Difference between revisions of "Part:BBa K5241010"
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+ | <td>(Ultraviolet irradiation of 168.5 μW/cm³)Ultraviolet irradiation time.</td> | ||
+ | <td>E. coli transformed with the mel gene survival</td> | ||
+ | <td>E. coli transformed with the mel gene survival(Experimental results figure)</td> | ||
+ | <td>yeast survival(Not transformed.)</td> | ||
+ | <td>yeast survival(Experimental results figure)</td> | ||
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Revision as of 05:55, 29 September 2024
GA11-mel-CYC1
Short Description:
the mel gene encodes tyrosinase, which is one of the key enzymes in melanin synthesis. This enzyme catalyzes the conversion of tyrosine to L-DOPA and ultimately forms melanin through a series of oxidation reactions.
Gene Circuit Diagram:
Source:Pseudomonas maltophilia
Description:
The yeast galactokinase (GAL1) gene is a strongly inducible promoter and is the most commonly used promoter in the yeast recombinant protein expression system. The transcriptional activity of the GAL1 promoter is related to the carbon source in the culture medium. In the presence of glucose, the transcription of the GAL1 promoter is inhibited; galactose, on the other hand, activates the promoter. Typically, after about 4 hours of induction with galactose, the expression of recombinant proteins can be detected in cells cultured with glucose. The role of the mel gene in brewing yeast is mainly as a reporter gene. The tyrosinase enzyme it encodes can catalyze the conversion of tyrosine to dopamine, which is then further converted into melanin. This produced melanin is non-toxic and harmless, allowing for the direct observation of a black phenotype on the culture medium without the need to add color-developing compounds or use special instruments.
The melanin expressed by the mel gene in brewing yeast appears red, possibly because a larger amount of pheomelanin is produced.
Source:Pseudomonas maltophilia
Result
The transformation of brewing yeast with mel gene
<1>Measuring the radiation resistance of brewing yeast expressing melanin using UV irradiation experiment.
Preliminary experiments on ultraviolet lethality were conducted using red yeast expressing the mel gene.
. After spreading on YPD agar plates, the yeast was exposed to 254+302+365nm UV radiation with the lid on, and then incubated in a 30-degree incubator until colonies were visible (total of 24 hours), and then observed and photographed.
The Saccharomyces cerevisiae that we have engineered possesses certain radiation-resistant effects.
<2>The optimization of UV irradiation experiments.
We realized that using a single colony for UV irradiation experiments was inadequate for presenting complete results. Therefore, we added a control group with normal yeast that had not been transformed with melanin and conducted UV irradiation experiments.The survival of yeast expressing the mel gene, which produces melanin, and normal yeast after exposure to ultraviolet light with an intensity of 168.5 μW/cm³ is as follows.
(Ultraviolet irradiation of 168.5 μW/cm³)Ultraviolet irradiation time.
E. coli transformed with the mel gene survival
E. coli transformed with the mel gene survival(Experimental results figure)
yeast survival(Not transformed.)
yeast survival(Experimental results figure)
0h
160
88
2h
117
62
4h
115
18
8h
109
4
Reference documentation
[1] Ruohola, H., Liljeström, P. L., Torkkeli, T., Kopu, H., Lehtinen, P., Kalkkinen, N., & Korhola, M. (1986). Expression and regulation of the yeast MEL1 gene. FEMS Microbiology Letters, 34(2), 179–185.
[2] Naumov, G., Naumova, E., Turakainen, H., Suominen, P., & Korhola, M. (1990). A new family of polymorphic genes in Saccharomyces cerevisiae: alpha-galactosidase genes MEL1-MEL7. Molecular Genetics and Genomics, 224(1), 119–128.
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25INCOMPATIBLE WITH RFC[25]Illegal AgeI site found at 150
- 1000COMPATIBLE WITH RFC[1000]