Team:Hong Kong HKUST/human practice/outreach
From 2014.igem.org
Line 97: | Line 97: | ||
<div id="description_area"> | <div id="description_area"> | ||
<h2>Outreach</h2> | <h2>Outreach</h2> | ||
- | <p>Our team | + | <p>Our team made an effort to spread the idea of synthetic biology to the community in a somewhat traditional manner as well. We conducted talks and workshop for undergraduate students. In addition to that, we also held similar activities to reach out to high school students, who will be entering university in a near future. </p> |
</div> | </div> | ||
Line 117: | Line 117: | ||
<h6> Here is the description of the potato: it is a potato!</h6> | <h6> Here is the description of the potato: it is a potato!</h6> | ||
</div> | </div> | ||
- | <p> | + | <p> It was good to see students with different intended majors equally participate in the talk, and moreover show their enthusiastic attitude on synthetic biology and iGEM competition. |
- | + | </p> | |
</div> | </div> | ||
</td> | </td> | ||
Line 134: | Line 134: | ||
<td class= "content_cell"> | <td class= "content_cell"> | ||
<div class= "content_area_one_row"> | <div class= "content_area_one_row"> | ||
- | <p class="first_letter_enhanced"> | + | <p class="first_letter_enhanced">To help HKUST students become more familiar with iGEM research activity, especially freshmen joining iGEM in the near future, we felt that a hands-on laboratory experience would be a very interactive method for interested students to have a better understanding of synthetic biology. It would be an effective way to get those students introduced to the practical aspect of iGEM research. Therefore, our team organized a workshop on the 7th of October for a group of 15 interested freshmen. |
- | + | ||
- | + | This three-hour workshop was divided into two sessions - talk and wet lab. For the talk, our team first explained about the basics of synthetic biology and iGEM, as well as the rough idea of building constructs. We also introduced them to some common experiments in a synthetic biology laboratory. For the wet lab session, the participants were divided into smaller groups and they got to do several experiments such as restriction digestion, gel electrophoresis and beta-galactosidase assay. | |
- | + | ||
- | + | </p> | |
- | + | ||
- | + | ||
- | + | ||
</div> | </div> | ||
</td> | </td> | ||
Line 153: | Line 150: | ||
</div> | </div> | ||
<p> | <p> | ||
- | + | Through this workshop, we hoped that the participants could gain better insight on both iGEM and synthetic biology. We also wished that in the future, they would continuously explore their interests on both on the above subjects and live up the spirit of synthetic biology. | |
- | + | ||
- | + | ||
</p> | </p> | ||
</div> | </div> | ||
Line 180: | Line 175: | ||
</div> | </div> | ||
<p class="first_letter_enhanced"> | <p class="first_letter_enhanced"> | ||
- | This year, we had the opportunity to cooperate with an international school in Hong Kong to introduce the idea of synthetic biology to high school students. We had roughly around 30 students from The Independent Schools Foundation Academy ( | + | This year, we had the opportunity to cooperate with an international school in Hong Kong to introduce the idea of synthetic biology to high school students. We had roughly around 30 students from The Independent Schools Foundation Academy (ISF Academy) visiting our school. They were grade 10 students who will be determining their IB subjects in November. The school was eager to expose these students into various areas of studies to allow them explore their field of interest. Our team’s goal was to introduce these students to synthetic biology as the newly emerging field of in biological study and to give those potential future scientists some inspiration. |
+ | |||
+ | We delivered a talk to the students introducing the basic concept behind synthetic biology and its real-life applications, as well as the iGEM competition and this year’s project “Finding Pneumo”. We explained the principle behind our construct, and it was pleasing to see the students’ enthusiasm to learn. In fact, we were surprised how much they understood considering they were only grade 10 students in high school! After the talk, we invited students to visit our lab, giving them a look of how a synthetic biology lab in university looks like. Moreover, we prepared a few small lab experiments such as gel electrophoresis and streaking plates for them to try out some hands-on wet lab experience. | ||
</p> | </p> | ||
</div> | </div> | ||
Line 187: | Line 184: | ||
<div class= "content_area_one_row"> | <div class= "content_area_one_row"> | ||
<p> | <p> | ||
- | + | Interacting with these high school students was a lot of fun for our team. We saw their enthusiasm and passion in learning new things. We hoped this workshop would inspire the young generation to pursue and further develop the field of synthetic biology in the future. | |
- | + | </p> | |
- | + | ||
- | + | ||
</div> | </div> | ||
</td> | </td> |
Revision as of 14:53, 3 October 2014
Outreach
Our team made an effort to spread the idea of synthetic biology to the community in a somewhat traditional manner as well. We conducted talks and workshop for undergraduate students. In addition to that, we also held similar activities to reach out to high school students, who will be entering university in a near future.
Talks
Presentations are one of the most common and effective ways to share information and convey messages. This year, HKUST iGEM Team held two sessions of presentations for the freshmen. One session was conducted on the 26th of September for freshmen from School of Science, and another one was conducted on 13th of October for freshmen from School of Engineering. Through the presentations, we introduced synthetic biology and iGEM, explained briefly about our main project, shared our experiences joining the iGEM competition and encouraged the freshmen to join iGEM in the future. |
Fig 1 . Here is the potato.Here is the description of the potato: it is a potato!It was good to see students with different intended majors equally participate in the talk, and moreover show their enthusiastic attitude on synthetic biology and iGEM competition. |
Workshop
To help HKUST students become more familiar with iGEM research activity, especially freshmen joining iGEM in the near future, we felt that a hands-on laboratory experience would be a very interactive method for interested students to have a better understanding of synthetic biology. It would be an effective way to get those students introduced to the practical aspect of iGEM research. Therefore, our team organized a workshop on the 7th of October for a group of 15 interested freshmen. This three-hour workshop was divided into two sessions - talk and wet lab. For the talk, our team first explained about the basics of synthetic biology and iGEM, as well as the rough idea of building constructs. We also introduced them to some common experiments in a synthetic biology laboratory. For the wet lab session, the participants were divided into smaller groups and they got to do several experiments such as restriction digestion, gel electrophoresis and beta-galactosidase assay. |
Fig 1 . Here is the potato.Here is the description of the potato: it is a potato!Through this workshop, we hoped that the participants could gain better insight on both iGEM and synthetic biology. We also wished that in the future, they would continuously explore their interests on both on the above subjects and live up the spirit of synthetic biology. |
Education
Fig 1 . Here is the potato.Here is the description of the potato: it is a potato!This year, we had the opportunity to cooperate with an international school in Hong Kong to introduce the idea of synthetic biology to high school students. We had roughly around 30 students from The Independent Schools Foundation Academy (ISF Academy) visiting our school. They were grade 10 students who will be determining their IB subjects in November. The school was eager to expose these students into various areas of studies to allow them explore their field of interest. Our team’s goal was to introduce these students to synthetic biology as the newly emerging field of in biological study and to give those potential future scientists some inspiration. We delivered a talk to the students introducing the basic concept behind synthetic biology and its real-life applications, as well as the iGEM competition and this year’s project “Finding Pneumo”. We explained the principle behind our construct, and it was pleasing to see the students’ enthusiasm to learn. In fact, we were surprised how much they understood considering they were only grade 10 students in high school! After the talk, we invited students to visit our lab, giving them a look of how a synthetic biology lab in university looks like. Moreover, we prepared a few small lab experiments such as gel electrophoresis and streaking plates for them to try out some hands-on wet lab experience. |
Interacting with these high school students was a lot of fun for our team. We saw their enthusiasm and passion in learning new things. We hoped this workshop would inspire the young generation to pursue and further develop the field of synthetic biology in the future. |
Two columns picture to top
Fig 1 . Here is the potato.Here is the description of the potato: it is a potato! |
|
The meaning of life is a philosophical question concerning the significance of life or existence in general. It can also be expressed in different forms, such as "Why are we here?", "What is life all about?", and "What is the purpose of existence?" It has been the subject of much philosophical, scientific, and theological speculation throughout history. |
The meaning of life is a philosophical question concerning the significance of life or existence in general. It can also be expressed in different forms, such as "Why are we here?", "What is life all about?", and "What is the purpose of existence?" It has been the subject of much philosophical, scientific, and theological speculation throughout history. |
One column no image
The meaning of life is a philosophical question concerning the significance of life or existence in general. It can also be expressed in different forms, such as "Why are we here?", "What is life all about?", and "What is the purpose of existence?" It has been the subject of much philosophical, scientific, and theological speculation throughout history. There have been a large number of proposed answers to these questions from many different cultural and ideological backgrounds. The meaning of life is in the philosophical and religious conceptions of existence, social ties, consciousness, and happiness, and borders on many other issues, such as symbolic meaning, ontology, value, purpose, ethics, good and evil, free will, the existence of one or multiple gods, conceptions of God, the soul, and the afterlife. |
One column image to the right
The meaning of life is a philosophical question concerning the significance of life or existence in general. It can also be expressed in different forms, such as "Why are we here?", "What is life all about?", and "What is the purpose of existence?" It has been the subject of much philosophical, scientific, and theological speculation throughout history. There have been a large number of proposed answers to these questions from many different cultural and ideological backgrounds. The meaning of life is in the philosophical and religious conceptions of existence, social ties, consciousness, and happiness, and borders on many other issues, such as symbolic meaning, ontology, value, purpose, ethics, good and evil, free will, the existence of one or multiple gods, conceptions of God, the soul, and the afterlife. |
One column image to the left
The meaning of life is a philosophical question concerning the significance of life or existence in general. It can also be expressed in different forms, such as "Why are we here?", "What is life all about?", and "What is the purpose of existence?" It has been the subject of much philosophical, scientific, and theological speculation throughout history. There have been a large number of proposed answers to these questions from many different cultural and ideological backgrounds. The meaning of life is in the philosophical and religious conceptions of existence, social ties, consciousness, and happiness, and borders on many other issues, such as symbolic meaning, ontology, value, purpose, ethics, good and evil, free will, the existence of one or multiple gods, conceptions of God, the soul, and the afterlife. |
Home |
Pneumosensor |
Riboregulator |
Human Practice |
Team |
WetLab |
Achievement |