Difference between revisions of "Team:BioIQS-Barcelona/DryLab"

 
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                     <div class="header-content">
 
                     <div class="header-content">
 
                         <h1 class="mb-5">Dry Lab | Overview</h1>
 
                         <h1 class="mb-5">Dry Lab | Overview</h1>
                         <a href="#modelling" class="btn btn-outline btn-xl js-scroll-trigger">Have a look!</a>
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                         <a href="https://2018.igem.org/Team:BioIQS-Barcelona/DryLab#modelling" class="btn btn-outline btn-xl js-scroll-trigger">Have a look!</a>
 
                     </div>
 
                     </div>
 
                 </div>
 
                 </div>
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                     <h2 class="section-heading orange">Inner beauty</h2>
 
                     <h2 class="section-heading orange">Inner beauty</h2>
 
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                     <div class="col-md-auto">
                         <h4 class="book orange block-sept comas"><i>Despite what some people may think, DryLab
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                         <h4 class="book orange block-sept comas" id="eliminateOverflowcommas"><i>Despite what some people may think, DryLab
 
                                 occasionally may be equal or more important for a project to develop properly than the
 
                                 occasionally may be equal or more important for a project to develop properly than the
                                 WetLab. Applying this thought to our project, we decided to study some important
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                                 WetLab. Applying this to our project, we decided to study some important
 
                                 aspects and evaluate their viability. More specifically, our work in the DryLab
 
                                 aspects and evaluate their viability. More specifically, our work in the DryLab
 
                                 consisted on:</i></h4>
 
                                 consisted on:</i></h4>
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                 <div class="col-md-12 mx-auto block-sept">
                     <a class="js-scroll-trigger a-arrow" href="#cl-description"><span class="arrow down"></span></a>
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                     <a class="js-scroll-trigger a-arrow" href="https://2018.igem.org/Team:BioIQS-Barcelona/DryLab#cl-description"><span class="arrow down"></span></a>
 
                 </div>
 
                 </div>
 
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                 <div class="col-md-12 mx-auto">
 
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                     <div class="row">
 
                     <div class="row">
                         <h3 class="orange-intense">1st Modelling</h3>
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                         <h3 class="orange-intense">1st: Modeling</h3>
 
                     </div>
 
                     </div>
 
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                         <div class="col-md-6 right">
 
                             <p class="book orange">We had several ideas about how the sensor could work, and
 
                             <p class="book orange">We had several ideas about how the sensor could work, and
                                 eventually, one rose up strongly. The first step when you have an idea, goes through
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                                 eventually, one rose up strongly. The first step is having an idea. It may seem simple, but it can take long, as it goes through
                                 think about it, understand it and rethink it as many times as it is required. Maybe
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                                 think about the idea, understand it and rethink it as many times as it is required. Maybe this reflection
                                 seems an intuitive reflection, but constitutes the fundamental part of every
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                                 seems intuitive, but constitutes the fundamental part of all
                                 development. Using mathematical models and computer simulations we have been able to
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                                 developments. Using mathematical models and computer simulations we have been able to
                                 understand the dynamics underlying our sensor, variety of parameters could be tuned,
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                                 understand the dynamics underlying our sensor. Furthermore, using this model we can tune a huge variety of parameters,
                                 eventualities could be tested and tendencies could be predicted. </p>
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                                 test many eventualities and predict the tendency of the sensor.</p>
  
  
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                         <div class="col-md-6 left center">
 
                         <div class="col-md-6 left center">
 
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                             <div class="col-md-12 left">
                                 <p class="book orange">Generally speaking, the bottleneck of our idea or in other
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                                 <p class="book orange">Generally speaking, the bottleneck or critical working point of our idea,
                                    words, the critical working point, was to be able to build up a complex gold
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                                    was being able to build up a complex network of gold
                                     nano-particles network. In order to enable an easy optical detection. Understanding
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                                     nano-particles. This would enable our sensor to have an easy optical detection system. Understanding
                                     the implications associated, makes the difference when, at the end, real design
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                                     the implications associated in that procedure makes the difference while facing the real design.
                                     must be faced. Keep reading if you want to know our sensor. How HLA-DQ and
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                                     How can we detect the interactions between the HLA-DQ protein and gluten-derived peptides? How can this detection be easy and visual? And finally, which are the physical dynamics pervading in the system?
                                    gluten-derived peptides interactions could be detected? how this detection could be
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                                    Go to the <a href="https://2018.igem.org/Team:BioIQS-Barcelona/Model">modeling section</a> if you wish to know the answer to all this questions. </p>
                                    easy and visual? And finally, which is the physical dynamics pervading?</p>
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                                                 <a class="text-transform" href="Model.html" target="_blank"> Modelling</a>
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                                                 <a class="text-transform" href="https://2018.igem.org/Team:BioIQS-Barcelona/Model" target="_blank"> Modeling</a>
 
                                             </div>
 
                                             </div>
 
                                         </div>
 
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                         <h3 class="orange-intense">2nd PCRs standardization</h3>
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                         <h3 class="orange-intense">2nd: PCRs standardization</h3>
 
                     </div>
 
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                             <p class="book orange">One of the strengths of our approach to detect patient-specific
 
                             <p class="book orange">One of the strengths of our approach to detect patient-specific
                                 reactive gluten peptides in food is that it will only be necessary to obtain a DNA
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                                 reactive gluten peptides in food is that we can produce the sensor using only a DNA
                                 sample (saliva) from the patient. Patient’s HLA-DQ (the protein responsible of
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                                 sample from the saliva of the patient, which is not invasive. Patient’s HLA-DQ (the protein responsible for
                                 recognising and triggering the immune response) will be expressed using a PCR protocol
+
                                 recognizing and triggering the immune response) is then expressed using the <a href="https://2018.igem.org/Team:BioIQS-Barcelona/Basic_Part">PCR protocol</a>
                                 developed in the WetLab. For this purpose, we use specific primers to amplify patient’s
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                                 designed in the WetLab. For this purpose, we use specific primers to amplify the patient’s
                                 target genes and thus, it is necessary to evaluate if they are useful for all of the
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                                 target genes and thus, it is necessary to evaluate if they will be useful for all of the
 
                                 different celiac-associated genotypes.</p>
 
                                 different celiac-associated genotypes.</p>
 
                         </div>
 
                         </div>
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                             <div class="col-md-12">
 
                             <div class="col-md-12">
 
                                 <p class="book orange">A multiple sequence alignment (MSA) on all annotated
 
                                 <p class="book orange">A multiple sequence alignment (MSA) on all annotated
                                     celiac-associated genomic sequence was performed to evaluate the specific
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                                     celiac-associated genomic sequence was performed to evaluate the conservation between genotypes of the specific
                                     primer-binding regions conservation.</p>
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                                     primer-binding regions.</p>
                                 <p class="book orange">It has been demonstrated that these regions are perfectly
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                                 <p class="book orange">The results demonstrate that this regions are perfectly
                                     conserved or slightly different for both DQ2 and DQ8 celiac haplotypes separately.
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                                     conserved or only slightly different for both DQ2 and DQ8 celiac haplotypes.
 
                                     This means that either the same primer can be used for amplifying all genotypes or
 
                                     This means that either the same primer can be used for amplifying all genotypes or
                                     that a specific DQ2- or DQ8-primer has to be used.</p>
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                                     that a specific DQ2- or DQ8-primer has to be used. The possibility to use the same primers for multiple patients reduces the costs associated in the personalization factor.
 
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                                    Thus, we've created a standard method to achieve the required personalization.</p>
 
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                                                 <a class="text-transform" href="Standardization.html" target="_blank">PCRs
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                                                 <a class="text-transform" href="https://2018.igem.org/Team:BioIQS-Barcelona/Standardization" target="_blank">PCRs
 
                                                     Standardization</a>
 
                                                     Standardization</a>
 
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                         <h3 class="orange-intense">3rd Molecular recognition</h3>
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                         <h3 class="orange-intense">3rd: Molecular recognition</h3>
 
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                             <p class="book orange">Another aspect that we wanted to evaluate is how the HLA-DQ protein
 
                             <p class="book orange">Another aspect that we wanted to evaluate is how the HLA-DQ protein
                                 is able to effectively recognise and bind gluten-derived peptides. Specifically, which
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                                 is able to effectively recognize and bind gluten-derived peptides. Specifically, which
                                 are the residues that are mediating this recognition and, if they are conserved among
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                                 are the residues that are mediating this recognition and if they are conserved among
 
                                 celiac haplotypes DQ2 and DQ8.</p>
 
                                 celiac haplotypes DQ2 and DQ8.</p>
                             <p class="book orange">To do so, we focused the conservation study to those residues that
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                             <p class="book orange">To do so, we focused the conservation study to the residues that
                                 have been suggested to be responsible of the peptide recognition. A multiple alignment
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                                 have been previously suggested to be responsible for the peptide recognition. A multiple alignment
                                 on protein sequences was performed using all the annotated so far. </p>
+
                                 of protein amino acid sequences was performed using all the annotated HLA-DQ proteins so far.</p>
  
 
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                         <div class="col-md-6 left center">
 
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                                 <p class="book orange">Three different residues, two in the &alpha; chain and one in
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                                 <p class="book orange">The results demonstrate that three different residues, two in the &alpha; chain and one in
                                     the &beta; chain, have been determined as conserved among celiac patients and
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                                     the &beta; chain, are conserved among celiac patients and
                                     absent in healthy people and hence, it has been established that this mutated
+
                                     absent in healthy people. This mutated residues strictly need to be present in the HLA-DQ protein in order to molecularly
                                    residues strictly need to be present in the HLA protein in order to molecularly
+
                                     recognize a gluten peptide and develop the disease. Therefore, we elucidated <a href="https://2018.igem.org/Team:BioIQS-Barcelona/Celiac_disease">which are the residues</a> of the HLA-DQ protein responsible for its interaction with the epitopes involved in celiac disease.</p>
                                     recognise a gluten peptide and develop the disease.</p>
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Latest revision as of 23:14, 17 December 2018

BIO IQS

Dry Lab | Overview

Have a look!

Inner beauty

Despite what some people may think, DryLab occasionally may be equal or more important for a project to develop properly than the WetLab. Applying this to our project, we decided to study some important aspects and evaluate their viability. More specifically, our work in the DryLab consisted on:

1st: Modeling

We had several ideas about how the sensor could work, and eventually, one rose up strongly. The first step is having an idea. It may seem simple, but it can take long, as it goes through think about the idea, understand it and rethink it as many times as it is required. Maybe this reflection seems intuitive, but constitutes the fundamental part of all developments. Using mathematical models and computer simulations we have been able to understand the dynamics underlying our sensor. Furthermore, using this model we can tune a huge variety of parameters, test many eventualities and predict the tendency of the sensor.

Generally speaking, the bottleneck or critical working point of our idea, was being able to build up a complex network of gold nano-particles. This would enable our sensor to have an easy optical detection system. Understanding the implications associated in that procedure makes the difference while facing the real design. How can we detect the interactions between the HLA-DQ protein and gluten-derived peptides? How can this detection be easy and visual? And finally, which are the physical dynamics pervading in the system? Go to the modeling section if you wish to know the answer to all this questions.

2nd: PCRs standardization

One of the strengths of our approach to detect patient-specific reactive gluten peptides in food is that we can produce the sensor using only a DNA sample from the saliva of the patient, which is not invasive. Patient’s HLA-DQ (the protein responsible for recognizing and triggering the immune response) is then expressed using the PCR protocol designed in the WetLab. For this purpose, we use specific primers to amplify the patient’s target genes and thus, it is necessary to evaluate if they will be useful for all of the different celiac-associated genotypes.

A multiple sequence alignment (MSA) on all annotated celiac-associated genomic sequence was performed to evaluate the conservation between genotypes of the specific primer-binding regions.

The results demonstrate that this regions are perfectly conserved or only slightly different for both DQ2 and DQ8 celiac haplotypes. This means that either the same primer can be used for amplifying all genotypes or that a specific DQ2- or DQ8-primer has to be used. The possibility to use the same primers for multiple patients reduces the costs associated in the personalization factor. Thus, we've created a standard method to achieve the required personalization.

3rd: Molecular recognition

Another aspect that we wanted to evaluate is how the HLA-DQ protein is able to effectively recognize and bind gluten-derived peptides. Specifically, which are the residues that are mediating this recognition and if they are conserved among celiac haplotypes DQ2 and DQ8.

To do so, we focused the conservation study to the residues that have been previously suggested to be responsible for the peptide recognition. A multiple alignment of protein amino acid sequences was performed using all the annotated HLA-DQ proteins so far.

The results demonstrate that three different residues, two in the α chain and one in the β chain, are conserved among celiac patients and absent in healthy people. This mutated residues strictly need to be present in the HLA-DQ protein in order to molecularly recognize a gluten peptide and develop the disease. Therefore, we elucidated which are the residues of the HLA-DQ protein responsible for its interaction with the epitopes involved in celiac disease.