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| | <li><a href="https://2015.igem.org/Team:Amoy/Project/Background">Background</a></li> | | <li><a href="https://2015.igem.org/Team:Amoy/Project/Background">Background</a></li> |
| | + | <li><a href="https://2015.igem.org/Team:Amoy/Description">Description</a></li> |
| | <li><a href="https://2015.igem.org/Team:Amoy/Project/Methods">Methods</a></li> | | <li><a href="https://2015.igem.org/Team:Amoy/Project/Methods">Methods</a></li> |
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| − | <p id="title_p">Overview</p> | + | <p id="title_p">ABSTRACT</p> |
| − | <p class="main_p">L-tert-leucine, an unnatural amino acid, plays an important role in the pharmaceutical, agrochemical, food additives and cosmetic industry. With its special importance, many methodologies, including chemical and biological resolutions, were developed for its preparation in the past decades. Chemical resolution could be easily carried out on a large scale, however, the tedious process in low yield and the difficulties in the racemization of the opposite enantiomer were also observed. [1] Biocatalytic protocols, which can be conducted under mild conditions with high selectivity, usually offer greater benefits than chemical procedures and thus gain more and more attention from organic chemist. However, most of these biological resolution procedures are tedious and possess an inherent 50% yield limit. [2]</p> | + | <p class="main_p">L-<i>tert</i>-leucine (L-Tle) is an important chiral amino acid, which can be used to produce HIV or HCV protease inhibitors. Scientists developed enzymatic reductive amination to produce L-Tle by using leucine dehydrogenase (LeuDH) and formate dehydrogenase (FDH) based on cofactor regeneration. It greatly improved the yield and optical purity of L-Tle. However, owing to different activity of LeuDH and FDH, the NADH consumption would be faster than its regeneration. Therefore, external NADH is necessary. Many methods have been used to solve this problem, but none of them made a difference.</br></br> |
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| − | <img class="main_img" src="https://static.igem.org/mediawiki/2015/f/f7/Amoy-Project_Overview_figure1.jpg" style="width: 80%;" /> | + | Our project devised a method that regulating the enzyme activity of LeuDH by changing RBS of <i>leudh</i>. And <i>fdh</i> and <i>leudh</i> were borne in a plasmid. This idea controls copy numbers and transformation efficiency, and the only variable is RBS efficiency of <i>leudh</i>. With the different efficiency of RBS, we can get different enzyme activity of LeuDH. And from the experimental results, we obtained the suitable RBS efficiency and the best catalytic efficiency. Finally, the desired L-Tle was obtained with >99% conversion and a high enantioselectivity of >99% e.e. value. |
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| − | <p class="figure" style="text-align: center; margin-top: 20px; width: 80%;">Figure1. Comparison of biological method and chemical method of L-tert-leucine synthesis</p> | + | |
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| − | <p class="main_p"></br></br>In order to solve the problem, scientists developed enzymatic reductive amination to produce L-tert-leucine by using leucine dehydrogenase and formate dehydrogenase. [6]This technology greatly improve the yield and excellent enantiomeric excess of L-tert-leucine. It is regarded to be one of the most efficient routes.</br></br> | + | |
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| − | Owing to different activity of leucine dehydrogenase and formate dehydrogenase, the NADH consumption rate does not equal to its regeneration. Therefore, it is necessary to add excess NADH. the cofactor-NADH is an pretty expensive raw material, which will make the mass production of L-tert-leucine not cost-effective.</br></br>
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| − | The circuits with gene LeuDH and with gene FDH were inserted into two <i>E.coli</i> cells separately. Then they add different wet biomass of two <i>E.coli</i> cells. [7]They hope to keep the activity of two enzyme equal through this method. Researchers using isolated enzymes find it disadvantageous because enzymes are easily destabilized in the isolation and purification process.
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| − | <p class="figure" style="text-align: center; margin-top: 20px;">Figure2. Circuits inserted into two <i>E.coli</i> cells separately</p>
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| − | <p class="main_p"></br></br>Then researchers plan to use whole-cell biocatalyst to stabilize enzymes and reduce the need of cofactor NADH. They envisaged that a promising strategy for a successful co-expression could be based on the same inducible promoter for both genes but located on two <i>E.coli</i> plasmids with different copy numbers, producing LeuDH and FDH on a different level. FDH was inserted in the plasmid with the higher copy number, while LeuDH was inserted in the medium copy number plasmid. We hope to regulate the copy number of plasmid to ensure the continuous recycling of the cofactor NADH. Presumably, this was achieved by a higher production of FDH compared to LeuDH due to the higher copy number vector for the FDH gene. Furthermore, this LeuDH/FDH-strain is suitable for high-cell density fermentation. Compared with isolated enzymes,whole cell-catalyzed asymmetric process has many advantages, such as simple, efficient, environmentally and economically attractive. However, researchers also find that using substrate concentrations of 500mM or higher, revealed a non-satisfactory reaction course, indicating significant inhibitions effects. The activity of two enzymes are both inhibited. Obviously, successful coexpression of two genes is still a challenge for scientists.</br></br>
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| − | So when we started to do our project though biological method, the problems are clear. One is researchers find it disadvantageous using isolated enzymes because enzymes are easily destabilized in the isolation and purification process. What's more, owing to different activities of leucine dehydrogenase and formate dehydrogenase, the NADH consumption rate does not equal to its regeneration. Therefore, it is necessary to add excess NADH. Whereas the cofactor-NADH is a pretty expensive raw material, which will make the mass production of L-tert-leucine not cost-effective. Given all these problems we plan to insert leudh and fdh to one circuit and use whole-cell biocatalyst to stabilize enzymes.
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| − | <img class="main_img" src="https://static.igem.org/mediawiki/2015/0/06/Amoy-Project_Overview_figure2.png" style="width: 100%;" /> | + | |
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| − | <p class="figure" style="text-align: center; margin-top: 20px;">Figure3. Different activities of LeuDH and FDH</p>
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| − | <p class="main_p" style="width: 60%; padding-right: 10%; float: left; text-align: justify;"></br></br></br></br>But why do we choose one circuit containing two genes and use whole-cell catalysts? Firstly, only one fermentation is required to produce the biocatalyst compared to two separate fermentations to clone cells containing LeuDH and FDH respectively, which is much more convenient. Secondly, transforming two plasmids with different resistance to one bacterium will make the <i>E.coli</i> hard to grow. Thirdly, the biocatalyst is suitable for high-cell density fermentations. No isolation and purification of the enzymes is required. Fourthly, whole-cell catalysts can achieve the effect of premix, which help to make the two enzymes cooperate well. Fifthly, it’s good for us to control variable in one cell. Last but not least, the most attractive thing is none or only very little external cofactor is required, because it is already contained in the whole-cell biocatalyst. In a word, the method we adopt not only can save a lot of cost but also can make it easy for us to adjust the expression level of 2 genes. [3] [4] [5]</br></br>
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| − | Here comes our project. The whole plan is to regulate the efficiency of ribosome binding site (RBS) to control the strength of leucine dehydrogenase and formate dehydrogenase. With the help of mathematical modeling, the most suitable efficiency of RBS of leucine dehydrogenase will be obtained. Consequently, the cofctor NADH can be self-sufficient as shown in this cycle.</br></br>
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| − | To achieve our goal, we got two gene circuits, one contains LeuDH gene and the other one contains FDH gene. We combined them together and transformed the whole circuit into <i>E.coli</i> so that two genes can express independently according to the RBS strength we arranged. Then, the <i>E.coli</i> will be broken and two enzymes are realeasd. At that moment we add the substrate trimethylpyruvic acid and ammonium formate to the system, so the cyclic catalysis begins and the leucine will be produced.</br></br>
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| − | <p class="figure" style="text-align: center; width: 40%; float: right;">Figure4. Project flowchart view</p>
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| − | <p class="main_p col-md-12" style="padding: 0px;"></br></br>We have totally constructed 3 circuits which contain different RBS pairs. Because the catalytic efficiency of FDH is much more weaker, we use the most strong RBS------B0034 for FDH, and we change the RBS for LeuDH ------B0032、B0030、B0034. As we expect, the data of expression characterization showed the circuit with B0030 and B0034 has the highest expression efficiency.
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| − | <p class="figure" style="text-align: center; margin-top: 20px;">Figure5. Gene circuits we have constructed</p>
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| − | <h1 class="main_h1"></br>Reference:</h1>
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| − | <p class="main_p">
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| − | [1] Jin, Jian-Zhong,Chang, Dong-Liang,Zhang, Jie.Discovery and application of new bacterial strains for asymmetric synthesis of L-tert-butyl leucine in high enantioselectivity. Applied Biochemistry and Biotechnology.2011</br></br>
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| − | [2] Eun young Hong,Minho Cha,Hyungdon Yun,Byung-Gee Kim. Asymmetric synthesis of L-tert-leucine and L-3-hydroxyadamantyglycine using branched chain aminotransferase. Journal of Molecular Catalysis B:Enzymatic 66(2010)228-233</br></br>
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| − | [3] Jing Li, Jiang Pan, Jie Zhang, Jian-He Xu Stereoselective synthesis of L-tert-leucine by a newly cloned leucine dehydrogenase from Exiguobacterium sibiricum.</br>
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| − | Journal of Molecular Catalysis B:Enzymatic 105(2014)11-17</br></br>
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| − | [4] Jian-Zhong, JinDong-Liang, Chang Jie Zhang Discovery and application of new bacterial strains for asymmetric synthesis of L-tert-butyl leucine in high enantioselectivity. Appl Biochem Biotechnol (2011) 164:376-385</br></br>
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| − | [5] Weiming Liu, Jixing Luo, Xiaojian Zhuang, Wenhe Shen, Yang Zhang, SHuang Li, Yi Hu, He Huang Efficient preparation of enantiopure L-tert-leucine through immobilized penicillin G acylase catalyzed kinetic resolution in aqueous medium.</br>
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| − | Biochemical Engineering Journal 83(2014) 116-120</br></br>
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| − | [6] Harald Gro¨ ger, Oliver May,Helge Werner,Anne Menzel,and Josef Altenbuchner</br>
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| − | A “Second-Generation Process” for the Synthesis ofL-Neopentylglycine:Asymmetric Reductive Amination Using a Recombinant Whole Cell Catalys. Organic process research&development 2006,10,666-669</br></br>
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| − | [7] Menzel, Anne,Werner, Helge,Altenbuchner, Josef,Gr?ger, Harald.From enzymes to "designer bugs" in reductive amination: A new process for the synthesis of L-tert-leucine using a whole cell-catalyst. Engineering in Life Sciences. 2004</br></br>
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| Line 208: |
Line 154: |
| | <p style="font-size: 14px; color: #fff; margin-bottom: 0px;"><strong>Address: </strong>Xiamen University, No. 422, Siming South Road, Xiamen, Fujian, P.R.China 361005</p> | | <p style="font-size: 14px; color: #fff; margin-bottom: 0px;"><strong>Address: </strong>Xiamen University, No. 422, Siming South Road, Xiamen, Fujian, P.R.China 361005</p> |
| | </div> | | </div> |
| − | <img src="https://static.igem.org/mediawiki/2015/1/1f/Amoy-Footer_xmulogo.png" style="width: 10%; display: inline-block; margin-left: 5%;" /> | + | <a href="http://www.xmu.edu.cn/" target="_blank"><img src="https://static.igem.org/mediawiki/2015/1/1f/Amoy-Footer_xmulogo.png" style="width: 10%; display: inline-block; margin-left: 5%;" / ></a> |
| | <img src="https://static.igem.org/mediawiki/2015/3/31/Amoy-Footer_xmulname.png" style="width: 15%; display: inline-block; margin-left: 1%;" /> | | <img src="https://static.igem.org/mediawiki/2015/3/31/Amoy-Footer_xmulname.png" style="width: 15%; display: inline-block; margin-left: 1%;" /> |
| − | <a href=" #" target="_blank"><img src="https://static.igem.org/mediawiki/2015/5/5b/Amoy-Footer_facebook.png" style="width: 2%; display: inline-block; margin-left: 2%;" /></a> | + | <a href=" https://www.facebook.com/amoyigem" target="_blank"><img src="https://static.igem.org/mediawiki/2015/5/5b/Amoy-Footer_facebook.png" style="width: 2%; display: inline-block; margin-left: 2%;" /></a> |
| − | <a href=" #" target="_blank"><img src="https://static.igem.org/mediawiki/2015/0/02/Amoy-Footer_twitter.png" style="width: 2%; display: inline-block; margin-left: 2%;" /></a> | + | <a href=" https://www.twitter.com/Amoy_igem" target="_blank"><img src="https://static.igem.org/mediawiki/2015/0/02/Amoy-Footer_twitter.png" style="width: 2%; display: inline-block; margin-left: 2%;" /></a> |
| | </div> | | </div> |
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