Team:UANL Mty-Mexico/Project/recovery

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<p>AIDA-I is an <i>E. coli</i> membrane protein with a passenger domain of 76 kDa exposed to the extracellular space and a transmembrane beta-barrel domain of 45 kDa; the latter has been used to express functional proteins in the cell-membrane of up to 65 kDa (van Bloois <i>et al.</i> 2011). Furthermore passengers coupled to AIDA-I have been reported to reach an expression level of more than 100 000 copies per cell in the outer membrane (Jose &amp; Meyer 2007), therefore making this expression system a great option for the expression of L2 in<i> E. coli'</i>s outer membrane (Figure 3a)(Li<i> et al.</i> 2007).</p>
<p>AIDA-I is an <i>E. coli</i> membrane protein with a passenger domain of 76 kDa exposed to the extracellular space and a transmembrane beta-barrel domain of 45 kDa; the latter has been used to express functional proteins in the cell-membrane of up to 65 kDa (van Bloois <i>et al.</i> 2011). Furthermore passengers coupled to AIDA-I have been reported to reach an expression level of more than 100 000 copies per cell in the outer membrane (Jose &amp; Meyer 2007), therefore making this expression system a great option for the expression of L2 in<i> E. coli'</i>s outer membrane (Figure 3a)(Li<i> et al.</i> 2007).</p>
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<caption align="bottom">Figure 3. Genetic constructions for outer-membrane expression a) AIDA-I b) OmpA</caption>
<caption align="bottom">Figure 3. Genetic constructions for outer-membrane expression a) AIDA-I b) OmpA</caption>
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<tr><td><img src="https://static.igem.org/mediawiki/2012/2/2b/AIDA_%26_OmpA_structures.png" style="width:400px;"></td></tr>
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<caption align="bottom">Figure 4. Schematic representation of AIDA-I and OmpA carrier proteins.</caption>
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<tr><td><img src="https://static.igem.org/mediawiki/2012/c/cf/AIDA_%26_OmpA_schematic_rep.png" style="width:400px;"></td></tr>
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Revision as of 00:58, 26 September 2012

iGEM UANL 2012


Silica adsorption.


A variety of biorremediation projects have been developed in the last few years; unfortunately none of them has scalable potential due to a lack of an efficient cell recovery system. Therefore developing scalable tools is a very important part of biological systems that could substitute chemical and physical traditional methods that are usually aggressive and environmentally unfriendly (Malik 2004).


L2 ribosomal protein


Taniguchi et al. reported in 2007 that the L2 ribosomal protein from E. coli strongly adsorbs to silica surfaces, up to 200 times tighter than poliarginine tags commonly used for protein purification. In their work, Taniguchi et al. constructed a fusion protein of L2 and green fluorescent protein (GFP) which adsorbed to a silica surface even after washing for 24 hours with a buffer containing 1 M NaCl (Figure 2).


Figure 2. Proteins adsorbed to a silica slide and washed for 24 hours a) GFP b) L2-GFP fusion c) R9-GFP fusion. Taken from Taniguchi et al., 2007

They mapped the silica-binding domains to amino acids 1-60 and 203-273.

Silica-binding of L2 fusion proteins does not require chemical modifications or pretreatments as opposed to most adsorption methods. Thus developing a cellular silica-binding system seems to have a recovery and scalable potential suited for biorremediation applications. 


Expression of L2 in the outer membrane


Even though there are many available carrier proteins to express passengers in E. coli's cell membrane, these systems are mostly designed for small peptides and proteins. On the other hand, membrane proteins AIDA-I and Lpp-OmpA allow the expression of larger proteins in the outer membrane.

AIDA-I is an E. coli membrane protein with a passenger domain of 76 kDa exposed to the extracellular space and a transmembrane beta-barrel domain of 45 kDa; the latter has been used to express functional proteins in the cell-membrane of up to 65 kDa (van Bloois et al. 2011). Furthermore passengers coupled to AIDA-I have been reported to reach an expression level of more than 100 000 copies per cell in the outer membrane (Jose & Meyer 2007), therefore making this expression system a great option for the expression of L2 in E. coli's outer membrane (Figure 3a)(Li et al. 2007).


Figure 3. Genetic constructions for outer-membrane expression a) AIDA-I b) OmpA


Figure 4. Schematic representation of AIDA-I and OmpA carrier proteins.


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