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Up to this step, the purification of crystalized chitin from lobster shells is completed through the steps of the pretreatment of materials, reaction with alkali solution, rinsing and removing minerals. However, all of these steps are only preparations for the last and the most crucial step of the whole reaction system: transformation. | Up to this step, the purification of crystalized chitin from lobster shells is completed through the steps of the pretreatment of materials, reaction with alkali solution, rinsing and removing minerals. However, all of these steps are only preparations for the last and the most crucial step of the whole reaction system: transformation. | ||
Applying biologic method of transformation to chitosan’s industrial production demands specially designed mechanical device that controls not only the release time of engineered E. coli cells but also the complete reaction process and further purification treatments of final products. | Applying biologic method of transformation to chitosan’s industrial production demands specially designed mechanical device that controls not only the release time of engineered E. coli cells but also the complete reaction process and further purification treatments of final products. | ||
− | Mechanical design<br><br> | + | |
+ | Mechanical design<br><br> | ||
+ | <img src="https://static.igem.org/mediawiki/2018/f/fb/T--SDSZ_China--34.jpeg" class="rounded mx-auto d-block" alt="..." width="100%" height="100%" style="Padding:300px"> | ||
The container of the reaction is composed of three layers, with the first layer filled with LB culture, the second layer divided into four chambers, each of which filled with engineered E. coli cells and the lowest layer placed with purified chitin transported from the former reaction tanks. At the bottom of each layers are discharge openings, and four timers are implemented on the walls of the second layer to control the releasing time of cultured bacteria. | The container of the reaction is composed of three layers, with the first layer filled with LB culture, the second layer divided into four chambers, each of which filled with engineered E. coli cells and the lowest layer placed with purified chitin transported from the former reaction tanks. At the bottom of each layers are discharge openings, and four timers are implemented on the walls of the second layer to control the releasing time of cultured bacteria. | ||
An ultrasonic cell disruptor is attached to the second layer of the container and a centrifugal machine is connected with the third layer of the container. The centrifugal machine is responsible to centrifuge crude chitosan obtained from the catalyzation of enzymes and centrifuge the adherent protein from the bacteria leftover and LB culture. | An ultrasonic cell disruptor is attached to the second layer of the container and a centrifugal machine is connected with the third layer of the container. The centrifugal machine is responsible to centrifuge crude chitosan obtained from the catalyzation of enzymes and centrifuge the adherent protein from the bacteria leftover and LB culture. |
Revision as of 00:28, 18 October 2018