Difference between revisions of "Team:ECUST/Model"
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<p>The purpose of this modeling is to predict the improvement of hydrogen production of Rhodobacter sphaeroids 2.4.1 after modifications of lightbioreactor and Rhodobacter sphaeroids 2.4.1.</p><br> | <p>The purpose of this modeling is to predict the improvement of hydrogen production of Rhodobacter sphaeroids 2.4.1 after modifications of lightbioreactor and Rhodobacter sphaeroids 2.4.1.</p><br> | ||
| − | <p>Our modelling is divided into three parts: Model of Reactor, | + | <p>Our modelling is divided into three parts: Model of Reactor, Föster theory, Hydrogen production. it includes the whole process from photon absorption in photobioreactor to hydrogen production from Rhodobacter spaeroids 2.4.1.</p><br><br> |
<div class="page-header"> | <div class="page-header"> | ||
| − | <h1 id="tables">Part One:Model of Reactor</h1> | + | <h1 id="tables">Part One: Model of Reactor</h1> |
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| − | <h1 id="tables">Part Two: | + | <h1 id="tables">Part Two: Föster theory</h1> |
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<div class="col-md-6" style="margin-top: 50px;" > | <div class="col-md-6" style="margin-top: 50px;" > | ||
| − | <p>This section proves that energy of photons absorbed by fluorescent proteins can be transmitted to RC complex by | + | <p>This section proves that energy of photons absorbed by fluorescent proteins can be transmitted to RC complex by Föster resonance energy transfer. By building a fusion protein model of H subunit in RC complex and fluorescent protein, we can predict the distance between the donor and the receptor and calculate the energy transfer efficiency by Föster theory.<br> |
<a href="https://2017.igem.org/Team:ECUST/Part/Theory">(read more)</a></p> | <a href="https://2017.igem.org/Team:ECUST/Part/Theory">(read more)</a></p> | ||
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| − | <h1 id="tables">Part Three:Hydrogen production</h1> | + | <h1 id="tables">Part Three: Hydrogen production</h1> |
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Revision as of 01:03, 1 November 2017
Overview
The purpose of this modeling is to predict the improvement of hydrogen production of Rhodobacter sphaeroids 2.4.1 after modifications of lightbioreactor and Rhodobacter sphaeroids 2.4.1.
Our modelling is divided into three parts: Model of Reactor, Föster theory, Hydrogen production. it includes the whole process from photon absorption in photobioreactor to hydrogen production from Rhodobacter spaeroids 2.4.1.
Part One: Model of Reactor
In this part we will predict how much photons fluorescent proteins in the photobioreactor can absorb .
(read more)
Part Two: Föster theory
This section proves that energy of photons absorbed by fluorescent proteins can be transmitted to RC complex by Föster resonance energy transfer. By building a fusion protein model of H subunit in RC complex and fluorescent protein, we can predict the distance between the donor and the receptor and calculate the energy transfer efficiency by Föster theory.
(read more)
Part Three: Hydrogen production
This part mainly introduces the pathway of hydrogen production and calculates how much hydrogen will be produced.
(read more)
