Synthetic biology has produced countless achievements and products since its birth. But what we found is that even though biological technology is advancing very rapidly, we still don't have a very intuitive sense of how biotechnology has changed our lives. We considered and investigated this problem, put forward the optimization theory of socialization and marketization of synthetic biology project. The theory takes the nature of the project as the core, explores the social significance of the project in combination with the actual situation, defines the direction of social practice and investigate. "The bivariate respondent classification method" is proposed, which is according to the respondents’ understanding of professional knowledge and the degree of relevance to the product as the classification standard. It provides a guarantee for the comprehensiveness of the opinions obtained in the social survey of the project. At the same time, put forward the project propaganda and science popularization strategy of "spreading science by culture", which can provide some ideas to solve the problem of achievement popularization.
We communicated with our secondary PI Lin Zhanglin. Synthetic biology has enormous potential, he points out, but to unleash it requires socialization and marketization. This has inspired us even more to develop a versatile pragmatic socialization theory of synthetic biology in general -- so called VerPras Theory. ( Click Here: read more about the interview with Prof. Lin)
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Cognize our project:
Our project, " VerProS: A versatile Promoter-Toehold Switches pool for optimizing adaptability of multi-gene system in E. coli " is a transcriptional regulation pool which is an irrational design achievement, applied in industrial. The transcriptional regulation pool can improve the production and avoid the problem of repeated construction. Its applicability is wide and it can greatly reduce the manpower cost. It is a project with a high application bias -- it has a high application value, but it needs a series of preliminary auxiliary research before it can be applied to other projects. As a regulatory tool, it is necessary to prove its effectiveness. Therefore, we selected the acid tolerance problem in the amino acid fermentation industry as the regulatory object to verify the tool based on the actual situation in the laboratory.
Analysis of applifund-dualityWhy we do this? -- Click to learn more about the VerPraS theroy
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Define the path of our project:
The VerProS pool developed by the team can be used to optimize the flow problem in the prokaryotic fermentation production process, so as to improve the yield, resistance and other functions. The acid tolerant problem in amino acid fermentation industry was selected for regulation. In the amino acid fermentation industry, improving the acid tolerance of fermentation strains was conducive to improving the yield and reducing pollution emissions. The acid resistance problem selected by the team could significantly increase the cost and reduce pollution emissions after being solved. With the increasing pressure on environmental protection and the increasingly fierce competition among enterprises, the social demand to solve this problem cannot be ignored. At the same time, the amino acid fermentation industry is now worth more than $10 billion, and many people's lives are closely related to it. Every small optimization of the production process has the potential to generate huge economic and social value.
Analysis of product positioning and social needs:Why we do this? -- Click to learn more about the VerPraS theroy