Difference between revisions of "Part:BBa K3815009"

 
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<partinfo>BBa_K3815009 short</partinfo>
 
<partinfo>BBa_K3815009 short</partinfo>
<h3><font size="4.5">Description of this part</font> </h3>
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==Description of this part==
 
<h3><font size="3">Targeted protein</font> </h3>
 
<h3><font size="3">Targeted protein</font> </h3>
This part is for the purfication of NOP1. This is a peptide known to prolong the life of flowering plants and can inhibit ethylene-dependent senescence. The signaling pathway triggered by the binding of ethylene to ETR1 inactivates CTR1 kinase and inhibits the phosphorylation of the ethylene regulatory factor EIN2, thereby activating the expression of ethylene response genes. Therefore, NOP-1, a peptide derived from the nuclear localization signal of EIN2, can regulate senescence signaling by binding to the GAF domain of ETR1 and arresting intra- and intermolecular downstream signaling of the receptor. In fact, it was confirmed that flower senescence of flowering plants treated with NOP-1 was suppressed.<br><br>
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[[File:Ethylene_pathway.png|200px|thumb|right|Fig1. ethylene pathway]]
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[[File:Ethylene_pathway2.png|200px|thumb|right|Fig2. ethylene pathway]]
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This part is for the purification of NOP1. This is a peptide known to prolong the life of flowering plants and can inhibit ethylene-dependent senescence. The signaling pathway triggered by the binding of ethylene to ETR1 inactivates CTR1 kinase and inhibits the phosphorylation of the ethylene regulatory factor EIN2, thereby activating the expression of ethylene response genes. Therefore, NOP-1, a peptide derived from the nuclear localization signal of EIN2, can regulate senescence signaling by binding to the GAF domain of ETR1 and arresting intra- and intermolecular downstream signaling of the receptor. It was confirmed that flower senescence of flowering plants treated with NOP-1 was suppressed.<br><br>
 
<h3><font size="3">Purification system</font> </h3>
 
<h3><font size="3">Purification system</font> </h3>
This part is composed of His tag, Mxe Gyr intein, PT linker, and targeted protein. This is for the peptide intein tag purification.  Producing peptide with His tag, it is recovered by Ni chromatography. After that, adding DTT to it, the N terminal of Mxe GyrA intein is cut. Then, we get the targeted protein. This method saves the time removing the tags compared to the method using only tags without intein.
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This part is composed of His tag, Mxe GyrA intein, PT linker, and targeted protein. This is for the peptide intein tag purification.  Producing peptide with His tag, it is recovered by Ni chromatography. After that, adding DTT to it, the N terminal of Mxe GyrA intein is cut. Then, we get the targeted protein. This method saves time removing the tags compared to the method using only tags without intein.
 
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<partinfo>BBa_K3815009 parameters</partinfo>
 
<partinfo>BBa_K3815009 parameters</partinfo>
 
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==Reference==
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1.Hoppen, C., Müller, L., Albrecht, A.C., and Groth, G. (2019). The NOP-1 peptide derived from the central regulator of ethylene signaling EIN2 delays floral senescence in cut flowers. Sci. Rep. 9, 1287.
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<br>
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2.Kessenbrock, M., Klein, S.M., Müller, L., Hunsche, M., Noga, G., and Groth, G. (2017). Novel Protein-Protein Inhibitor Based Approach to Control Plant Ethylene Responses: Synthetic Peptides for Ripening Control. Front. Plant Sci. 8, 1528.<br>
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3.Tobias, J.W., Shrader, T.E., Rocap, G., and Varshavsky, A. (1991). The N-end rule in bacteria. Science 254, 1374–1377.

Latest revision as of 02:13, 22 October 2021


NOP1-Mxe GryA intein-PT-linker-His tag

Description of this part

Targeted protein

Fig1. ethylene pathway
Fig2. ethylene pathway

This part is for the purification of NOP1. This is a peptide known to prolong the life of flowering plants and can inhibit ethylene-dependent senescence. The signaling pathway triggered by the binding of ethylene to ETR1 inactivates CTR1 kinase and inhibits the phosphorylation of the ethylene regulatory factor EIN2, thereby activating the expression of ethylene response genes. Therefore, NOP-1, a peptide derived from the nuclear localization signal of EIN2, can regulate senescence signaling by binding to the GAF domain of ETR1 and arresting intra- and intermolecular downstream signaling of the receptor. It was confirmed that flower senescence of flowering plants treated with NOP-1 was suppressed.

Purification system

This part is composed of His tag, Mxe GyrA intein, PT linker, and targeted protein. This is for the peptide intein tag purification. Producing peptide with His tag, it is recovered by Ni chromatography. After that, adding DTT to it, the N terminal of Mxe GyrA intein is cut. Then, we get the targeted protein. This method saves time removing the tags compared to the method using only tags without intein.

Sequence and Features


Assembly Compatibility:
  • 10
    INCOMPATIBLE WITH RFC[10]
    Illegal EcoRI site found at 117
  • 12
    INCOMPATIBLE WITH RFC[12]
    Illegal EcoRI site found at 117
  • 21
    INCOMPATIBLE WITH RFC[21]
    Illegal EcoRI site found at 117
  • 23
    INCOMPATIBLE WITH RFC[23]
    Illegal EcoRI site found at 117
  • 25
    INCOMPATIBLE WITH RFC[25]
    Illegal EcoRI site found at 117
    Illegal NgoMIV site found at 550
  • 1000
    COMPATIBLE WITH RFC[1000]

Purification

Fig1. SDS-PAGE of purified peptide

Expression

  • Cells were grown in 1000ml LB media at 37oC shaking at 180 rpm.
  • when the OD exceeded 0.35, 1 M IPTG 200μL was added to induce the peptide expression.
  • Incubate at 30℃ at 180rpm for 6 hours after adding IPTG.

Purification

1.When this fused protein were produced, it was recovered by Ni chromatography.
2.Adding DTT to it, the targeted protein was cut out by the cleavage of intein.
3.SDSPAGE was performed in order to confirm the presence of it.

Fig1 shows the result of SDS-PAGE. The lane 4 and 10 are the result of NOP1.
NOP1 is 1132Da, so these date shows that we could not confirm its production.

Reference

1.Hoppen, C., Müller, L., Albrecht, A.C., and Groth, G. (2019). The NOP-1 peptide derived from the central regulator of ethylene signaling EIN2 delays floral senescence in cut flowers. Sci. Rep. 9, 1287.
2.Kessenbrock, M., Klein, S.M., Müller, L., Hunsche, M., Noga, G., and Groth, G. (2017). Novel Protein-Protein Inhibitor Based Approach to Control Plant Ethylene Responses: Synthetic Peptides for Ripening Control. Front. Plant Sci. 8, 1528.
3.Tobias, J.W., Shrader, T.E., Rocap, G., and Varshavsky, A. (1991). The N-end rule in bacteria. Science 254, 1374–1377.