Difference between revisions of "Part:BBa K2549041"

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<partinfo>BBa_K2549041 short</partinfo>
 
<partinfo>BBa_K2549041 short</partinfo>
  
This part is one of the downstream elements of our amplifier. It is constructed by fusing NLS and TEV protease, from N terminal to C terminal. NLS is a short nuclear location sequence from SV40 large T antigen. TEVp is a mutant TEV (tobacco etch virus) protease whose autoactivation is removed, thus performing more efficient cleavage. When coexpressed with VP64-dNLS-ZF21.16 in the same cell, it can destroy the nuclear location sequence and prevent the transcription activator from inducing the gene expression. Similarly, the cleavage can be conducted with the KRAB-dNLS-ZF21.16, thus keeping the repressor from switching off the gene expression.
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This part is one of the downstream elements of our amplifier. It is constructed by fusing NLS ([[Part:BBa_K2549054]]) and TEV protease ([[Part:BBa_K2549013]]), from N terminal to C terminal. NLS is a short nuclear location sequence from SV40 large T antigen. TEVp is a mutant TEV (tobacco etch virus) protease whose autoactivation is removed, thus performing more efficient cleavage<ref>Tobacco etch virus protease: mechanism of autolysis and rational design of stable mutants with wild-type catalytic proficiency. Kapust RB, Tözsér J, Fox JD, ..., Copeland TD, Waugh DS. Protein Eng, 2001 Dec;14(12):993-1000  PMID: 11809930</ref>. When coexpressed with VP64-dNLS-ZF21.16 ([[Part:BBa_K2549039]]) in the same cell, it can destroy the nuclear localization sequence and prevent the transcription activator from inducing the gene expression. Similarly, the cleavage can be conducted with the KRAB-dNLS-ZF21.16 ([[Part:BBa_K2549040]]), thus keeping the repressor from switching off the gene expression.
 
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===Usage and Biology===
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<partinfo>BBa_K2549041 SequenceAndFeatures</partinfo>
 
<partinfo>BBa_K2549041 SequenceAndFeatures</partinfo>
  
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===Biology===
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=====Our characterization=====
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[[File:IMPLY.png|none|410px|thumb|'''TEVp-based IMPLY gate.''' A degradable EGFP (d2EGFP) is produced downstream the promoter of the Combiner to indicate the output (CusP) strength. DBD, DNA binding domain which is zinc finger in our assay. SD, silencing-form transcriptional domain. RE, responsive elements. RFI, relative fluorescence intensity. More details please visit http://2018.igem.org/Team:Fudan/Results and http://2018.igem.org/Team:Fudan/Measurement .]]
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We show that when KRAB-dNLS-ZF21.16 ([[Part:BBa_K2549040]]) exist while TEVp ([[Part:BBa_K2549041]]) did not, the expression of d2EGFP was repressed by KRAB. When TEVp and KRAB-dNLS-ZF21.16 both were present, TEVp cleaves dNLS and prevents KRAB functional, although the release from the suppression was not as strong as we hoped. NS3 cis-protease is on our list to try next<ref>Chemogenetic control of gene expression and cell signaling with antiviral drugs. Tague EP, Dotson HL, Tunney SN, Sloas DC, Ngo JT. Nat Methods, 2018 Jul;15(7):519-522  PMID: 29967495; DOI: 10.1038/s41592-018-0042-y</ref>.
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====TEV protease-based transcription regulation or proteolysis-only activity====
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TEV protease is widely used in synthetic biology for its high cleavage specificity (targetting amino acids sequence ENLYFQG/S between QG or QS)<ref>Release of proteins and peptides from fusion proteins using a recombinant plant virus proteinase. Parks TD, Leuther KK, Howard ED, Johnston SA, Dougherty WG. Anal Biochem, 1994 Feb;216(2):413-7  PMID: 8179197; DOI: 10.1006/abio.1994.1060</ref>. Rossner MJ et al have demonstrated the TEV activity-dependent activation of several reporters<ref>Monitoring regulated protein-protein interactions using split TEV. Wehr MC, Laage R, Bolz U, ..., Nave KA, Rossner MJ. Nat Methods, 2006 Dec;3(12):985-93  PMID: 17072307; DOI: 10.1038/nmeth967</ref>. '''In our system, we set the TEV protease specific cleavage site into the spacer region of the nuclear localization sequence<ref>Two interdependent basic domains in nucleoplasmin nuclear targeting sequence: identification of a class of bipartite nuclear targeting sequence. Robbins J, Dilworth SM, Laskey RA, Dingwall C. Cell, 1991 Feb;64(3):615-23  PMID: 1991323</ref>, which is the core design of the TEV protease-based complex logic gates.'''
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[[File:TEVp.jpg|none|400px|thumb|Rossner MJ et al stated:''TEV protease activity can be monitored with either inactivated
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transcription factors (‘transcription-coupled’ reporters) or inactivated reporter proteins (‘proteolysis-only’ reporters). We designed a ‘transcription-coupled’ TEV reporter at the membrane (TM-GV) by fusing a transcription factor composed of a yeast Gal4 DNA-binding domain and the herpes simplex VP16 transactivation domain (GV) to an hemagglutinin (HA)-tagged transmembrane region from the human PDGF-a receptor via a TEV-protease cleavage site ENLYFQ'G . After TEV protease cleavage, GV can translocate into the nucleus and induce reporter gene expression via five clustered Gal4-responsive cis elements. We constructed membrane localized ‘proteolysis-only’ reporters containing a luciferase moiety. We flanked GV N- and C-terminally by tevS sites and ERT2 domains (GV-2ER) thereby trapping the GV transcription factor reporter unit in the cytoplasm.'']]
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For more details about TEV protease, please refer to our TEVp ([[Part:BBa_K2549013]]).
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===Characterization===
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====It works as we designed.====
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[[File:IMPLY.png|none|480px|thumb|'''TEVp-based IMPLY gate. A degradable EGFP (d2EGFP) is linked downstream the promoter to indicate the expression level of it. DBD, DNA binding domain which is zinc finger in our assay. AD or SD, activating- or silencing-form transcriptional domain. RE, responsive elements. RFI, relative fluorescence intensity.''']]
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Flow cytometry results indicate that when KRAB-dNLS-ZF21.16 exists while TEVp doesn't exist that the expression level of d2EGFP is repressed. When TEVp and KRAB-dNLS-ZF21.16 coexist, TEVp cleaves dNLS and prevents KRAB from entering into the nucleus. Thus the repression is not severe as when KRAB-dNLS-ZF21.16 is present while TEVp is absent.
  
 
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<partinfo>BBa_K2549041 parameters</partinfo>
 
<partinfo>BBa_K2549041 parameters</partinfo>
 
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===References===

Latest revision as of 21:34, 17 October 2018


NLS-TEVp

This part is one of the downstream elements of our amplifier. It is constructed by fusing NLS (Part:BBa_K2549054) and TEV protease (Part:BBa_K2549013), from N terminal to C terminal. NLS is a short nuclear location sequence from SV40 large T antigen. TEVp is a mutant TEV (tobacco etch virus) protease whose autoactivation is removed, thus performing more efficient cleavage[1]. When coexpressed with VP64-dNLS-ZF21.16 (Part:BBa_K2549039) in the same cell, it can destroy the nuclear localization sequence and prevent the transcription activator from inducing the gene expression. Similarly, the cleavage can be conducted with the KRAB-dNLS-ZF21.16 (Part:BBa_K2549040), thus keeping the repressor from switching off the gene expression.

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
    INCOMPATIBLE WITH RFC[1000]
    Illegal SapI.rc site found at 337


Biology

Our characterization
TEVp-based IMPLY gate. A degradable EGFP (d2EGFP) is produced downstream the promoter of the Combiner to indicate the output (CusP) strength. DBD, DNA binding domain which is zinc finger in our assay. SD, silencing-form transcriptional domain. RE, responsive elements. RFI, relative fluorescence intensity. More details please visit http://2018.igem.org/Team:Fudan/Results and http://2018.igem.org/Team:Fudan/Measurement .

We show that when KRAB-dNLS-ZF21.16 (Part:BBa_K2549040) exist while TEVp (Part:BBa_K2549041) did not, the expression of d2EGFP was repressed by KRAB. When TEVp and KRAB-dNLS-ZF21.16 both were present, TEVp cleaves dNLS and prevents KRAB functional, although the release from the suppression was not as strong as we hoped. NS3 cis-protease is on our list to try next[2].

TEV protease-based transcription regulation or proteolysis-only activity

TEV protease is widely used in synthetic biology for its high cleavage specificity (targetting amino acids sequence ENLYFQG/S between QG or QS)[3]. Rossner MJ et al have demonstrated the TEV activity-dependent activation of several reporters[4]. In our system, we set the TEV protease specific cleavage site into the spacer region of the nuclear localization sequence[5], which is the core design of the TEV protease-based complex logic gates.

Rossner MJ et al stated:TEV protease activity can be monitored with either inactivated transcription factors (‘transcription-coupled’ reporters) or inactivated reporter proteins (‘proteolysis-only’ reporters). We designed a ‘transcription-coupled’ TEV reporter at the membrane (TM-GV) by fusing a transcription factor composed of a yeast Gal4 DNA-binding domain and the herpes simplex VP16 transactivation domain (GV) to an hemagglutinin (HA)-tagged transmembrane region from the human PDGF-a receptor via a TEV-protease cleavage site ENLYFQ'G . After TEV protease cleavage, GV can translocate into the nucleus and induce reporter gene expression via five clustered Gal4-responsive cis elements. We constructed membrane localized ‘proteolysis-only’ reporters containing a luciferase moiety. We flanked GV N- and C-terminally by tevS sites and ERT2 domains (GV-2ER) thereby trapping the GV transcription factor reporter unit in the cytoplasm.

For more details about TEV protease, please refer to our TEVp (Part:BBa_K2549013).

Characterization

It works as we designed.

TEVp-based IMPLY gate. A degradable EGFP (d2EGFP) is linked downstream the promoter to indicate the expression level of it. DBD, DNA binding domain which is zinc finger in our assay. AD or SD, activating- or silencing-form transcriptional domain. RE, responsive elements. RFI, relative fluorescence intensity.

Flow cytometry results indicate that when KRAB-dNLS-ZF21.16 exists while TEVp doesn't exist that the expression level of d2EGFP is repressed. When TEVp and KRAB-dNLS-ZF21.16 coexist, TEVp cleaves dNLS and prevents KRAB from entering into the nucleus. Thus the repression is not severe as when KRAB-dNLS-ZF21.16 is present while TEVp is absent.


References

  1. Tobacco etch virus protease: mechanism of autolysis and rational design of stable mutants with wild-type catalytic proficiency. Kapust RB, Tözsér J, Fox JD, ..., Copeland TD, Waugh DS. Protein Eng, 2001 Dec;14(12):993-1000 PMID: 11809930
  2. Chemogenetic control of gene expression and cell signaling with antiviral drugs. Tague EP, Dotson HL, Tunney SN, Sloas DC, Ngo JT. Nat Methods, 2018 Jul;15(7):519-522 PMID: 29967495; DOI: 10.1038/s41592-018-0042-y
  3. Release of proteins and peptides from fusion proteins using a recombinant plant virus proteinase. Parks TD, Leuther KK, Howard ED, Johnston SA, Dougherty WG. Anal Biochem, 1994 Feb;216(2):413-7 PMID: 8179197; DOI: 10.1006/abio.1994.1060
  4. Monitoring regulated protein-protein interactions using split TEV. Wehr MC, Laage R, Bolz U, ..., Nave KA, Rossner MJ. Nat Methods, 2006 Dec;3(12):985-93 PMID: 17072307; DOI: 10.1038/nmeth967
  5. Two interdependent basic domains in nucleoplasmin nuclear targeting sequence: identification of a class of bipartite nuclear targeting sequence. Robbins J, Dilworth SM, Laskey RA, Dingwall C. Cell, 1991 Feb;64(3):615-23 PMID: 1991323