Team:SJTU-BioX-Shanghai

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<div class="title"><b>The Project: Condon Switch Controlling Protein Biosynthesis</b></div>
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<p>SJTU-BioX-Shanghai iGEM team is designing a modulating device that achieves fine tuning of target protein biosynthesis (translation). </p>
+
==BioBricks==
 +
 
 +
__TOC__
 +
 
 +
===Modulator===
 +
 
 +
'''Modulators''' control the amount of charged tRNAs that recognize rare/stop codons. These include tRNA Modulators, aaRS Modulators, Stop Codon Modulators and Initial Codon Modulators.
 +
 
 +
 
 +
====tRNA Modulators:====
 +
 
 +
====='''BBa_K567001  ''LacI'' -Ptrc-tRNA<sup>Arg</sup>''' (Favorite Part)=====
 +
 
 +
Description: ''LacI''- Ptrc derived from plasmid pTrc99B and tRNA<sup>Arg</sup> from ''E.coli'' ''ArgW'' operon. The tRNA<sup>Arg</sup> is under the control of promoter trc. tRNA<sup>Arg</sup> expression is induced by 0.5mM IPTG when the OD600 of the culture reaches 0.3. This part is constructed on the backbone plasmid pACYC184.
 +
 
 +
[[image:11SJTU-TRC.jpg|LacI -Ptrc-tRNA<sup>Arg</sup>]]
 +
 
 +
====='''BBa_K567002  ''sulA'' promoter-tRNA<sup>Arg</sup>'''=====
 +
 
 +
Description: ''sulA'' promoter derived from ''E.coli'' ''sulA'' operon and tRNA<sup>Arg</sup> from ''E.coli'' ''ArgW'' operon. The tRNA<sup>Arg</sup> is under the control of ''sulA'' promoter induced by UV. tRNA expression is induced by 20-second UV exposure (the distance between the 20W lamp and the culture is 35cm) when the OD600 of the culture reaches 0.3. This part is constructed on the backbone plasmid pACYC184.
 +
 
 +
[[image:11SJTU-UV.jpg|''sulA'' promoter-tRNA(Arg)]]
 +
 
 +
 
 +
====aaRS Modulators: ====
 +
 
 +
====='''BBa_K567012  tRNA<sup>Asp</sup>-AGG '''(Favorite Part)=====
 +
Description: tRNA<sup>Asp</sup> with its anticodon mutated to CCU(base pairing rare codon AGG) and under the control of ''lpp'' promoter. This biobrick is constructed first by cloning the tRNA<sup>Asp</sup> from ''AspV'' in ''E.coli'', then the anticodon region is site-directed mutated. This part is constructed on the backbone plasmid pACYC184.
 +
 
 +
[[image:11SJTU-tRNA-asp-AGG.jpg|tRNA<sup>Asp</sup>-AGG]]
 +
 
 +
====='''BBa_K567011  PT7-TDRS''' (Favorite Part)=====
 +
 
 +
Description: aspartyl aminoacyl tRNA synthetase without anticodon recognition domain under the control of T7 promoter and ''lac'' operator. This biobrick is constructed by deleting the anticodon recognition domain of AspRS from ''E.coli''. This modified AspRS can charge Asp to tRNA<sup>Asp</sup>-TAG (BBa_K567013) and tRNA<sup>Asp</sup>-AGG (BBa_K567012). This part is constructed by inserting the truncated fragment of Gene ''AspS'' into the multiple cloning site on the plasmid pET28a.
 +
 
 +
====Stop-Codon Modulators: ====
 +
 
 +
====='''BBa_K567013  tRNA<sup>Asp</sup>-TAG ''' (Favorite Part)=====
 +
Description: tRNA<sup>Asp</sup> with its anticodon mutated to CUA (base pairing stop codon UAG) and under the control of ''lpp'' promoter. This biobrick is constructed first by cloning the tRNA<sup>Asp</sup> from ''AspV'' in ''E.coli'', then the anticodon region is site-directed mutated. This part is constructed on the backbone plasmid pACYC184.
 +
 
 +
[[image:11SJTU-tRNA-asp-TAG.jpg|tRNA<sup>Asp</sup>-TAG]]
 +
 
 +
====='''BBa_K567011  PT7-TDRS'''=====
 +
 
 +
Description: aspartyl aminoacyl tRNA synthetase without anticodon recognition domain under the control of T7 promoter and ''lac'' operator. This biobrick is constructed by deleting the anticodon recognition domain of AspRS from ''E.coli''. This modified AspRS can charge Asp to tRNA<sup>Asp</sup>-TAG (BBa_K567013) and tRNA<sup>Asp</sup>-AGG (BBa_K567012). This part is constructed by inserting the truncated fragment of Gene ''AspS'' into the multiple cloning site on the plasmid pET28a.
 +
 
 +
====Initial-Codon Modulators:====
 +
 
 +
====='''BBa_K567014 PT7-''metG''M'''=====
 +
Description: T7 promoter-''metG''(mutated). This biobrick is constructed by putting the mutated metG (Met-RS) under the control of T7 promoter and ''lac'' operator. We have cloned ''metG'' from ''E.coli'' and have used error-prone PCR to amplify the ''metG''. Kana gene with start codon substituted for CGA is used to testify the function of mutated metG. When this biobrick and ''metY''-CGA (BBa_K567016) are co-transformed into the cell, the cells can survive on the LBKana plate. This part is constructed on by inserting the Gene ''metG'' fragment with random mutation into the multiple cloning site on the plasmid pET28a.
 +
 
 +
====='''BBa_K567015  PT7-''metG''N'''=====
 +
Description: T7 promoter-''metG''(truncated). This biobrick is constructed by putting the truncated metG (Met-RS) under the control of T7 promoter and ''lac'' operator. We have cloned ''metG'' from ''E.coli'' and the tRNA recognition domain of metG is truncated. Kana gene with start codon substituted for CGA is used to testify the function of mutated metG. When this biobrick and ''metY''-CGA (BBa_K567016) are co-transformed into the cell, the cells can survive on the LBKana plate. This part is constructed on by inserting the truncated Gene ''metG'' fragment into the multiple cloning site on the plasmid pET28a.
 +
 
 +
====='''BBa_K567016  ''metY''-CGA'''=====
 +
Description: This biobrick is constructed by mutating the anticodon of tRNAmet to TCG (base pairing codon CGA). This tRNA can transfer fMet to CGA when it is used as the start codon. Kana gene with start codon substituted for CGA is used to testify the function of ''metY''-CGA. When this biobrick and ''metG''M(BBa_K567014) or ''metG''N(BBa_K567015) are co-transformed into the cell, the cells can survive on the LBKana plate. This part is constructed on the backbone plasmid pACYC184.
 +
 
 +
[[image:11SJTU-tRNA-met-CGA.jpg|metY-CGA]]
 +
 
 +
 
 +
----
 +
 
 +
===Reporter===
 +
 
 +
'''Reporters''': we use two sets of Reporters to test the function of our Modulators.
 +
 
 +
====Reporter for Quantitative analysis:====
 +
 
 +
====='''BBa_K567003  P''bla''-Luc-TAG''' =====
 +
 
 +
Description: Luciferase under the control of β-lactamase promoter with TAG insertion. A TAG codon is inserted after the initial codon of the gene. This part is used to testify the function of corporation of PT7-TDRS (BBa_K567011) and tRNA<sup>Asp</sup>-TAG (BBa_K567013). β-lactamase promoter is derived from pUC18 β-lactamase operon. Wild type luciferase from BBa_I712019. This part is constructed on the plasmid pET28a as backbone.
 +
 
 +
[[image:11SJTU-LUC-TAG.jpg|Pbla-Luc-TAG]]
 +
 
 +
====='''BBa_K567004    P''bla''-Luc-2AGG'''=====
 +
 
 +
Description: β-lactamase promoter-luciferase with two AGG-codon insertions. This biobrick is constructed by putting modified enzyme luciferase under constituitive promoter β-lactamase promoter. 2 AGG codons and 2 GCG codons are inserted after the ATG start codon of wild type luciferase (BBa_I712019). Modified luciferase keeps the activity of converting luciferin into oxyluciferin, during which bioluminescence will emit. This part is one of the reporter genes to testify the influence of different number of rare codons in regulating protein biosynthesis. This part is used as a measurement to testify the function of ''LacI'' -Ptrc-tRNA<sup>Arg</sup>(BBa_K567001) or ''sulA'' promoter-tRNA<sup>Arg</sup> (BBa_K567002).  
 +
 
 +
Cell is cultured in 50ug/ml kanamycin and 10ug/ml tetracycline LB liquid medium. When the OD600 of the culture reaches 0.3 IPTG is added to make the final concentration 0.5nM to induce the synthesis of tRNA.
 +
 
 +
Ultrasonication is used to release the luciferase from the cell. Sonics ON 3 seconds, OFF 3 seconds, total ultrasonication time 3 minutes.
 +
 
 +
Amount of bioluminescence produced can be detected using luminometer.
 +
 
 +
β-lactamase promoter is derived from pUC18 β-lactamase operon. Wild type luciferase from BBa_I712019. This part is constructed on the plasmid pET28a as backbone.
 +
 
 +
Point mutation is used to obtain this part from wild type. '''BBa_K567005  P''bla''-Luc-4AGG, BBa_K567006  P''bla''-Luc-6AGG and BBa_K567007  P''bla''-Luc-8AGG''' are constructed in the same way.
 +
 
 +
====='''BBa_K567005    P''bla''-Luc-4AGG'''=====
 +
 
 +
Description: β-lactamase promoter-Luciferase with four AGG-codon insertions. Point mutation is used to obtain this part from wild type. BBa_K567005  P''bla''-Luc-4AGG is constructed in the same way as '''BBa_K567004    P''bla''-Luc-2AGG'''.
 +
 
 +
====='''BBa_K567006    P''bla''-Luc-6AGG'''=====
 +
 
 +
Description: β-lactamase promoter-Luciferase with six AGG-codon insertions. Point mutation is used to obtain this part from wild type. BBa_K567006  P''bla''-Luc-6AGG is constructed in the same way as '''BBa_K567004    P''bla''-Luc-2AGG'''.
 +
 
 +
====='''BBa_K567007    P''bla''-Luc-8AGG'''=====
 +
 
 +
Description: β-lactamase promoter-Luciferase with eight AGG-codon insertions. Point mutation is used to obtain this part from wild type. BBa_K567007  P''bla''-Luc-8AGG is constructed in the same way as '''BBa_K567004    P''bla''-Luc-2AGG'''.
 +
 
 +
[[image:11SJTU-bla-AGG-luc.jpg|600px|Pbla-Luc]]
 +
 
 +
====='''BBa_K567008  PT7-Luc-2AGG'''=====
 +
Description: this biobrick is constructed by putting modified enzyme luciferase under promoter T7 and controlled by lac operator. 2 AGG codons and 2 GCG codons are inserted after the ATG start codon of wild type luciferase (BBa_I712019). Modified luciferase keeps the activity of converting luciferin into oxyluciferin, during which bioluminescence will emit. This part is one of the reporter genes to testify the influence of different number of rare codons in regulating protein biosynthesis. This part is used as a measurement to testify the function of ''LacI'' -Ptrc-tRNA<sup>Arg</sup> (BBa_K567001) or ''sulA'' promoter-tRNA<sup>Arg</sup> (BBa_K567002).
 +
 
 +
Cell is cultured in 50ug/ml kanamycin 10ug/ml tetracycline LB liquid medium. When the OD600 of the culture reaches 0.3 IPTG is added to make the final concentration 0.5nM to induce the synthesis of tRNA.
 +
 
 +
Ultrasonication is used to release the luciferase from the cell. Sonics ON 3 seconds, OFF 3 seconds, total ultrasonication time 3minutes.
 +
 
 +
Amount of bioluminescence produced can be detected using luminometer.
 +
 
 +
T7 promoter is derived from pET28a. Wild type Luciferase derived from BBa_I712019.
 +
 
 +
'''BBa_K567009  PT7-Luc-4AGG, BBa_K567010  PT7-Luc-8AGG and BBa_K567019  PT7-Luc-6AGG''' are constructed in the same way.
 +
 
 +
====='''BBa_K567009  PT7-Luc-4AGG'''=====
 +
Description: this biobrick is constructed by putting modified enzyme luciferase under promoter T7 and controlled by lac operator.This biobrick is constructed in the same way as '''BBa_K567008  PT7-Luc-2AGG'''.
 +
 
 +
====='''BBa_K567019  PT7-Luc-6AGG'''=====
 +
Description: this biobrick is constructed by putting modified enzyme luciferase under promoter T7 and controlled by lac operator.This biobrick is constructed in the same way as '''BBa_K567008  PT7-Luc-2AGG'''.
 +
 
 +
====='''BBa_K567010  PT7-Luc-8AGG'''=====
 +
Description: this biobrick is constructed by putting modified enzyme luciferase under promoter T7 and controlled by lac operator.This biobrick is constructed in the same way as '''BBa_K567008  PT7-Luc-2AGG'''.
-
<p>The translation of the protein can be finely turned up/down with the control of the number of rare codons and the different strength of tRNA induction.</p>
+
[[image:11SJTU-T7-AGG-luc.jpg|600px|PT7-Luc]]
-
<p>Besides, our device can be made into a real switch that can be turned on/off without background protein expression in two ways. One is to use any codon but initial codons to initiate translation, the other is to use stop codon as the controlling element.
 
-
<img src="/wiki/images/e/e2/11SJTU_home_fig1.jpg"  alt="Project" style="float:right;"/></p>
 
-
<p>Moreover, our design would be a brand-new way to selectively express part of a gene or introduce point mutations into target residues in proteins, thus favoring the study of the important domains or residues of a target protein.
 
-
</p>
+
====Reporter for Qualitative Analysis:====
-
<a href="/wiki/Team:SJTU-BioX-Shanghai/Project">>>Goto Project</a>
+
====='''BBa_K567017 PT7-RFP-6AGG'''=====
-
</div>
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Description: RFP with 6 AGG-codon insertions after ATG under the control of T7 promoter and lac operator. The protein can be expressed successfully when co-transformed with PT7-TDRS (BBa_K567011) and tRNA<sup>Asp</sup>-AGG (BBa_K567012). Modified RFP exhibits lower red fluorescence brightness. This part is used to testify the function of PT7-TDRS (BBa_K567011). This part is constructed by inserting the RFP-6AGG fragment into the multiple cloning site on the plasmid pET28a.
-
<div class="box"><div class="t"><b>Team</b></div></div>
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[[image:11SJTU-RFP-6AGG.jpg|PT7-RFP-6AGG]]
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<div class="box"><div class="t"><b>Parts</b></div></div>
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<div class="box"><div class="t"><b>Notebook</b></div></div>
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<div class="box"><div class="t"><b>Human Practice</b></div></div>
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-
</div>
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====='''BBa_K567018 PT7-GFP-TAG-RFP'''=====
 +
Description: GFP and RFP linked with a flexible chain and a stop codon TAG is inserted in the flexible chain. This biobrick is under the control of T7 promoter and lac operator. This part is used to testify the function of PT7-TDRS (BBa_K567011) and tRNA<sup>Asp</sup>-TAG (BBa_K567013). This part is constructed by inserting the GFP-TAG-RFP fragment into the multiple cloning site on the plasmid pET28a.
-
</div>
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[[image:11SJTU-GFP-TAG-RFP.jpg|PT7-GFP-TAG-RFP]]
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Revision as of 16:21, 4 October 2011



  • BioBricks

    Contents


    Modulator

    Modulators control the amount of charged tRNAs that recognize rare/stop codons. These include tRNA Modulators, aaRS Modulators, Stop Codon Modulators and Initial Codon Modulators.


    tRNA Modulators:

    BBa_K567001 LacI -Ptrc-tRNAArg (Favorite Part)

    Description: LacI- Ptrc derived from plasmid pTrc99B and tRNAArg from E.coli ArgW operon. The tRNAArg is under the control of promoter trc. tRNAArg expression is induced by 0.5mM IPTG when the OD600 of the culture reaches 0.3. This part is constructed on the backbone plasmid pACYC184.

    LacI -Ptrc-tRNAArg

    BBa_K567002 sulA promoter-tRNAArg

    Description: sulA promoter derived from E.coli sulA operon and tRNAArg from E.coli ArgW operon. The tRNAArg is under the control of sulA promoter induced by UV. tRNA expression is induced by 20-second UV exposure (the distance between the 20W lamp and the culture is 35cm) when the OD600 of the culture reaches 0.3. This part is constructed on the backbone plasmid pACYC184.

    sulA promoter-tRNA(Arg)


    aaRS Modulators:

    BBa_K567012 tRNAAsp-AGG (Favorite Part)

    Description: tRNAAsp with its anticodon mutated to CCU(base pairing rare codon AGG) and under the control of lpp promoter. This biobrick is constructed first by cloning the tRNAAsp from AspV in E.coli, then the anticodon region is site-directed mutated. This part is constructed on the backbone plasmid pACYC184.

    tRNAAsp-AGG

    BBa_K567011 PT7-TDRS (Favorite Part)

    Description: aspartyl aminoacyl tRNA synthetase without anticodon recognition domain under the control of T7 promoter and lac operator. This biobrick is constructed by deleting the anticodon recognition domain of AspRS from E.coli. This modified AspRS can charge Asp to tRNAAsp-TAG (BBa_K567013) and tRNAAsp-AGG (BBa_K567012). This part is constructed by inserting the truncated fragment of Gene AspS into the multiple cloning site on the plasmid pET28a.

    Stop-Codon Modulators:

    BBa_K567013 tRNAAsp-TAG (Favorite Part)

    Description: tRNAAsp with its anticodon mutated to CUA (base pairing stop codon UAG) and under the control of lpp promoter. This biobrick is constructed first by cloning the tRNAAsp from AspV in E.coli, then the anticodon region is site-directed mutated. This part is constructed on the backbone plasmid pACYC184.

    tRNAAsp-TAG

    BBa_K567011 PT7-TDRS

    Description: aspartyl aminoacyl tRNA synthetase without anticodon recognition domain under the control of T7 promoter and lac operator. This biobrick is constructed by deleting the anticodon recognition domain of AspRS from E.coli. This modified AspRS can charge Asp to tRNAAsp-TAG (BBa_K567013) and tRNAAsp-AGG (BBa_K567012). This part is constructed by inserting the truncated fragment of Gene AspS into the multiple cloning site on the plasmid pET28a.

    Initial-Codon Modulators:

    BBa_K567014 PT7-metGM

    Description: T7 promoter-metG(mutated). This biobrick is constructed by putting the mutated metG (Met-RS) under the control of T7 promoter and lac operator. We have cloned metG from E.coli and have used error-prone PCR to amplify the metG. Kana gene with start codon substituted for CGA is used to testify the function of mutated metG. When this biobrick and metY-CGA (BBa_K567016) are co-transformed into the cell, the cells can survive on the LBKana plate. This part is constructed on by inserting the Gene metG fragment with random mutation into the multiple cloning site on the plasmid pET28a.

    BBa_K567015 PT7-metGN

    Description: T7 promoter-metG(truncated). This biobrick is constructed by putting the truncated metG (Met-RS) under the control of T7 promoter and lac operator. We have cloned metG from E.coli and the tRNA recognition domain of metG is truncated. Kana gene with start codon substituted for CGA is used to testify the function of mutated metG. When this biobrick and metY-CGA (BBa_K567016) are co-transformed into the cell, the cells can survive on the LBKana plate. This part is constructed on by inserting the truncated Gene metG fragment into the multiple cloning site on the plasmid pET28a.

    BBa_K567016 metY-CGA

    Description: This biobrick is constructed by mutating the anticodon of tRNAmet to TCG (base pairing codon CGA). This tRNA can transfer fMet to CGA when it is used as the start codon. Kana gene with start codon substituted for CGA is used to testify the function of metY-CGA. When this biobrick and metGM(BBa_K567014) or metGN(BBa_K567015) are co-transformed into the cell, the cells can survive on the LBKana plate. This part is constructed on the backbone plasmid pACYC184.

    metY-CGA



    Reporter

    Reporters: we use two sets of Reporters to test the function of our Modulators.

    Reporter for Quantitative analysis:

    BBa_K567003 Pbla-Luc-TAG

    Description: Luciferase under the control of β-lactamase promoter with TAG insertion. A TAG codon is inserted after the initial codon of the gene. This part is used to testify the function of corporation of PT7-TDRS (BBa_K567011) and tRNAAsp-TAG (BBa_K567013). β-lactamase promoter is derived from pUC18 β-lactamase operon. Wild type luciferase from BBa_I712019. This part is constructed on the plasmid pET28a as backbone.

    Pbla-Luc-TAG

    BBa_K567004 Pbla-Luc-2AGG

    Description: β-lactamase promoter-luciferase with two AGG-codon insertions. This biobrick is constructed by putting modified enzyme luciferase under constituitive promoter β-lactamase promoter. 2 AGG codons and 2 GCG codons are inserted after the ATG start codon of wild type luciferase (BBa_I712019). Modified luciferase keeps the activity of converting luciferin into oxyluciferin, during which bioluminescence will emit. This part is one of the reporter genes to testify the influence of different number of rare codons in regulating protein biosynthesis. This part is used as a measurement to testify the function of LacI -Ptrc-tRNAArg(BBa_K567001) or sulA promoter-tRNAArg (BBa_K567002).

    Cell is cultured in 50ug/ml kanamycin and 10ug/ml tetracycline LB liquid medium. When the OD600 of the culture reaches 0.3 IPTG is added to make the final concentration 0.5nM to induce the synthesis of tRNA.

    Ultrasonication is used to release the luciferase from the cell. Sonics ON 3 seconds, OFF 3 seconds, total ultrasonication time 3 minutes.

    Amount of bioluminescence produced can be detected using luminometer.

    β-lactamase promoter is derived from pUC18 β-lactamase operon. Wild type luciferase from BBa_I712019. This part is constructed on the plasmid pET28a as backbone.

    Point mutation is used to obtain this part from wild type. BBa_K567005 Pbla-Luc-4AGG, BBa_K567006 Pbla-Luc-6AGG and BBa_K567007 Pbla-Luc-8AGG are constructed in the same way.

    BBa_K567005 Pbla-Luc-4AGG

    Description: β-lactamase promoter-Luciferase with four AGG-codon insertions. Point mutation is used to obtain this part from wild type. BBa_K567005 Pbla-Luc-4AGG is constructed in the same way as BBa_K567004 Pbla-Luc-2AGG.

    BBa_K567006 Pbla-Luc-6AGG

    Description: β-lactamase promoter-Luciferase with six AGG-codon insertions. Point mutation is used to obtain this part from wild type. BBa_K567006 Pbla-Luc-6AGG is constructed in the same way as BBa_K567004 Pbla-Luc-2AGG.

    BBa_K567007 Pbla-Luc-8AGG

    Description: β-lactamase promoter-Luciferase with eight AGG-codon insertions. Point mutation is used to obtain this part from wild type. BBa_K567007 Pbla-Luc-8AGG is constructed in the same way as BBa_K567004 Pbla-Luc-2AGG.

    Pbla-Luc

    BBa_K567008 PT7-Luc-2AGG

    Description: this biobrick is constructed by putting modified enzyme luciferase under promoter T7 and controlled by lac operator. 2 AGG codons and 2 GCG codons are inserted after the ATG start codon of wild type luciferase (BBa_I712019). Modified luciferase keeps the activity of converting luciferin into oxyluciferin, during which bioluminescence will emit. This part is one of the reporter genes to testify the influence of different number of rare codons in regulating protein biosynthesis. This part is used as a measurement to testify the function of LacI -Ptrc-tRNAArg (BBa_K567001) or sulA promoter-tRNAArg (BBa_K567002).

    Cell is cultured in 50ug/ml kanamycin 10ug/ml tetracycline LB liquid medium. When the OD600 of the culture reaches 0.3 IPTG is added to make the final concentration 0.5nM to induce the synthesis of tRNA.

    Ultrasonication is used to release the luciferase from the cell. Sonics ON 3 seconds, OFF 3 seconds, total ultrasonication time 3minutes.

    Amount of bioluminescence produced can be detected using luminometer.

    T7 promoter is derived from pET28a. Wild type Luciferase derived from BBa_I712019.

    BBa_K567009 PT7-Luc-4AGG, BBa_K567010 PT7-Luc-8AGG and BBa_K567019 PT7-Luc-6AGG are constructed in the same way.

    BBa_K567009 PT7-Luc-4AGG

    Description: this biobrick is constructed by putting modified enzyme luciferase under promoter T7 and controlled by lac operator.This biobrick is constructed in the same way as BBa_K567008 PT7-Luc-2AGG.

    BBa_K567019 PT7-Luc-6AGG

    Description: this biobrick is constructed by putting modified enzyme luciferase under promoter T7 and controlled by lac operator.This biobrick is constructed in the same way as BBa_K567008 PT7-Luc-2AGG.

    BBa_K567010 PT7-Luc-8AGG

    Description: this biobrick is constructed by putting modified enzyme luciferase under promoter T7 and controlled by lac operator.This biobrick is constructed in the same way as BBa_K567008 PT7-Luc-2AGG.

    PT7-Luc


    Reporter for Qualitative Analysis:

    BBa_K567017 PT7-RFP-6AGG

    Description: RFP with 6 AGG-codon insertions after ATG under the control of T7 promoter and lac operator. The protein can be expressed successfully when co-transformed with PT7-TDRS (BBa_K567011) and tRNAAsp-AGG (BBa_K567012). Modified RFP exhibits lower red fluorescence brightness. This part is used to testify the function of PT7-TDRS (BBa_K567011). This part is constructed by inserting the RFP-6AGG fragment into the multiple cloning site on the plasmid pET28a.

    PT7-RFP-6AGG

    BBa_K567018 PT7-GFP-TAG-RFP

    Description: GFP and RFP linked with a flexible chain and a stop codon TAG is inserted in the flexible chain. This biobrick is under the control of T7 promoter and lac operator. This part is used to testify the function of PT7-TDRS (BBa_K567011) and tRNAAsp-TAG (BBa_K567013). This part is constructed by inserting the GFP-TAG-RFP fragment into the multiple cloning site on the plasmid pET28a.

    PT7-GFP-TAG-RFP