"
Team:USTC CHINA
From 2013.igem.org
(Difference between revisions)
| Line 100: | Line 100: | ||
<h1>How We Design</h1> | <h1>How We Design</h1> | ||
<div id="pro-text"> | <div id="pro-text"> | ||
| - | With the support of <span>TD-1</span>, a special polypeptide, which can greatly facilitate macromolecule transdermal delivery through intact skin, we construct three different fuctional engineered bacillus subtilis; besides, we design a kill switch in the fouth type B.subtilis to ensure biosafety.</div> | + | With the support of <span>TD-1</span>, a special polypeptide, which can greatly facilitate macromolecule transdermal delivery through intact skin, we construct three different fuctional engineered bacillus subtilis; besides, we design a reporter system, including a kill switch, in the fouth type B.subtilis to improve usability and ensure biosafety.</div> |
<div id="ls" class="pro-col"> | <div id="ls" class="pro-col"> | ||
<img class="img-left" src="https://static.igem.org/mediawiki/2013/0/02/2013ustc-china_66.png" width="16" height="14" /> | <img class="img-left" src="https://static.igem.org/mediawiki/2013/0/02/2013ustc-china_66.png" width="16" height="14" /> | ||
| Line 124: | Line 124: | ||
<img class="img-left" src="https://static.igem.org/mediawiki/2013/0/02/2013ustc-china_66.png" width="16" height="14" /> | <img class="img-left" src="https://static.igem.org/mediawiki/2013/0/02/2013ustc-china_66.png" width="16" height="14" /> | ||
<div id="pro-de-text"> | <div id="pro-de-text"> | ||
| - | <span> | + | <span>TNFα</span><br /> |
It's worth mentioning that to improve the effects of <br />traditional vaccine, as another kind of our TD1-adjuvant expresser, KNFα bear the weight of our hope to increase the sensitivity of our immune system. | It's worth mentioning that to improve the effects of <br />traditional vaccine, as another kind of our TD1-adjuvant expresser, KNFα bear the weight of our hope to increase the sensitivity of our immune system. | ||
<br /> | <br /> | ||
Revision as of 16:57, 26 September 2013
Why We Begin
we hope to provide a needle-free and non-skin-damage vaccination,
we hope everyone, even in the least developed area, could enjoy the benefit of medical progress.
more about project background
we hope everyone, even in the least developed area, could enjoy the benefit of medical progress.
more about project background
How We Design
With the support of TD-1, a special polypeptide, which can greatly facilitate macromolecule transdermal delivery through intact skin, we construct three different fuctional engineered bacillus subtilis; besides, we design a reporter system, including a kill switch, in the fouth type B.subtilis to improve usability and ensure biosafety.
ANTIGEN
As the core of our in-situ system,
TD1-antigen expresser is designed
and will share a great percentage of
the total bacteria in our "band-aid".
more about project design
As the core of our in-situ system,
TD1-antigen expresser is designed
and will share a great percentage of
the total bacteria in our "band-aid".
more about project design
LTB
As one kind of our adjuvant expresser,
TD1-LTB is used to enhance the antigenicity.
For LTB has so many advantages, it's a wild using adjuvant for most of exsiting injected vaccine.
more about project design
As one kind of our adjuvant expresser,
TD1-LTB is used to enhance the antigenicity.
For LTB has so many advantages, it's a wild using adjuvant for most of exsiting injected vaccine.
more about project design
TNFα
It's worth mentioning that to improve the effects of
traditional vaccine, as another kind of our TD1-adjuvant expresser, KNFα bear the weight of our hope to increase the sensitivity of our immune system.
more about project design
It's worth mentioning that to improve the effects of
traditional vaccine, as another kind of our TD1-adjuvant expresser, KNFα bear the weight of our hope to increase the sensitivity of our immune system.
more about project design
REPORTER
Reporter, which notifies users whether the status of vaccine patch is all right and when they can stick the patches to arms . Further more killing switch is existed in them as a biosafety guard.
more about project design
Reporter, which notifies users whether the status of vaccine patch is all right and when they can stick the patches to arms . Further more killing switch is existed in them as a biosafety guard.
more about project design
What We've Achieved
Molecules part
We took E.coli and the PET vector as the positive control and realized our ideas in the B.subtilis expression system based on PHT43 shuttle vector.
more about project results
We took E.coli and the PET vector as the positive control and realized our ideas in the B.subtilis expression system based on PHT43 shuttle vector.
more about project results
Protein part
Before we achieve fresh expression, we need first use purified protein to obtain exact data to verify our assumption.
more about project results
Before we achieve fresh expression, we need first use purified protein to obtain exact data to verify our assumption.
more about project results
Mice experiments
The most obvious character of our 2013USTC iGEM team is that we have not only achieved a series of molecule experiments but also tried mice experiments, which could be divided into transdermal experiments in vitro and animate mice experiments
more about project results
The most obvious character of our 2013USTC iGEM team is that we have not only achieved a series of molecule experiments but also tried mice experiments, which could be divided into transdermal experiments in vitro and animate mice experiments
more about project results
Thanks to the sponsors
Deutsche Bank, China
School of Life Sciences, USTC
USTCIF
School of the Gifted Young, USTC
School of physics, USTC
Teaching Affairs Office of USTC
