Team:Zamorano/Education

From 2014.igem.org

(Difference between revisions)
Line 195: Line 195:
border-bottom-color: #EBE9BC;
border-bottom-color: #EBE9BC;
 +
}
 +
.tabla .modo1 td {
 +
/*padding:10px 5px 0px 10px;*/
 +
border-top-width:1px;
 +
border-right-width: 1px;
 +
border-bottom-width: 1px;
 +
border-right-style: solid;
 +
border-bottom-style: solid;
 +
border-right-color: #EBE9BC;
 +
border-bottom-color: #EBE9BC;
 +
border-top-color: #EBE9BC;
 +
text-align:center;
}
}
.igem-bar {
.igem-bar {
Line 1,173: Line 1,185:
<li>Genotyping</li>
<li>Genotyping</li>
</ul>
</ul>
 +
 +
<p><h2>Syllabus-Learning by doing program</h2></p>
 +
<table  cellspacing="0" cellpadding="0" class="tabla">
 +
<tr class="modo1">
 +
<td colspan="2"></td>
 +
</tr>
 +
  <tr class="modo1">
 +
    <th width="157" valign="top" ><p align="left"><strong>Module</strong><strong> </strong></p></th>
 +
    <td width="443" valign="top"><p align="center">Biotechnology and    synthetic biology introduction Sintética</p></td>
 +
  </tr>
 +
  <tr class="modo1">
 +
    <th width="157" valign="top"><p align="left"><strong>Department:</strong><strong> </strong></p></th>
 +
    <td width="443" valign="top"><p align="center">Environmental and    Development Engineerig </p></td>
 +
  </tr>
 +
  <tr class="modo1">
 +
    <th width="157" valign="top"><p align="left"><strong>Proffesors</strong><strong>:</strong><strong> </strong></p></th>
 +
    <td width="443" valign="top"><p align="center">Estela Aguilar Ms. C; Ludovic Boully Ph.D</p></td>
 +
  </tr>
 +
  <tr class="modo1">
 +
    <th width="157" valign="top"><p align="left"><strong>Number of weeks.</strong><strong> </strong></p></th>
 +
    <td width="443" valign="top"><p align="center">1 Semanas/Cada 2    meses/ </p></td>
 +
  </tr>
 +
  <tr class="modo1">
 +
    <th width="157" valign="top"><p align="left"><strong>Location:</strong><strong> </strong></p></th>
 +
    <td width="443" valign="top"><p align="center">Laboratorio de    Microbiología Ambiental </p></td>
 +
  </tr>
 +
  <tr class="modo1">
 +
    <th width="157" valign="top"><p align="left"><strong>Benneficiries:</strong></p></th>
 +
    <td width="443" valign="top"><p align="center">Environmentald and Development Engineering, Animal    science, crop science and food technology. </p></td>
 +
  </tr>
 +
  <tr class="modo1">
 +
    <th width="157" valign="top"><p align="left"><strong>Topics:</strong></p></th>
 +
    <td width="443" valign="top">
 +
    <ol style="text-align:justify">
 +
      <li>Molecular biology</li>
 +
      <li>Microbiology </li>
 +
      <li>Genetic Engineering</li>
 +
      <li>Biochemistry</li>
 +
      <li>Cellular biology</li>
 +
    </ol></td>
 +
  </tr>
 +
  <tr class="modo1">
 +
    <th width="157" valign="top"><p align="left"><strong>Topics:</strong></p></th>
 +
    <td width="443" valign="top"><p align="center">Practices</p></td>
 +
  </tr>
 +
  <tr class="modo1">
 +
    <th width="157" valign="top"><p align="left"><strong>Molecular biology</strong></p></th>
 +
    <td width="443" valign="top"><p>Transfecction: Calcium    Phosphate Transfection, <br />
 +
      Electroporation,    Reporter Analysis, <br />
 +
      Stable Transfection </p></td>
 +
  </tr>
 +
  <tr class="modo1">
 +
    <th width="157" valign="top"><p align="left"><strong>Microbiology</strong></p></th>
 +
    <td width="443" valign="top"><p>Antibiotics, Bacteria    Assay, Bacteria Culture, <br />
 +
      Culture Media &amp;    Plates, <br />
 +
      Nucleic Acid    Extraction </p></td>
 +
  </tr>
 +
  <tr class="modo1">
 +
    <th width="157" valign="top"><p align="left"><strong>Genetic engineering</strong></p></th>
 +
    <td width="443" valign="top"><p>Biological systems    construction</p></td>
 +
  </tr>
 +
  <tr class="modo1">
 +
    <th width="157" valign="top"><p align="left"><strong>Biochemistry</strong></p></th>
 +
    <td width="443" valign="top"><p>Enzymes analysis</p></td>
 +
  </tr>
 +
  <tr class="modo1">
 +
    <th width="157" valign="top"><p align="left"><strong>Cellular biology</strong></p></th>
 +
    <td width="443" valign="top"><p>Transfection,    Nucleofection, Transduction of Stem Cells</p></td>
 +
  </tr>
 +
</table>
 +
<p><h2>Training courses</h2></p>
 +
<p>Zamorano University will impart training courses for all people interested in learning about synthetic biology. Because of this, the courses are focused on a very heterogenic group of people; students and teachers from different ageS, majors and universities. Due to the wide range of people, the courses available will be divided by the level of specificity. To classify the groups by levels of understanding will allow the information and basic knowledge about synthetic biology to be transmitted in an efficient way, so it is easier to understand.</br>
 +
We are providing information so the listeners and students could difference in a proper way the different topics related to genetic manipulation, also to support the process of developing their own capabilities (Margolis and Bell, 1986).
 +
</p>
 +
 +
 +
<p><h2>Classification of training courses</h2></p>
 +
<p><b>Classroom training:</b> Qualified professors will impart introduction and orientation classes about synthetic biology, its basis, and its applications. The classes will allow the student to maintain a close relationship to the specialist in the area. Zamorano, as it has already demonstrated through its learn by doing program, affirms the real learning experience becomes more important for the globalized world (Roca 2014).</p>
 +
 +
<p><b>Laboratories:</b> This type of class will be held only at the laboratory. The basic asepsis techniques in a lab will be taught, along with daily procedures to work on it. What to do in case of an emergency will be explained. There will be DNA extraction practices and genetic modification of organisms so the students may understand the process.</p>
 +
 +
<p><b>Synthetic Biology Academic Workshops:</b> These workshops are oriented to professors that will impart synthetic biology related classes. The target population for these workshops, the professors, should impart class in universities, public and private schools in Honduras. By informing professors, we are indirectly contributing to the spread of information about synthetic biology; because indirectly, it has a reach of hundreds of Honduran students. The team counts with the support of the Ministry of education and the Honduran government (which fully supports this student program). On top of this, Zamorano University it’s placed at the heart of Central America, and because of the fact it holds students from more than 20 Latin American countries, it has been able to stablish alliances with almost all National universities represented and some international ones. Taking advantage from these alliances, there will be efforts towards working with nearby countries that do not have a synthetic biology programs such as: Nicaragua, El Salvador and Guatemala. The result will be a society aware of the benefits that synthetic biology represent.</p>
 +
<p>The topics will be instructed for a basic synthetic biology program, by Doctors and specialist in biotechnology and synthetic biology, will be focused on 3 main areas. These are: Bioinformatics, Molecular biology and Microbiology, and genetics and biotechnology. The list of universities that Zamorano University may count with its participation can be found on the annexes.</p>
</div>
</div>
 +
</div>
</div>
</body>
</body>
</html>
</html>

Revision as of 17:25, 16 October 2014

Education Component


In an effort to improve the public perception towards synthetic biology and to spread knowledge about it, the Zamorano Latinoamerica iGEM team created the education section of the project. The education section consist in a series of activities, some already performed and some due in a short and long term, that aim to teach people in the surrounding environment and neighbor countries about synthetic biology. The elements of the educational component are detailed below.

Component activities


This graphic represents the four subsections of the education section.

Biotechnology and introduction to synthetic biology work module

The “learning by doing” system has characterized Zamorano University in its 71 years of existence. It states that people learn better about something, if they do it themselves; hence the name. During their first three years of studies, students rotate between work modules, covering the whole value chain of the food and agriculture industry. During its fourth and last year of studies, students conduct a “Specialized Learning by Doing”. It provides students with the opportunity to organize and perform training courses and field activities for the younger year students, transmitting the knowledge acquired during their four years of study at the university. the unique philosophy of Zamorano provides the students with a learning process full of abilities and skills based on scientific, theoretical and practical knowledge; students are motivated to integrate what they have learned to solve professional modern real life problems in different kind of environments.

The work modules of the “learning by doing” system in Zamorano have been in a continuous improvement process during the seven decades of the institution’s existence. Nowadays Zamorano University has 13 businesses, possessing the equipment and adequate facilities for students to put in practice the knowledge achieved in the classroom. There are wide spaces for primary production, Agroindustrial processing plants, commercialization center and the support of modern analytic labs, research and new product development. Each one of it has an adequate guiding and supervising of qualified professors and instructors with experience on the specific topics. The learning by doing also helps the students to improve its performance for the time when they conduct their internship program in prestigious universities and companies.

The Zamorano Latinoamerica iGEM team, proposed the creation of a learning by doing work module for third year students. This work module will bring students the opportunity to develop projects that may address this century´s challenges, using biologic technology based solutions. Using interactive conferences, lab practices and homework assignments, the students will learn the techniques and strategies and vocabulary of: bioremediation, biological systems engineering, genetic engineering, bioparts standardization and biological machinery.

This module will be two weeks long, and there will be a time of 3 months between the two weeks. The first week will be instructed introduction lectures, and then students will be assigned takes that students may comply in a three months period. After the three months the student will return to the module to perform laboratory practices.

Module’s description

  • It is an advanced biotechnology module with emphasis on environmental science. It also includes applications to agriculture and agribusiness. It also integrates Synthetic Biology.
  • The module emphasizes the study of the challenges that the planet faces for a sustainable development with economic, social and environmental dimensions, and creates opportunities for research and discussion of relevant issues to classical biotechnology and synthetic biology topics.
  • The module seeks to respond to the demands of the competitive global society and the competitive workplace. It has been designed considering the latest technological developments in biosciences and related sciences.


Objectives:

  • To promote among students the assertive communication, critical thinking and teamwork.
  • To teach the students about the basic principles of biological sensors.
  • To promote in the students aseptic technique skills.
  • To teach the students about the basic principles of synthetic biology.


Teaching strategies to be used:

The learning by doing emphasizes a teaching and learning process in which students are the main responsible of its own formation. To achieve it, they will be assigned with a series of problems which will have to be resolved during the module. The self-administration of knowledge is an essential condition to keep updated during the professional life (Solzbacher, 2006). Referring to the importance of the learning by doing of Jean Piget, Von Glasersfeld affirms the following: “The learning by doing aims for students to develop skills and abilities that may allow them to keep learning during their lives.”

Learning based on problems: it is a method of teaching based on the principle that problems are a starting point in the acquisition and integration of new knowledge. The students will perform individual and team activities in which they will need to analyze and resolve highly difficult situations. The students will count with the guide and support of the module instructors, which will also be in charge of the class lectures.

Laboratory practices: The student will make didactive practices in the laboratory for a week. The purpose of the practices is for the student to obtain the experience and the knowledge; performing the assigned activities all by himself; learning by doing. Son practices include:

  • Chromosomal DNA Isolation
  • DNA Extraction from Bacteria
  • Molecular Sequence Analysis
  • Polynucleotide probe design
  • Transgénesis
  • ELISA
  • Characterization and Transcription Analysis
  • Genotyping

Syllabus-Learning by doing program

Module

Biotechnology and synthetic biology introduction Sintética

Department:

Environmental and Development Engineerig

Proffesors:

Estela Aguilar Ms. C; Ludovic Boully Ph.D

Number of weeks.

1 Semanas/Cada 2 meses/

Location:

Laboratorio de Microbiología Ambiental

Benneficiries:

Environmentald and Development Engineering, Animal science, crop science and food technology.

Topics:

  1. Molecular biology
  2. Microbiology
  3. Genetic Engineering
  4. Biochemistry
  5. Cellular biology

Topics:

Practices

Molecular biology

Transfecction: Calcium Phosphate Transfection,
Electroporation, Reporter Analysis,
Stable Transfection

Microbiology

Antibiotics, Bacteria Assay, Bacteria Culture,
Culture Media & Plates,
Nucleic Acid Extraction

Genetic engineering

Biological systems construction

Biochemistry

Enzymes analysis

Cellular biology

Transfection, Nucleofection, Transduction of Stem Cells

Training courses

Zamorano University will impart training courses for all people interested in learning about synthetic biology. Because of this, the courses are focused on a very heterogenic group of people; students and teachers from different ageS, majors and universities. Due to the wide range of people, the courses available will be divided by the level of specificity. To classify the groups by levels of understanding will allow the information and basic knowledge about synthetic biology to be transmitted in an efficient way, so it is easier to understand.
We are providing information so the listeners and students could difference in a proper way the different topics related to genetic manipulation, also to support the process of developing their own capabilities (Margolis and Bell, 1986).

Classification of training courses

Classroom training: Qualified professors will impart introduction and orientation classes about synthetic biology, its basis, and its applications. The classes will allow the student to maintain a close relationship to the specialist in the area. Zamorano, as it has already demonstrated through its learn by doing program, affirms the real learning experience becomes more important for the globalized world (Roca 2014).

Laboratories: This type of class will be held only at the laboratory. The basic asepsis techniques in a lab will be taught, along with daily procedures to work on it. What to do in case of an emergency will be explained. There will be DNA extraction practices and genetic modification of organisms so the students may understand the process.

Synthetic Biology Academic Workshops: These workshops are oriented to professors that will impart synthetic biology related classes. The target population for these workshops, the professors, should impart class in universities, public and private schools in Honduras. By informing professors, we are indirectly contributing to the spread of information about synthetic biology; because indirectly, it has a reach of hundreds of Honduran students. The team counts with the support of the Ministry of education and the Honduran government (which fully supports this student program). On top of this, Zamorano University it’s placed at the heart of Central America, and because of the fact it holds students from more than 20 Latin American countries, it has been able to stablish alliances with almost all National universities represented and some international ones. Taking advantage from these alliances, there will be efforts towards working with nearby countries that do not have a synthetic biology programs such as: Nicaragua, El Salvador and Guatemala. The result will be a society aware of the benefits that synthetic biology represent.

The topics will be instructed for a basic synthetic biology program, by Doctors and specialist in biotechnology and synthetic biology, will be focused on 3 main areas. These are: Bioinformatics, Molecular biology and Microbiology, and genetics and biotechnology. The list of universities that Zamorano University may count with its participation can be found on the annexes.