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                         <h1>Genome Scale Modelling<p class="lead">A genome scale model (GSM) is a computational representation of the metabolic network, containing information about the metabolites, reactions, genes etc. Using a GSM of Y.Lip, we explored how Y.Lip grows on different substrates. We compared it to S.cer to see the pros and cons of each organism. We also found out what genes need to be manipulated to optimize beta-carotene production.
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Genome Scale Modelling

A genome scale model (GSM) is a computational representation of the metabolic network, containing information about the metabolites, reactions, genes etc. Using a GSM of Y.Lip, we explored how Y.Lip grows on different substrates. We compared it to S.cer to see the pros and cons of each organism. We also found out what genes need to be manipulated to optimize beta-carotene production.


Section 1

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Someone famous in Source Title

iGEM info Modeling

Mathematical models and computer simulations provide a great way to describe the function and operation of BioBrick Parts and Devices. Synthetic Biology is an engineering discipline, and part of engineering is simulation and modeling to determine the behavior of your design before you build it. Designing and simulating can be iterated many times in a computer before moving to the lab. This award is for teams who build a model of their system and use it to inform system design or simulate expected behavior in conjunction with experiments in the wetlab.

Inspiration

Here are a few examples from previous teams:

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Introduction

Why? to explore how to grow y.lip efficiently. To optimize b-carotene produciton by amplifying or deleting genes.

This is done by using genome-scale modelling,

And we found that...

FBA

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model validation

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phpp

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Adding B_carotene reactions

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what genes to amp? FVA and differential FVA

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what genes to amp FSEOF

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what genes to ko? optgene

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lmoma and room results

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Results

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phpp on y.lip and s.cer on diff. substrates

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what genes to amp and ko

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so whta does this means?

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Section 4

Has ut facer debitis, quo eu agam purto. In eum justo aeterno. Sea ut atqui efficiantur, mandamus deseruisse at est, erat natum cum eu. Quot numquam in vel. Salutatus euripidis moderatius qui ex, eu tempor volumus vituperatoribus has, ius ea ullum facer corrumpit.

Section 5

Has ut facer debitis, quo eu agam purto. In eum justo aeterno. Sea ut atqui efficiantur, mandamus deseruisse at est, erat natum cum eu. Quot numquam in vel. Salutatus euripidis moderatius qui ex, eu tempor volumus vituperatoribus has, ius ea ullum facer corrumpit.

Section 6

Has ut facer debitis, quo eu agam purto. In eum justo aeterno. Sea ut atqui efficiantur, mandamus deseruisse at est, erat natum cum eu. Quot numquam in vel. Salutatus euripidis moderatius qui ex, eu tempor volumus vituperatoribus has, ius ea ullum facer corrumpit.

Attributors

Niko, Joao, Mikael, Kristian, Anne Sophie, Patrice, Julian, Anders, Eduard, Martin, Biosustain slack

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