Team:Tianjin/Modeling/HGTBass

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<br><center><span style="font-size:46px;font-family:Cambria;margin-top:10px">Simulation of Horizontal Gene Transfer using Bass Model</span></center>
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<br>
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=Background=
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Genetic pollution is the term of genetics in which the genetic information is transferred in to the organisms where it is not needed or where this information never existed before. This flow of genetic information is usually undesired and cannot be controlled. The flow of genetic information usually takes place between the genetically modified organisms into the organisms which are not genetically modified.
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Unlike other forms of pollution, genetic contamination has the potential to be a problem that multiplies as plants and microorganisms grow and reproduce. Therefore, environmental damage caused by genetically modified organisms (GMOs) cannot be confined to the original habitat. This briefing considers what is known about these risks and the evidence that is emerging from experimental and commercial growing of GE crops.
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Horizontal gene transfer (HGT), also lateral gene transfer (LGT) or transposition refers to the transfer of genetic material between organisms other than vertical gene transfer.
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HGT is the primary reason for bacterial antibiotic resistance. Genes that are responsible for antibiotic resistance in one species of bacteria can be transferred to another species of bacteria, subsequently arming the antibiotic resistant genes' recipient against antibiotics.
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Due to the increasing amount of evidence suggesting the importance of these phenomena for evolution molecular biologists such as Peter Gogarten have described HGT as "A New Paradigm for Biology".
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=Our Problem=
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There are two ways for wild type bacteria to have some exogenous gene. To make it more convenient to distinguish between the two type of bacteria, we call the bacteria containing exogenous gene the E bacteria. Similarly, the wild type bacteria are called the W ones. We want to study how the exogenous gene horizontally transferred from to other bacteria and how the number of W bacteria and E bacteria changed with time.
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=Our Experiment Design=
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=Model Inspiration: Bass Diffusion Model=
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=Rudimentary Model=
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===The Effects of Parameters on the Shape of the Curve===
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=Final Model=
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===Ideal Condition===
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===Real condition===
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=Model extension 1: the transgression≠expression=
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=Model extension 2: the spatial description of gene transference=
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=Future work=
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{{:Team:Tianjin/footer}}
{{:Team:Tianjin/footer}}

Revision as of 19:10, 24 September 2012


Simulation of Horizontal Gene Transfer using Bass Model


Contents

Background

Genetic pollution is the term of genetics in which the genetic information is transferred in to the organisms where it is not needed or where this information never existed before. This flow of genetic information is usually undesired and cannot be controlled. The flow of genetic information usually takes place between the genetically modified organisms into the organisms which are not genetically modified.

Unlike other forms of pollution, genetic contamination has the potential to be a problem that multiplies as plants and microorganisms grow and reproduce. Therefore, environmental damage caused by genetically modified organisms (GMOs) cannot be confined to the original habitat. This briefing considers what is known about these risks and the evidence that is emerging from experimental and commercial growing of GE crops.

Horizontal gene transfer (HGT), also lateral gene transfer (LGT) or transposition refers to the transfer of genetic material between organisms other than vertical gene transfer.

HGT is the primary reason for bacterial antibiotic resistance. Genes that are responsible for antibiotic resistance in one species of bacteria can be transferred to another species of bacteria, subsequently arming the antibiotic resistant genes' recipient against antibiotics.

Due to the increasing amount of evidence suggesting the importance of these phenomena for evolution molecular biologists such as Peter Gogarten have described HGT as "A New Paradigm for Biology".

Our Problem

There are two ways for wild type bacteria to have some exogenous gene. To make it more convenient to distinguish between the two type of bacteria, we call the bacteria containing exogenous gene the E bacteria. Similarly, the wild type bacteria are called the W ones. We want to study how the exogenous gene horizontally transferred from to other bacteria and how the number of W bacteria and E bacteria changed with time.

Our Experiment Design

Model Inspiration: Bass Diffusion Model

Rudimentary Model

The Effects of Parameters on the Shape of the Curve

Final Model

Ideal Condition

Real condition

Model extension 1: the transgression≠expression

Model extension 2: the spatial description of gene transference

Future work

Retrieved from "http://2012.igem.org/Team:Tianjin/Modeling/HGTBass"