Difference between revisions of "Team:OUC-China/Human Practices"

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<h3>Introduction</h3>
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  “How do basic research results transform into applications that benefit humanity?” “How do you apply social feedback to a project? “How do you turn an obscure basic research into an easy-to-understand form?” There are some questions that the OUC-China team has been considering.
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Through communication, we found that this problem has also been plagued by other teams. In order to transform the basic research results of our team into practical applications, we communicated with many stakeholders, visited related biotech companies, asked professors in related fields, and created a game based on our project in order to make people understand some principles and knowledge of biology while playing games and entertainment. In this way, the obscure principle will be vivid and interesting. Apart from that, we teamed up with five other iGEM teams to set up a basic research results transformation team to jointly research local biotech companies and explore a fixed model for the transformation of basic research results, hoping to give a reference to the future iGEM teams. In the process of spreading the game, many children asked us about synthetic biology.
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“That sounds good! What is synthetic biology? Can we use it to produce anything that we want?”Based on their needs, we produced a comic book on synthetic biology. Luckily, our efforts have been recognized by other iGEM teams. Sophie Mazzoli, **, suggest that we can translate it into other language so that more children can read this synthetic biology comic book. We request collaboration with other iGEM teams in different languages on the official website. Finally, the comic book is translated into more than a dozen languages and promoted in various countries around the world.
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Revision as of 13:23, 2 October 2018

Team OUC-China: Main jQuery UI 折叠面板(Accordion) - 非自动高度

Human Practices

Introduction

“How do basic research results transform into applications that benefit humanity?” “How do you apply social feedback to a project? “How do you turn an obscure basic research into an easy-to-understand form?” There are some questions that the OUC-China team has been considering. Through communication, we found that this problem has also been plagued by other teams. In order to transform the basic research results of our team into practical applications, we communicated with many stakeholders, visited related biotech companies, asked professors in related fields, and created a game based on our project in order to make people understand some principles and knowledge of biology while playing games and entertainment. In this way, the obscure principle will be vivid and interesting. Apart from that, we teamed up with five other iGEM teams to set up a basic research results transformation team to jointly research local biotech companies and explore a fixed model for the transformation of basic research results, hoping to give a reference to the future iGEM teams. In the process of spreading the game, many children asked us about synthetic biology. “That sounds good! What is synthetic biology? Can we use it to produce anything that we want?”Based on their needs, we produced a comic book on synthetic biology. Luckily, our efforts have been recognized by other iGEM teams. Sophie Mazzoli, **, suggest that we can translate it into other language so that more children can read this synthetic biology comic book. We request collaboration with other iGEM teams in different languages on the official website. Finally, the comic book is translated into more than a dozen languages and promoted in various countries around the world.

Introduction

“How do basic research results transform into applications that benefit humanity?” “How do you apply social feedback to a project? “How do you turn an obscure basic research into an easy-to-understand form?” There are some questions that the OUC-China team has been considering. Through communication, we found that this problem has also been plagued by other teams. In order to transform the basic research results of our team into practical applications, we communicated with many stakeholders, visited related biotech companies, asked professors in related fields, and created a game based on our project in order to make people understand some principles and knowledge of biology while playing games and entertainment. In this way, the obscure principle will be vivid and interesting. Apart from that, we teamed up with five other iGEM teams to set up a basic research results transformation team to jointly research local biotech companies and explore a fixed model for the transformation of basic research results, hoping to give a reference to the future iGEM teams. In the process of spreading the game, many children asked us about synthetic biology. “That sounds good! What is synthetic biology? Can we use it to produce anything that we want?”Based on their needs, we produced a comic book on synthetic biology. Luckily, our efforts have been recognized by other iGEM teams. Sophie Mazzoli, **, suggest that we can translate it into other language so that more children can read this synthetic biology comic book. We request collaboration with other iGEM teams in different languages on the official website. Finally, the comic book is translated into more than a dozen languages and promoted in various countries around the world.

Timeline

 

Introduction

“How do basic research results transform into applications that benefit humanity?” “How do you apply social feedback to a project? “How do you turn an obscure basic research into an easy-to-understand form?” There are some questions that the OUC-China team has been considering. Through communication, we found that this problem has also been plagued by other teams. In order to transform the basic research results of our team into practical applications, we communicated with many stakeholders, visited related biotech companies, asked professors in related fields, and created a game based on our project in order to make people understand some principles and knowledge of biology while playing games and entertainment. In this way, the obscure principle will be vivid and interesting. Apart from that, we teamed up with five other iGEM teams to set up a basic research results transformation team to jointly research local biotech companies and explore a fixed model for the transformation of basic research results, hoping to give a reference to the future iGEM teams. In the process of spreading the game, many children asked us about synthetic biology. “That sounds good! What is synthetic biology? Can we use it to produce anything that we want?”Based on their needs, we produced a comic book on synthetic biology. Luckily, our efforts have been recognized by other iGEM teams. Sophie Mazzoli, **, suggest that we can translate it into other language so that more children can read this synthetic biology comic book. We request collaboration with other iGEM teams in different languages on the official website. Finally, the comic book is translated into more than a dozen languages and promoted in various countries around the world.


  
  
  
  
  
  
  
  

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