Difference between revisions of "Part:BBa K1332008"

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<h2>Synthesis of long-chain proteins</h2>
 
<h2>Synthesis of long-chain proteins</h2>
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<h4>Summary of the experiment</h4>
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Confirm repeating translation by SDS-PAGE.
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<h4>Result</h4>
 
[[File:gifupartreg5.png|500px|]]<br>
 
[[File:gifupartreg5.png|500px|]]<br>
 
[[File:gifupartreg6.png|500px|]]<br>
 
[[File:gifupartreg6.png|500px|]]<br>
  
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<br>
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The proteins over 250 kDa were detected. This means that long-chain protein was synthesized by the circular mRNA that does not have stop codon.
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<br>
 +
<br>
 +
 +
The proteins over 250 kDa were detected. This means that long-chain protein was synthesized by the circular mRNA that does not have stop codon.
 +
 +
<h2>Derived from RFP</h2>
 +
<h4>Summary of the experiment</h4>
 +
Perform the Western blotting using peroxidase RFP antibody
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<br>
  
  

Revision as of 00:01, 2 November 2014

mRNA circularization device (5 side)

This part consists of a promoter (lacI regulated), the 3´ side of the intron in td gene of T4 phage and RBS. The protein coding sequence that is inserted between this device and mRNA circularization device (3’ side) can be circularized. If you circularized the protein coding sequence (Its a stop codon have been removed.) with mRNA circularization device (3’ side) for endless translation, you can get a circular mRNA that is translated semi-permanently.

Circular Parts

Cirpart1.png
Figure 1. mRNA circularization device (5'side)

Part which surrounded by red closing line is mRNA circularization device (5’side).(figure 1)

How to use

You need modifying the prefix and suffix of a protein coding sequence. There is a stop codon “TAG” in a restriction site in the prefix, so insert “AG” just before the stop codon to shift a reading frame. (figure 2)
Prefix.png
Figure 2. Modifying the prefix of a protein coding sequence

There is a translation termination codon in the protein coding frame, so delete a part of the sequence to remove the translation termination codon. (figure 3)
Suffix.png
Figure 3. Modifying the suffix of a protein coding sequence

And then after that, you insert the protein coding sequence between this device and mRNA cicularization device (3’ side). At last, you insert the plasmid into E.coli. (figure 4)
(3' side device is K1332009)
Howtouse2.png
Figure 4. How to use Ciucular parts

Mechanism

Gifu mechanism2.png
Figure 5. Mechanism of mRNA circularization

A circular mRNA consists of RBS, the protein coding sequence and 56bp fragments of the mRNA circularization device. (figure 6)
Cyc-seq.png
Figure 6. Fragments of the mRNA circularization device (Red"GT" is removed.)

Adjust the length of a circular mRNA to multiples of 3 to keep a pattern of the reading frame.


The existence of the circular mRNA

ribonuclease processing

Summary of the experiment

The existence of circular mRNA is confirmed by ribonuclease(RNase) processing. We used two types of RNase. One is the endo-type RNase. This cleaves the RNA at random. The other is the exo-type RNase. This cleaves the RNA from end. In experiment, we prepared the linear mRNA(GAPDH) as a control. The linear mRNA is cleaved by either endo or exo-RNase. On the other hand, circular mRNA is cleaved by endo-RNase but not by exo-RNase. Because, circular mRNA has no end.
Gifupartreg1.png
Double-stranded DNA derived from leaving RNA can be gained with reverse transcription(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 synthesized from circular mRNA or endogenous RNA
3. Electrophoresis: to detect the DNA synthesized from the cDNA

[http://2014.igem.org/Gifu/protocols2#CRD Go to the page of detailed protocol]

Result

Gifupartreg2.png

3.5.6 We detected band
1.2.4.7.8 We detected no band

there is a band in the circular mRNA fraction which used exo-RNase. This meanes that circular mRNA exists.

the sequence of Circular mRNA

summary of the experiment

To get the evidence of circularization, we determined the sequence of circular mRNA that contains joint by reverse transcription. The joint is made after the circularization.
Gifupartreg3.png



Result

Gifupartreg4.png
This sequence is the same as we designed. This means that mRNA was circularized. And also, the sequence indicates that the reading frame cannot slip down if a ribosome rotates several laps.


Synthesis of long-chain proteins

Summary of the experiment

Confirm repeating translation by SDS-PAGE.

Result

Gifupartreg5.png
Gifupartreg6.png


The proteins over 250 kDa were detected. This means that long-chain protein was synthesized by the circular mRNA that does not have stop codon.



The proteins over 250 kDa were detected. This means that long-chain protein was synthesized by the circular mRNA that does not have stop codon.

Derived from RFP

Summary of the experiment

Perform the Western blotting using peroxidase RFP antibody




Sequence and Features


Assembly Compatibility:
  • 10
    COMPATIBLE WITH RFC[10]
  • 12
    COMPATIBLE WITH RFC[12]
  • 21
    COMPATIBLE WITH RFC[21]
  • 23
    COMPATIBLE WITH RFC[23]
  • 25
    COMPATIBLE WITH RFC[25]
  • 1000
    COMPATIBLE WITH RFC[1000]