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| | <p> In this study, we adopted two sequences. One is <b>GGSGGS</b> which works as linker, and the other is <b>HHHHHH</b> which becomes a histidine tag.</p> | | <p> In this study, we adopted two sequences. One is <b>GGSGGS</b> which works as linker, and the other is <b>HHHHHH</b> which becomes a histidine tag.</p> |
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| | + | <p><b>Summary of the experiment</b></p> |
| | + | <p> The existence of circular mRNA is confirmed by RNase processing. Endogenous RNA (linear RNA)(GAPDH) is decomposed by RNase R (exoribonuclease), but circular RNA is not decomposed. <br> |
| | + | Double-stranded DNA from undecomposed RNA can be gained with RT-PCR. So the existence of circular mRNA is confirmed by the observation of the DNA with electrophoresis.<br><br><br></p> |
| | + | |
| | + | <p><b>Flow of the experiment</p></b> |
| | + | <p>Purpose: proving the existence of circular mRNA<br> |
| | + | Goal: finding the RNA that is decomposed by endoribonuclease but is not decomposed by exoribonuclease<br> |
| | + | Protocol: <br> |
| | + | 1. RNase processing: to find the circular mRNA<br> |
| | + | 2. RT-PCR: to synthesize cDNA and to detect the cDNA <br> |
| | + | 3. synthesized from circular mRNA or endogenous RNA<br> |
| | + | Electrophoresis: to detect the DNA synthesized from the cDNA<br> |
| | + | </p><br><br> |
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Revision as of 05:37, 17 September 2015
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PROJECT
EXPERIMENTS
Making functional long chain protein
In our last study, our long chain protein lost its function. As a reason, we had an idea that the protein lost its holding structure because it was much longer. Therefore, we aimed to synthesize functional long chain proteins by designing some linkers in this year.
Fig1. the role of linker
The requirements for amino acids that can be good linkers are less of steric effects and strong in hydropathy. Glycine and serine fulfill this requirements. Glycine’ side chain has almost no steric effects. On the other hand, serine has some steric effects but it has powerful hydropathy because of its hydroxyl side chain. According to Mr. Yabe, because histidine has quite strong hydropathy, though it has big steric effects, it is possible that histidine can work as a linker.
Then, we designed some linkers [ see right ]. "GGSGGS", "GSGSGS", and "HHHHHH" were designed as linkers. We combined these sequence and inserted. The pattern of combination was shown below.
Amino acid chains synthesized from circular mRNA are constructed from repetition in amino acid of target protein, amino acid from ribozyme and amino acid from RBS. In this experiment, we inserted linker sequences into inside of both splicing sites. Therefore, protein chains synthesized from circular messenger RNA that include linker sequences repeat linker sequence, amino acid from RBS, target protein, linker sequence and amino acid from ribozyme.
Generally speaking, length of linker is required of one-forth of diameter of target protein. In the case of RFP, that condition is surely cleared by six amino acid, but it is unknown which linkers are appropriate in order to synthesize poly RFP protein. Therefore, we examined some types of amino acids and length of linker and choice the best linker in this experiment.
We inserted these plasmid into an E. coli and made it synthesize proteins and performed SDS-PAGE by using these proteins. We did SDS-PAGE without boiling to check fluorescence of RFP. Because RFP’s structure is strong, we can see the fluorescence.
developing the efficiency of circularization
About the complementary sequences at outside of both splicing sites
In last year, we made a circular part by cloning splicing site from an intron of T4 phage. There are the complementary sequences inside the splicing site in this intron. We thought that the sequence brings one splicing site close to the other one and ensures the reaction takes place.
Therefore, we cloned splicing sites with complementary sequences in intron and made it into parts. Moreover, we made the device which express circular mRNA by using this part, and made its express in E. coli. Then, complementary sequences are included in outside of both splicing sites in RNA.
About the complementary sequences at inside of both splicing sites
In case of designing complementary sequences at inside of both splicing sites, its sequence need including in a circular mRNA expressed in E. coli. We wanted to synthesize long chain proteins by making a circular mRNA translated semi-permanent. We had to design a complementary sequence which codes functional protein because the complementary sequence for inside was translated.
In this study, we adopted two sequences. One is GGSGGS which works as linker, and the other is HHHHHH which becomes a histidine tag.
Summary of the experiment
The existence of circular mRNA is confirmed by RNase processing. Endogenous RNA (linear RNA)(GAPDH) is decomposed by RNase R (exoribonuclease), but circular RNA is not decomposed.
Double-stranded DNA from undecomposed RNA can be gained with RT-PCR. So the existence of circular mRNA is confirmed by the observation of the DNA with electrophoresis.
Flow of the experiment
Purpose: proving the existence of circular mRNA
Goal: finding the RNA that is decomposed by endoribonuclease but is not decomposed by exoribonuclease
Protocol:
1. RNase processing: to find the circular mRNA
2. RT-PCR: to synthesize cDNA and to detect the cDNA
3. synthesized from circular mRNA or endogenous RNA
Electrophoresis: to detect the DNA synthesized from the cDNA
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