Team:Shenzhen/Project/YAO.Suicider

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<h5>Introduction</h5>
<h5>Introduction</h5>
<ul><p>YAO is like a BOMBER and cell is like whoever plays with fire and get burst. Once the fuse is ignited, YAO sacrifices, and following cascade reaction will lead to the cell repression!</p></ul>
<ul><p>YAO is like a BOMBER and cell is like whoever plays with fire and get burst. Once the fuse is ignited, YAO sacrifices, and following cascade reaction will lead to the cell repression!</p></ul>
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[[File:add1.jpg]]</div></ul>
<ul><p>More than crippling of YAO by DNase I, we creatively couple it with apoptosis of yeast cell!  
<ul><p>More than crippling of YAO by DNase I, we creatively couple it with apoptosis of yeast cell!  
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<ul><p>Amazing Features:</p></ul>
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<h5>Amazing Features:</h5>
<ul><li>1. Various Signaling?</li></ul>
<ul><li>1. Various Signaling?</li></ul>
<ul><p>This module ships signals from nucleus to mitochondria directly or reversely in four distinct ways, including T7 RNAP/T7 promoter coupling, peptide signaling, RTG pathway and cyt C-mediated apoptosis !</p></ul>
<ul><p>This module ships signals from nucleus to mitochondria directly or reversely in four distinct ways, including T7 RNAP/T7 promoter coupling, peptide signaling, RTG pathway and cyt C-mediated apoptosis !</p></ul>
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[[File:add2.jpg]]</div>
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<ul><li>2. Biosafer?</li></ul>
<ul><li>2. Biosafer?</li></ul>
<ul><p>To guarantee biosafety, the engineered biofactory will die with its carrier cell ! </p></ul>
<ul><p>To guarantee biosafety, the engineered biofactory will die with its carrier cell ! </p></ul>
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[[File:add3.jpg]]</div></ul>
<ul><li>3. Signal imitation? </li></ul>
<ul><li>3. Signal imitation? </li></ul>
<ul><p>T7 RNAP/T7 promoter is employed to imitate the signal given to YAO instead of biosensor.</p></ul>
<ul><p>T7 RNAP/T7 promoter is employed to imitate the signal given to YAO instead of biosensor.</p></ul>
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[[File:add4.jpg]]</div></ul>
<ul><li>4. Holin kill eukaryotic?</li></ul>
<ul><li>4. Holin kill eukaryotic?</li></ul>
<ul><p>We try to illustrate that holin can punch not only the cytomembrane of bacteria but also the outer membrane of mitochondria-like YAO and ER to release cytC.</p></ul>
<ul><p>We try to illustrate that holin can punch not only the cytomembrane of bacteria but also the outer membrane of mitochondria-like YAO and ER to release cytC.</p></ul>
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[[File:add5.jpg]]</div></ul>
<ul><li>5. Special signaling from mitochondria to nucleus?</li></ul>
<ul><li>5. Special signaling from mitochondria to nucleus?</li></ul>
<ul><p>RTG pathway tell the cell that mt “Emergency~ Emergency~”, so cell supply it some replenishment.</p></ul>
<ul><p>RTG pathway tell the cell that mt “Emergency~ Emergency~”, so cell supply it some replenishment.</p></ul>
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[[File:add6.jpg]]</div></ul>
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<div class="context">
<div class="context">

Latest revision as of 17:50, 26 September 2012




Yao.028-001.jpg

Contents

Introduction

    YAO is like a BOMBER and cell is like whoever plays with fire and get burst. Once the fuse is ignited, YAO sacrifices, and following cascade reaction will lead to the cell repression!

    Add1.jpg

    More than crippling of YAO by DNase I, we creatively couple it with apoptosis of yeast cell!

Amazing Features:
  • 1. Various Signaling?

    This module ships signals from nucleus to mitochondria directly or reversely in four distinct ways, including T7 RNAP/T7 promoter coupling, peptide signaling, RTG pathway and cyt C-mediated apoptosis !

    Add2.jpg
  • 2. Biosafer?

    To guarantee biosafety, the engineered biofactory will die with its carrier cell !

    Add3.jpg
  • 3. Signal imitation?

    T7 RNAP/T7 promoter is employed to imitate the signal given to YAO instead of biosensor.

    Add4.jpg
  • 4. Holin kill eukaryotic?

    We try to illustrate that holin can punch not only the cytomembrane of bacteria but also the outer membrane of mitochondria-like YAO and ER to release cytC.

    Add5.jpg
  • 5. Special signaling from mitochondria to nucleus?

    RTG pathway tell the cell that mt “Emergency~ Emergency~”, so cell supply it some replenishment.

    Add6.jpg
Original Ideas

    Originally, we try to construct such an artificial organelle YAO that YAO receives signal either from biosensor (internal) or from cytoplasm (external) or consequently trigger the host cell apoptosis. However, for YAO are not completed, we use mitochondrion as experiment target. And since we can’t rely on the availability of YAO.Sensor, the idea that Initial signal is given to YAO’s promoter is replaced by that nucleus produce T7 RNAP and transport it into mitochondrion to activate the T7 promoter inside it.

    Project yao suicider p1.jpg

    Figure 1. Original ideas.

Final Story

    The final story is consist of six parts:

  • a. Signal Imitation

    After galactose is added to the medium, RNAP can bind to Gal promoter and start transcribe and produce T7 RNAP with signal peptide to mitochondrial matrix. Then T7 RNAP gets into mitochondrial matrix.

  • b. Mitochondrion Dysfunction

    Once T7 promoter works, DNase is produced to fragmentize the mtDNA which can lead to Respiration difficulty.

  • c. Retrograde Signaling from Mitochondrion

    Mitochondrial dysfunction can trigger the RTG pathway which is the only known signaling from mt to nucleus.

  • d. Holin Production

    DLD3 promoter is the only stable downstream promoter relevant with RTG pathway. It can be binded and activated by RTG1/3p which is final production of RTG pathway. Once mitochondrial dysfunction exits, holin with DLD3promoter can be expressed.

  • e. Holin Transformation and Destruction

    Once holin is produced, it can anchor on the outer membrane of mitochondria and ER, and form dimer with each other. Further more, they can form into a multidimer called dead draft if holin reachs a certain concentration. Dead drafts work like a large pore and release the apoptosis factor: cytochrome C, aif1 and calcium into cytoplasm.

  • f. Apoptosis of Host

    Apoptosis factor cytochrome C and largely fleeing calcium can trigger the caspase-like pathway. Aif1 such as endo G can.get into nucleus and fragmentate DNA. Finally, host cell is suppressed or even die.

    Project yao suicider p2.jpg

    Figure 2. Final stories.

Verification Experiments Design
  • For T7 Imitation System

    Project yao suicider p3.jpg

    Figure 3. Verify the function of T7 RNAP/Promoter system in cytoplasm. If it works, fluorescence of GFP can be detected in cytoplasm.

    Project yao suicider p4.jpg

    Figure 4. Verify the function of T7 RNAP/Promoter system in mitochondrion or unfinished YAO, basing on the availability of signal peptide from cytoplasm to mitochondrial matrix. If it works, fluorescence of mtGFP can be detected in mitochondrion.

  • For Retrograde Signaling Part

    Because DLD3 is one of the target of RTG pathway of yeast, lowering the basal expression is required.

    Project yao suicider p5.jpg

    Figure 5. Verify the basal expression of gene downstream DLD3 promoter. Roughly judge the brightness of GFP, and consequently select a suitable degradation tag for gene downstream DLD3 promotor.

    Project yao suicider p6.jpg

    Figure 6. Verify the function of selected degradation tag by using UV as a imitation of DNase produced in mitochondrion that can lead to mitochondrion dysfunction which will drive the gene expression downstream DLD3 promoter through Retrograde signaling from mitochondrion to nucleus.

    Project yao suicider p7.jpg

    Figure 7. Verify that holing can make pores on the inner membrane of mitochondrion. This is the alterant of DNase causing mt dysfunction. And it can also produce a membrane without mtDNA.

  • For Host Cell Suicide Part

    Project yao suicider p8.jpg

    Figure 8. Verify the function of holing in yeast to prove that holing can act as bax/bak protein in human cell as a apoptosis activator. If it works, we can see that between the engineered and versus one, the growthrate curve (OD600) of engineered one tend to be lower than that of versus one.

References

    1. Prindle, A. et al. A sensing array of radically coupled genetic ‘biopixels’. Nature. 2011;481:39-44.

    2. Liu, Z. Butow, R. A. Mitochondrial retrograde signaling. Annu Rev Genet. 2006;40:159-85.

    3. Shi, Y. Sun, J.Current advance in the topological structure and function of holin encoded by bacteriophage lambda. Wei Sheng Wu Xue Bao. 2012 ;52:141-5.

    4. Agu, C. A et al. Bacteriophage-encoded toxins: the lambda-holin protein causes caspase-independent non-apoptotic cell death of eukaryotic cells. Cell Microbiol. 2007:1753. Lipton, S. A.

    5. Bossy-Wetzel, E. Dueling activities of AIF in cell death versus survival: DNA binding and redox activity. Cell. 2002;111:147-50.

    6. Buttner, S. Endonuclease G regulates budding yeast life and death. Mol Cell. 2007 ;25:233-46.

    7. Spencer, S. L. Sorger, P. K. Measuring and modeling apoptosis in single cells. Cell. 2011;144:926-39.

    8. Li, P. Nijhawan, D. Wang, X. Mitochondrial activation of apoptosis. Cell. 2004;116:S57-9.

    9. Pinkham, J. L. Dudley, A. M. Mason, T. L. T7 RNA polymerase-dependent expression of COXII in yeast mitochondria. Mol Cell Biol. 1994 ;14:4643-52.