Team:UTP-Panama/Project

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|You can write a background of your team here.  Give us a background of your team, the members, etc.  Or tell us more about something of your choosing.
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[[Image:RenboProject.jpg|960px|center]]
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|[[Image:UTP-Panama_logo.png|200px|right|frame]]
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''Tell us more about your project.  Give us background.  Use this is the abstract of your project.  Be descriptive but concise (1-2 paragraphs)''
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|[[Image:UTP-Panama_team.png|right|frame|Your team picture]]
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<center><font face="arial" style="color:#000000"> ''UTP-PANAMÁ TEAM 2011'' </font></center>
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<center><font face="arial" style="color:#6B006B"> ''Universidad Tecnológica de Panamá'' </font></center>
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|align="center"|[[Team:UTP-Panama | Team Example]]
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<br>[[Image:Logoigempeginav1.png|150px|center|link=https://2011.igem.org/Main_Page]]
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[[Team:UTP-Panama/Home | <font face="verdana" style="color:#663366"> '''Home''' </font>]] <br><br>
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[[Team:UTP-Panama/Team | <font face="verdana" style="color:#663366"> '''The Team''' </font>]] <br><br>
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[[Team:UTP-Panama/Project | <font face="verdana" style="color:#663366"> '''The Project''' </font>]] <br><br>
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[[Team:UTP-Panama/Parts | <font face="verdana" style="color:#663366"> '''Parts''' </font>]] <br><br>
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[[Team:UTP-Panama/Modelling| <font face="verdana" style="color:#663366"> '''Project & Experiments Design''' </font>]] <br><br>
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[[Team:UTP-Panama/Human Practice| <font face="verdana" style="color:#663366"> '''Human Practice''' </font>]] <br><br>
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[[Team:UTP-Panama/Notebook | <font face="verdana" style="color:#663366"> '''Notebook''' </font>]] <br><br>
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[[Team:UTP-Panama/Safety | <font face="verdana" style="color:#663366"> '''Safety''' </font>]] <br><br>
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[[Team:UTP-Panama/Data Page| <font face="verdana" style="color:#663366"> '''Data Page''' </font>]] <br><br>
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[[Team:UTP-Panama/Sponsors| <font face="verdana" style="color:#663366"> '''Sponsors''' </font>]] <br><br>
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[[File:Renbo-move.gif|Center]]
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<!--- The Mission, Experiments --->
 
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{| style="color:#1b2c8a;background-color:#0c6;" cellpadding="3" cellspacing="1" border="1" bordercolor="#fff" width="62%" align="center"
 
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!align="center"|[[Team:UTP-Panama|Home]]
 
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!align="center"|[[Team:UTP-Panama/Team|Team]]
 
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!align="center"|[https://igem.org/Team.cgi?year=2010&team_name=UTP-Panama Official Team Profile]
 
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!align="center"|[[Team:UTP-Panama/Project|Project]]
 
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!align="center"|[[Team:UTP-Panama/Parts|Parts Submitted to the Registry]]
 
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!align="center"|[[Team:UTP-Panama/Modeling|Modeling]]
 
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<br/>
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== '''Overall project''' ==
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== THERMOGENIC RESPONSE NUTRIENT BIOSENSOR (THE RENBO) ==
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[[Image:Image-Size.gif|center]]
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Traditional Engineering fields as Electrical, Mechanical, Civil, Agricultural, etc. have been working for last two centuries separately of Biological develops (life sciences).
 
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The UTP-Panama Team is decided to broke this paradigm in the Republic of Panama. To accomplish this goal the UTP-Panama Team is working develop of we called " SynBio Engineering Tool Kit", the develop of engineering tools from biology resources. At this moment, Engineering groups are designing projects in different fields, using the biological devices to improve and solve traditional engineering problems. In this sense the proposed works (looking for) are:
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== INTRODUCTION ==
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<div align="justify">In the engineering field, robust sensors are needed, and they must be able to work under different conditions and ranges.
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'''Agricultural & Environmental Engineering'''
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In past iGEM editions, there were attempts to get more and more organisms, such as machines & sensors, to be functional and resistant into multiple stress conditions.
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• Nitrogen Area: introduce chemotaxis to BioBrick BBa_K381001 develop by the Bristol 2010 iGEM Team, to make a dynamics Nitrate-nitrite sensor. The main goal of this area (future) is to express LegHemoglobine and other nitrogen fixation molecules in E.Coli.
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The UTP-Panama team in its vision to develop engineering tools from biotechnology, seeks to create and improve more robust sensors to environmental and climatic conditions.
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• Phosphates sensing: BBa_K116401 & BBa_K116404.
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In this sense, one of the biggest challenges is to give microorganisms the ability to continue working under temperature changes, since they loose capacity at low temperatures (D'amico, et al. 2006). This problem has been attacked by different teams, like the UNAM-Cinvestav 2010, using the CspA promoter as a better promoter for low temperatures in combination with an antifreeze protein (AFP) [1]. Our Team, the UTP-Panama seeks to extend the range of sensors from the use of the AOX enzyme (Alternative oxidase), which primarily has been designed to be expressed in response to a Cold-shock, raising the temperature as we explain next.
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• pH sensing: Taiwan Back to Kidney pH sensors BBa_K116001 & BBa_K116002
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The biosensor chosen for the improvements is the Nitrate Biosensor (PyeaR - composite GFP) developed by BCCS-Bristol Team 2010, which is a sensor that measures levels of nitrogen (nutrients) on the ground, (important parameter for agriculture)</div>
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'''Mechanical & Material Sciences Engineering'''
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== Project Description==
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• Biopolimer Area: continue the Virgina (2008), Utah State (2009) and Insa-Lyon 2010 develop in the field of Bioplastic-Biopolymers through expression genes for PHA, PHA, and PHC.
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<div align="justify">
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• Heat Production: uses and improvement of Gatech Biobrick BBa_K410000, in mechanical engineering.
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'''Electrical Engineering'''
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The original BioBrick that senses the levels of nitrates in soil developed by Bristol iGEM Team 2010 [2], was designed to operate at room temperatures, especially for 37 ° C using the PyeaR BioBricks promoter [3].
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• Biosensing
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Our team seeks to extend the range of optimal functioning of the sensor developed by Bristol at temperatures below
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o Light Sensitive proteins: work with BBa_K191003
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20 ° C, as many of the crops in highlands (coffee and fruits), are in this range. To solve this problem we found that the use of the AOX enzyme (Alternative oxidase) gene responsible for thermogenesis in the sacred lotus [4], mainly used in Synthetic Biology to generate an increase in periplasmic temperature, produced an interesting increase in the growth and downsizing bacterial densities in temperature [5]. This part uses a HybB promoter [6] for "cold shock".
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• Creation of electrical Circuits
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We, the UTP-Panama iGEM Team developed a new "device" by Combining the two parts, the AOX periplasmatic heat generator (BioBrick BBa_K410000) and the Nitrates biosensor (BioBrick BBa_K381001), to create that we call The Renbo, to ensure that our meters Nutrient operate at low temperatures. The Renbo is the first of a family of Improved Biosensor that the UTP-Panama Team plans to create.
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== Project Details==
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</div>
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===Future Develops===
 +
<div align="justify">
 +
The next step in our project is to interchange the HybB promoter by the CspA promoter (BBa_K328001), these will produce an anti freeze protein that prevents ice crystals formation in the cell, by applying these we expect E.coli to survive and also perceive an increase on the genetic expression of our Escherichia Coli and still be able to sense the nitrate and nitrites on even lower temperatures than 15ºC (limit temperature of RENBO).
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<br>
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</div>
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====The original BrainStorms ideas====
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=== Part 2 ===
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<html>
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To see the Original Project Description June-July 2011 click
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<A href="https://2011.igem.org/Team:UTP-Panama/Project_firstidea"> here</A>.
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</html>
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=== The Experiments ===
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 +
==Our Project Design==
 +
<div align="justify">
 +
The Bristol BBa_k381001 encodes an expression of GFP in response of Nitrate or Nitrites that expresses fluorescent signals upon nutrient detection, its principal application is that allows farmers to quantify soil nutrient content.
 +
The BBa_k410000 is a fusion of the HydB cold shock promoter, the OmpA a signal peptide, and AOX 1 . AOXa is a alternative oxidase found in Sacred Lotus. This is going to produce a increase of heat above ambient temperature as follow:
 +
· From 20 °C to 30 ° C the HydB promoter will express.<br>
 +
· Approximately at 37° the promoter will stop his expression.
 +
By combining  BBa_k38100 and BBa_k410000 we expected our part , the BBa_K672000 , to be able to sense nitrate and nitrites even after  experiencing a cold shock at 20º C, making our BB employable in other places where the temperatures can be as low as 15º C.
 +
</div>
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=== Part 3 ===
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[[File:BBCOMBINATIONreordered.jpg‎|center]]
 +
== REFERENCES==
 +
[1]https://2010.igem.org/Team:Mexico-UNAM-CINVESTAV/Project/Our_project<br>
 +
[2]http://partsregistry.org/Part:BBa_K381001<br>
 +
[3]http://partsregistry.org/Part:BBa_K216005<br>
 +
[4]Grant, N et al. “Two Cys or Not Two Cys? That is the Question; Alternative Oxidase in the Thermogenic Plant sacred Lotus.” Plant Physiology 150 (2009): 987-995.<br>
 +
[5]Cell Density and Growth Rate Monitoring Tables. (available at http://partsregistry.org/Part:BBa_K410000).<br>
 +
[6]http://partsregistry.org/Part:BBa_J45503
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== Results ==
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==Aknowledgements==
 +
To: Dr Nigel Savery
 +
University of Bristol
 +
To help us to understand the AgrEcoli Experiments and Project.

Latest revision as of 05:33, 27 October 2011


RenboProject.jpg


UTP-PANAMÁ TEAM 2011


Universidad Tecnológica de Panamá



Logoigempeginav1.png

Home

The Team

The Project

Parts

Project & Experiments Design

Human Practice

Notebook

Safety

Data Page

Sponsors

Center




Contents

THERMOGENIC RESPONSE NUTRIENT BIOSENSOR (THE RENBO)


INTRODUCTION

In the engineering field, robust sensors are needed, and they must be able to work under different conditions and ranges.

In past iGEM editions, there were attempts to get more and more organisms, such as machines & sensors, to be functional and resistant into multiple stress conditions.

The UTP-Panama team in its vision to develop engineering tools from biotechnology, seeks to create and improve more robust sensors to environmental and climatic conditions.

In this sense, one of the biggest challenges is to give microorganisms the ability to continue working under temperature changes, since they loose capacity at low temperatures (D'amico, et al. 2006). This problem has been attacked by different teams, like the UNAM-Cinvestav 2010, using the CspA promoter as a better promoter for low temperatures in combination with an antifreeze protein (AFP) [1]. Our Team, the UTP-Panama seeks to extend the range of sensors from the use of the AOX enzyme (Alternative oxidase), which primarily has been designed to be expressed in response to a Cold-shock, raising the temperature as we explain next.

The biosensor chosen for the improvements is the Nitrate Biosensor (PyeaR - composite GFP) developed by BCCS-Bristol Team 2010, which is a sensor that measures levels of nitrogen (nutrients) on the ground, (important parameter for agriculture)

Project Description

The original BioBrick that senses the levels of nitrates in soil developed by Bristol iGEM Team 2010 [2], was designed to operate at room temperatures, especially for 37 ° C using the PyeaR BioBricks promoter [3].

Our team seeks to extend the range of optimal functioning of the sensor developed by Bristol at temperatures below 20 ° C, as many of the crops in highlands (coffee and fruits), are in this range. To solve this problem we found that the use of the AOX enzyme (Alternative oxidase) gene responsible for thermogenesis in the sacred lotus [4], mainly used in Synthetic Biology to generate an increase in periplasmic temperature, produced an interesting increase in the growth and downsizing bacterial densities in temperature [5]. This part uses a HybB promoter [6] for "cold shock". We, the UTP-Panama iGEM Team developed a new "device" by Combining the two parts, the AOX periplasmatic heat generator (BioBrick BBa_K410000) and the Nitrates biosensor (BioBrick BBa_K381001), to create that we call The Renbo, to ensure that our meters Nutrient operate at low temperatures. The Renbo is the first of a family of Improved Biosensor that the UTP-Panama Team plans to create.


Future Develops

The next step in our project is to interchange the HybB promoter by the CspA promoter (BBa_K328001), these will produce an anti freeze protein that prevents ice crystals formation in the cell, by applying these we expect E.coli to survive and also perceive an increase on the genetic expression of our Escherichia Coli and still be able to sense the nitrate and nitrites on even lower temperatures than 15ºC (limit temperature of RENBO).


The original BrainStorms ideas

To see the Original Project Description June-July 2011 click here.

Our Project Design

The Bristol BBa_k381001 encodes an expression of GFP in response of Nitrate or Nitrites that expresses fluorescent signals upon nutrient detection, its principal application is that allows farmers to quantify soil nutrient content. The BBa_k410000 is a fusion of the HydB cold shock promoter, the OmpA a signal peptide, and AOX 1 . AOXa is a alternative oxidase found in Sacred Lotus. This is going to produce a increase of heat above ambient temperature as follow:

· From 20 °C to 30 ° C the HydB promoter will express.
· Approximately at 37° the promoter will stop his expression.

By combining BBa_k38100 and BBa_k410000 we expected our part , the BBa_K672000 , to be able to sense nitrate and nitrites even after experiencing a cold shock at 20º C, making our BB employable in other places where the temperatures can be as low as 15º C.

BBCOMBINATIONreordered.jpg


REFERENCES

[1]https://2010.igem.org/Team:Mexico-UNAM-CINVESTAV/Project/Our_project
[2]http://partsregistry.org/Part:BBa_K381001
[3]http://partsregistry.org/Part:BBa_K216005
[4]Grant, N et al. “Two Cys or Not Two Cys? That is the Question; Alternative Oxidase in the Thermogenic Plant sacred Lotus.” Plant Physiology 150 (2009): 987-995.
[5]Cell Density and Growth Rate Monitoring Tables. (available at http://partsregistry.org/Part:BBa_K410000).
[6]http://partsregistry.org/Part:BBa_J45503

Aknowledgements

To: Dr Nigel Savery University of Bristol

To help us to understand the AgrEcoli Experiments and Project.