Difference between revisions of "Team:SKLMT-China/Integrated Gold"

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                         <p>The State Key Laboratory of Microbial Technology is located in the core area of Qingdao Blue Silicon Valley Ventures. It is adjacent to hundreds of biotechnology and related industry companies, providing unique conditions for the development and feedback of our projects. In the later stage of the project, we had a discussion with the R&D staff of Qingdao Deao Biotechnology Co., Ltd. to discuss the advantages and disadvantages of existing biotransformation hosts and the feasibility of using Pseudomonas as an expression chassis.</p>
 
                         <p>The State Key Laboratory of Microbial Technology is located in the core area of Qingdao Blue Silicon Valley Ventures. It is adjacent to hundreds of biotechnology and related industry companies, providing unique conditions for the development and feedback of our projects. In the later stage of the project, we had a discussion with the R&D staff of Qingdao Deao Biotechnology Co., Ltd. to discuss the advantages and disadvantages of existing biotransformation hosts and the feasibility of using Pseudomonas as an expression chassis.</p>
<p>Miss. Wang said that the existing standardized prokaryotic protein expression system is generally only <latin>Escherichia coli</latin>, because its genetic background is clear, the transformation is thorough, and there are many people studying about it. But as the mammalian symbiotic bacteria, the nutritional and metabolic pathways of <latin>E.coli</latin> are relatively monotonous and its culture conditions are also more stringent. There are some problems in the expression of some proteins and the production of products that are difficult to solve. In comparison, the idea of transforming <latin>Pseudomonas</latin> into a new chassis is interesting because low temperatures contribute to the correct folding of proteins, and a large proportion of <latin>Pseudomonas</latin> belongs to cold-tolerant bacteria, which can be used as hosts to produce some large intestines. Isothermal hosts, like <latin>E.coli</latin> express less ideal proteins. At the same time, <latin>Pseudomonas<latin> has a variety of nutrient types, and its various metabolic pathways can be used to produce substances that cannot be produced by other strains. Therefore, <latin>Pseudomonas</latin> has great application potential in industrial production. The promoter is one of the most important factors regulating the expression level of protein and regulating the flow of mass and energy in the production process. It is a good attempt that we started with the promoter and established a promoter prediction system for <latin>Pseudomonas</latin>. However, our 70 bp promoter sequence is too general. It’s not accurate to the -35,-10 core region like that in <latin>E.coli</latin>, and there is no accurate division of RBS, so we still have much room for improvement.
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<p>Miss. Wang said that the existing standardized prokaryotic protein expression system is generally only <latin>Escherichia coli</latin>, because its genetic background is clear, the transformation is thorough, and there are many people studying about it. But as the mammalian symbiotic bacteria, the nutritional and metabolic pathways of <latin>E.coli</latin> are relatively monotonous and its culture conditions are also more stringent. There are some problems in the expression of some proteins and the production of products that are difficult to solve. In comparison, the idea of transforming <latin>Pseudomonas</latin> into a new chassis is interesting because low temperatures contribute to the correct folding of proteins, and a large proportion of <latin>Pseudomonas</latin> belongs to cold-tolerant bacteria, which can be used as hosts to produce some large intestines. Isothermal hosts, like <latin>E.coli</latin> express less ideal proteins. At the same time, <latin>Pseudomonas</latin> has a variety of nutrient types, and its various metabolic pathways can be used to produce substances that cannot be produced by other strains. Therefore, <latin>Pseudomonas</latin> has great application potential in industrial production. The promoter is one of the most important factors regulating the expression level of protein and regulating the flow of mass and energy in the production process. It is a good attempt that we started with the promoter and established a promoter prediction system for <latin>Pseudomonas</latin>. However, our 70 bp promoter sequence is too general. It’s not accurate to the -35,-10 core region like that in <latin>E.coli</latin>, and there is no accurate division of RBS, so we still have much room for improvement.
  
 
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Revision as of 20:45, 17 October 2018

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