Difference between revisions of "Team:CityU HK/Description"
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<h2 class="wsite-content-title" style="text-align:left;">How are we going to tackle it?</h2> | <h2 class="wsite-content-title" style="text-align:left;">How are we going to tackle it?</h2> | ||
− | <div class="paragraph" style="text-align:left;"><span style="">We aim to design and construct a probiotic <em style="">E. coli</em> strain that (1) produces high level of the beta-galactosidase enzyme (a type of lactase) constitutively, and (2) autolyses to release the beta-galactosidase enzyme upon detecting lactose in the external environment. For process (1), we will construct a <em style=""><i>lacZ</i></em> (beta-galactosidase) -<em style=""><i>lacY'</i></em> (lactose permease) biobrick that is driven by a strong constitutive promoter to enable high expression of the beta-galactosidase enzyme. For process (2), we will construct a lysis cassette consisting of the <i>S</i> (holin)-<i>R</i> (endolysin) -<i>Rz</i> (spannin) genes driven by a <em style="">lac</em>I promoter to facilitate lactose-induced cell lysis.</span><br /><br /><span style="">To optimize the efficiency of <em style="">E. coli</em> cell lysis, we will carry out the following modifications to certain genes in the lysis cassette:</span><br /><span style=""></span><span style=""> 1. Genes in the lysis cassette will be codon optimized for optimal expression in <em style="">E. coli;</em></span><br /><span style=""></span><span style=""> 2. The anti-holin component will be deleted to speed up cell lysis;</span><br /><span style=""></span><span style=""> 3. Specific mutations will be introduced into the lysis gene cassette to facilitate shorter lysis time.</span><br /><span style=""></span><br /><span style="">In this project, we will also prepare and compare the lysis efficiency of two different lysis cassettes – (1) Cassette 1 will be constructed using the S</span>λ<span style="">, R</span>λ<span style=""> and Rz</span>λ<span style=""> genes derived from </span><em style="">E. coli </em><span style="">lambda phage, and (2) Cassette 2 will be constructed using the S</span>21<span style="">, R</span>21<span style=""> and Rz</span>21<span style=""> genes derived from </span><em style="">E. coli </em><span style="">phage 21.</span></div></div> | + | <div class="paragraph" style="text-align:left;"><span style="">We aim to design and construct a probiotic <em style="">E. coli</em> strain that (1) produces high level of the beta-galactosidase enzyme (a type of lactase) constitutively, and (2) autolyses to release the beta-galactosidase enzyme upon detecting lactose in the external environment. For process (1), we will construct a <em style=""><i>lacZ</i></em> (beta-galactosidase) -<em style=""><i>lacY'</i></em> (lactose permease) biobrick that is driven by a strong constitutive promoter to enable high expression of the beta-galactosidase enzyme. For process (2), we will construct a lysis cassette consisting of the <i>S</i> (holin)-<i>R</i> (endolysin) -<i>Rz</i> (spannin) genes driven by a <em style="">lac</em>I promoter to facilitate lactose-induced cell lysis.</span><br /><br /><span style="">To optimize the efficiency of <em style="">E. coli</em> cell lysis, we will carry out the following modifications to certain genes in the lysis cassette:</span><br /><span style=""></span><span style=""> 1. Genes in the lysis cassette will be codon optimized for optimal expression in <em style="">E. coli;</em></span><br /><span style=""></span><span style=""> 2. The anti-holin component will be deleted to speed up cell lysis;</span><br /><span style=""></span><span style=""> 3. Specific mutations will be introduced into the lysis gene cassette to facilitate shorter lysis time.</span><br /><span style=""></span><br /><span style="">In this project, we will also prepare and compare the lysis efficiency of two different lysis cassettes – (1) Cassette 1 will be constructed using the <i>S</i></span>λ<span style="">, <i>R</i></span>λ<span style=""> and <i>Rz</i></span>λ<span style=""> genes derived from </span><em style="">E. coli </em><span style="">lambda phage, and (2) Cassette 2 will be constructed using the S</span>21<span style="">, R</span>21<span style=""> and Rz</span>21<span style=""> genes derived from </span><em style="">E. coli </em><span style="">phage 21.</span></div></div> |
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Revision as of 04:33, 17 September 2015