Team:Sevilla

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Nuestro proyecto es bastante ambicioso, pero creemos que es asequible. Vamos a construir circuitos basados en conjuntos de distintas estirpes de bacterias, donde cada estirpe cumpla la función de una puerta lógica (los componentes básicos de un circuito electrónico, como AND, OR o XOR), y cada estirpe intercambie información con las demás. Combinando las estirpes adecuadas, y usando determinadas sustancias químicas como inputs del sistema, podemos hacer que una comunidad bacteriana desempeñe funciones complejas.
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      <p>We're done</p>
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      <p class="by"> Posted by <a href="https://2011.igem.org/User:Pcamino">Pablo Camino</a> 20/09/2011</p>
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Para lograr nuestra meta, vamos a definir un estándar de programación de circuitos biológicos modularizado: una comunidad de bacterias (varias estirpes interrelacionas) forman un módulo físicamente independiente. La combinación de varios módulos permite realizar operaciones mucho más complejas de las que jamás se podrían conseguir en un medio continuo, ya que la modularización permite el reciclaje de estirpes y de sustancias. Para implementar este sistema, la clave es estandarizar las sustancias de comunicación intermodulares, y eso es lo que vamos a hacer, definir una sustancia, a la que bautizaremos como Ubbit (de Universal BioBit) que será la sustancia de comunicación entre módulos. Así, cualquier grupo de investigación podrá usar los módulos creados por otro grupo y combinarlos con los suyos propios sin necesidad de conocer su funcionamiento interno, sólo hace falta que ambos se acojan al estándar Ubbit.
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We are going to build circuits based on collections of different bacteria strains, where each strain works as a logic gate. A logic gate is the basic component of an electronic circuit, such as AND, OR or XOR,  and it exchanges information with the others.Combining the correct strains and using certain chemical substances as system inputs we can manipulate a bacterial community into performing complex functions.
 
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After several intense months of work preparing this project very hopefully, finally we have finished Arcanum Project's wiki development and this is the result. We hope you enjoy it as much as we have enjoyed doing it. </p>
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<p>We would like you to visit all our sections and if you have any inquiries, you can also be in contact with us by facebook, twitter or mail. We will be happy answering your questions or taking your suggestions into account.</p>
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<p>See you soon!
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      <p>Parts submitted</p>
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      <p class="by"> Posted by <a href="https://2011.igem.org/User:elena_moreno">Elena Moreno</a> 20/09/2011</p>
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    <p>Our parts are on their way to the MIT, accross the Atlantic ocean! Hope they have a nice trip and get there in good conditions. We wish we could've sent many exotic new biobricks, but ligations didn't go as well as expected, so we're finally sending three parts, and only one of them is in pSB1C3. Anyway, here you have a summary: </p>
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    <p><strong>K514000</strong>: F2620 has been ligated to I732019 so that our cells can express lacZ when they detect C6-3-oxo-HSL (the quorum sensing signal produced by luxI). This way they would turn blue in an XGal-agar plate or turn yellow a liquid medium with ONPG, that's how we've tested them.</p>
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<p><a href="http://partsregistry.org/Part:BBa_K514000"> BBa_K514000 </a></p>
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<p><strong>K514001</strong>: we've built a signal transductor with F2620 and C0070. The total construction is F2620+B0034+C0070+B0015, but sadly we weren't able to insert it in pSB1C3, so it's in a plasmid with kanamicine resistance. This part would detect C6-3-oxo-HSL and produce C4-HSL in response. </p>
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<p><a href="http://partsregistry.org/Part:BBa_K514001"> BBa_K514001 </a></p>
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<p><strong>K514002</strong>: it's a composition of J23119 + I1466 + R0071 in pSB1A2. It works as a receptor for C4-HSL (the quorum sensing signal produced bu RhlI) and activates a specific promotor behind which you can place any gene you want to express conditionally.</p>
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<p><a href="http://partsregistry.org/Part:BBa_K514002"> BBa_K514002 </a></p>
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To achieve our goal we are going to define a standard of programming modularized biological circuits, where a community of bacteria -from different but interconnected strains- form a physically independent module. Combining different modules in this way makes it possible to recycle strains and substances. To implement this system, the key is to standardise the inter-modular communication substances. This is exactly what we are going to do: we are going to define a substance, which we have named the Ubbit Standard (from Universal BioBit), that will be the element of communication between modules. Just like that, any research group could use the modules created by any other group and combine them with their own without the necessity of knowing how it internally works, just by using the Ubbit standard.
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If you want more information don't hesitate to contact us. There will be more information in the parts registry, but we're still working on it :)
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      <p>The Team</p>
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      <p class="by"> Posted by <a href="https://2011.igem.org/User:Robertmm">Roberto Martín</a> 27/07/2011</p>
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      We've almost finished the section "The Team" of our wiki. We are working on each member's pictures right now, so you just have to wait until all the photos are edited and uploaded.
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We are going to build circuits based on collections of different bacteria strains, where each strain works as a logic gate. A logic gate is the basic component of an electronic circuit, such as AND, OR or XOR,  and it exchanges information with the others.Combining the correct strains and using certain chemical substances as system inputs we can manipulate a bacterial community into performing complex functions.
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As you can see, the section is divided into four categories: Students, Instructors, Advisors and Mascot) and in each section every member has 3 photos, some of which are quite...different. Enjoy them!
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Follow <a href="http://kcy.me/4gom">this link</a> to see it!
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      <p>Our goal</p>
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      <p class="by"> Posted by <a href="https://2011.igem.org/User:Robertmm">Roberto Martín</a> 25/06/2011</p>
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We are going to build <strong>circuits based on collections of different bacteria strains</strong>, where each strain works as a logic gate. A logic gate is the basic component of an electronic circuit, such as AND, OR or XOR,  and it exchanges information with the others. Combining the correct strains and using certain chemical substances as system inputs we can <strong>manipulate a bacterial community into performing complex functions</strong>.
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To achieve our goal we are going to define a standard of programming modularized biological circuits, where a community of bacteria -from different but interconnected strains- form a physically independent module. Combining different modules in this way makes it possible to recycle strains and substances. To implement this system, the key is to standardise the inter-modular communication substances. This is exactly what we are going to do: we are going to define a substance, which we have named the Ubbit Standard (from Universal BioBit), that will be the element of communication between modules. Just like that, any research group could use the modules created by any other group and combine them with their own without the necessity of knowing how it internally works, just by using the Ubbit standard.
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To achieve our goal we are going to <strong>define a standard of programming modularized biological circuits</strong>, where a community of bacteria -from different but interconnected strains- form a physically independent module. Combining different modules in this way makes it possible to recycle strains and substances. To implement this system, the <strong>key is to standardise the inter-modular communication substances</strong>. This is exactly what we are going to do: we are going to define a substance, which we have named the Ubbit Standard (from Universal BioBit), that will be the element of communication between modules. Just like that, <strong>any research group could use the modules created by any other group and combine them</strong> with their own without the necessity of knowing how it internally works, just by using the Ubbit standard.
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      <p>Arcanum News</p>
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      <p class="by"> Posted by <a href="https://2011.igem.org/User:Robertmm">Roberto Martín</a> 27/07/2011</p>
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        Hi all! I'm glad to announce this new section, we will post events related to our lab, the software we are developing among other things. I hope this section will give you more information about us and about our project, and if you want to contact with us, just send us an email to <a href="mailto:contacto@arcanumproject.com ">contacto@arcanumproject.com </a> or follow us in <a href="www.twitter.com/igemsevilla11">Twitter</a> or look for us in <a href="http://www.facebook.com/pages/Sevilla-iGEM2011-Acanum-Project/187115714638929">Facebook</a>
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Latest revision as of 22:44, 21 September 2011

We're done


Posted by Pablo Camino 20/09/2011


After several intense months of work preparing this project very hopefully, finally we have finished Arcanum Project's wiki development and this is the result. We hope you enjoy it as much as we have enjoyed doing it.

We would like you to visit all our sections and if you have any inquiries, you can also be in contact with us by facebook, twitter or mail. We will be happy answering your questions or taking your suggestions into account.

See you soon!


Parts submitted


Posted by Elena Moreno 20/09/2011


Our parts are on their way to the MIT, accross the Atlantic ocean! Hope they have a nice trip and get there in good conditions. We wish we could've sent many exotic new biobricks, but ligations didn't go as well as expected, so we're finally sending three parts, and only one of them is in pSB1C3. Anyway, here you have a summary:

K514000: F2620 has been ligated to I732019 so that our cells can express lacZ when they detect C6-3-oxo-HSL (the quorum sensing signal produced by luxI). This way they would turn blue in an XGal-agar plate or turn yellow a liquid medium with ONPG, that's how we've tested them.

BBa_K514000

K514001: we've built a signal transductor with F2620 and C0070. The total construction is F2620+B0034+C0070+B0015, but sadly we weren't able to insert it in pSB1C3, so it's in a plasmid with kanamicine resistance. This part would detect C6-3-oxo-HSL and produce C4-HSL in response.

BBa_K514001

K514002: it's a composition of J23119 + I1466 + R0071 in pSB1A2. It works as a receptor for C4-HSL (the quorum sensing signal produced bu RhlI) and activates a specific promotor behind which you can place any gene you want to express conditionally.

BBa_K514002

If you want more information don't hesitate to contact us. There will be more information in the parts registry, but we're still working on it :)


The Team


Posted by Roberto Martín 27/07/2011


We've almost finished the section "The Team" of our wiki. We are working on each member's pictures right now, so you just have to wait until all the photos are edited and uploaded.

As you can see, the section is divided into four categories: Students, Instructors, Advisors and Mascot) and in each section every member has 3 photos, some of which are quite...different. Enjoy them! Follow this link to see it!


Our goal


Posted by Roberto Martín 25/06/2011


We are going to build circuits based on collections of different bacteria strains, where each strain works as a logic gate. A logic gate is the basic component of an electronic circuit, such as AND, OR or XOR, and it exchanges information with the others. Combining the correct strains and using certain chemical substances as system inputs we can manipulate a bacterial community into performing complex functions.

To achieve our goal we are going to define a standard of programming modularized biological circuits, where a community of bacteria -from different but interconnected strains- form a physically independent module. Combining different modules in this way makes it possible to recycle strains and substances. To implement this system, the key is to standardise the inter-modular communication substances. This is exactly what we are going to do: we are going to define a substance, which we have named the Ubbit Standard (from Universal BioBit), that will be the element of communication between modules. Just like that, any research group could use the modules created by any other group and combine them with their own without the necessity of knowing how it internally works, just by using the Ubbit standard.


Arcanum News


Posted by Roberto Martín 27/07/2011


Hi all! I'm glad to announce this new section, we will post events related to our lab, the software we are developing among other things. I hope this section will give you more information about us and about our project, and if you want to contact with us, just send us an email to contacto@arcanumproject.com or follow us in Twitter or look for us in Facebook


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