 °C. Such result demonstrates the fact that 37 °C RBS can effectively regulate gene expression by responding to temperature. The increased kinetic energy at 37 °C is sufficient to cause the 37 °C RBS to unfold and become available for ribosome binding. At 25 °C, however, there isn't sufficient kinetic energy to unfold the hairpin structure and the structure is preserved. As a result, the translational efficiency is very low at 25 °C.</p> | ||
+ | [[File:600px-NCTU_Test_functional_test_of_37RBS.png|600px|cemter]] | ||
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Revision as of 15:28, 29 September 2013
37℃ RBS + mGFP
This biobrick is comprised of 37℃ RBS and mGFP. 37℃ RBS, a kind of RBS which is controlled by temperature. mGFP is a green fluorescent protein. In our project, we use this part to conduct the test of temperature regulated-system. Pcons promoter is a constitutive promoter. This promoter can be used to tune the expression level of constitutively expressed parts. By adding a Pcons promoter and controlling temperature , we can measure the O.D. value to determine the level of GFP's expression.
Mechanism
Data
From chart 1, we can clearly found that the time to reach same O.D. 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 under 32°C and 27°C. This demonstrates the fact that 37°C RBS functions more efficiently above or at 37°C. In our project, our goal is to get a certain product by a certain condition, but when under 37°C, the RBS also functions, which is out of our expectation. As a result, we cannot make sure that our system produces the only protein under 37°C.
As shown in Figure 7 the normalized expression, obtained by dividing the florescence expression (emmision 612 nm and excitation 584 nm) with the OD600 value, of GFP under 37 °C is much higher than the expression under 25 °C. Such result demonstrates the fact that 37 °C RBS can effectively regulate gene expression by responding to temperature. The increased kinetic energy at 37 °C is sufficient to cause the 37 °C RBS to unfold and become available for ribosome binding. At 25 °C, however, there isn't sufficient kinetic energy to unfold the hairpin structure and the structure is preserved. As a result, the translational efficiency is very low at 25 °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]