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− | <html><script>jQuery('#menulin_project, #menulin_project_results, #menulin_project_results_proteorhodopsin').addClass('current');</script></header> | + | <html><script>jQuery('#menulin_project, #menulin_project_results, #menulin__project_results_blh').addClass('current');</script></header> |
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| <a class="fancybox" rel="group" href="https://static.igem.org/mediawiki/2015/1/1f/Unitn_project_results_blh_retinal.png" title="Engineered biochemical pathway for the biosynthesis of retinal in E. coli"><img src="https://static.igem.org/mediawiki/2015/6/67/Unitn_project_results_blh_retinal_thumb.jpg" alt="" style="width:100%; max-width:965px;"/></a> | | <a class="fancybox" rel="group" href="https://static.igem.org/mediawiki/2015/1/1f/Unitn_project_results_blh_retinal.png" title="Engineered biochemical pathway for the biosynthesis of retinal in E. coli"><img src="https://static.igem.org/mediawiki/2015/6/67/Unitn_project_results_blh_retinal_thumb.jpg" alt="" style="width:100%; max-width:965px;"/></a> |
− | <p class="image_caption"><span> Engineered biochemical pathway for the biosynthesis of retinal in <i> E. coli </i></span> The genes β-carotene biosynthesis (ctrEIBY) and cleavage (blh) are engineered in <i> E. coli </i>. pharnesyl di phosphate, the starting molecule of the pathway is naturally built in <i> E. coli </i></p> | + | <p class="image_caption"><span> Engineered biochemical pathway for the biosynthesis of retinal in <i> E. coli </i></span> The genes β-carotene biosynthesis (ctrEIBY) and cleavage (blh) are engineered in <i> E. coli </i>. Farnesyl diphosphate, the starting molecule of the pathway is naturally built in <i> E. coli </i></p> |
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− | <p>Proteorhodopsin needs all<i>trans</i>-retinal to be active. In many bacteria that naturally produce proteorhodopsin (i.e. SAR86), retinal is synthetized starting from β-carotene. These bacteria have a cluster of genes that includes in addition to proteorhodopsin, the operon for β-carotene production ctrEIBY and blh that encodes for β-carotene 15,15’-Dioxygenase<sup><a class="sourced" onclick="javascript:scrollAndHighlight('refs_1')" href="#refs_1">[1]</a></sup>.</p> | + | <p>Proteorhodopsin needs all-<i>trans</i> retinal to be active. In many bacteria that naturally produce proteorhodopsin (<i>i.e.</i> SAR86), retinal is synthetized starting from β-carotene. These bacteria have a cluster of genes that includes in addition to proteorhodopsin, the operon for β-carotene production ctrEIBY and blh that encodes for β-carotene 15,15’-Dioxygenase<sup><a class="sourced" onclick="javascript:scrollAndHighlight('refs_1')" href="#refs_1">[1]</a></sup>.</p> |
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| <p>We built two different devices for the production of retinal and one for the production of β-carotene. We used parts newly built by us and other extracted by the Registry (kit 2012).</p> | | <p>We built two different devices for the production of retinal and one for the production of β-carotene. We used parts newly built by us and other extracted by the Registry (kit 2012).</p> |
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| <a class="fancybox" rel="group" href="https://static.igem.org/mediawiki/2015/1/10/Unitn_pics_project_blhdevice_corrected.png" title="Devices for the production of retinal"><img src="https://static.igem.org/mediawiki/2015/1/10/Unitn_pics_project_blhdevice_corrected.png" alt="" style="width:100%; max-width:965px;"/></a> | | <a class="fancybox" rel="group" href="https://static.igem.org/mediawiki/2015/1/10/Unitn_pics_project_blhdevice_corrected.png" title="Devices for the production of retinal"><img src="https://static.igem.org/mediawiki/2015/1/10/Unitn_pics_project_blhdevice_corrected.png" alt="" style="width:100%; max-width:965px;"/></a> |
− | <p class="image_caption"><span>Devices for the production of retinal</span> To provide blh and β-carotene synthesis to E. coli, we designed the new part <a class="i_linker registry" href="http://parts.igem.org/Part:BBa_K1604020" target="_blank">BBa_K1604020</a> starting from <a class="i_linker registry" href="http://parts.igem.org/Part:BBa_274210" target="_blank">BBa_274210</a>. We finally merged the two together <a class="i_linker registry" href="http://parts.igem.org/Part:BBa_K1604022" target="_blank">BBa_K1604022</a>.</p> | + | <p class="image_caption"><span>Devices for the production of retinal</span> To provide blh and β-carotene synthesis to <i>E. coli</i>, we designed the new part <a class="i_linker registry" href="http://parts.igem.org/Part:BBa_K1604020" target="_blank">BBa_K1604020</a> starting from <a class="i_linker registry" href="http://parts.igem.org/Part:BBa_K274210" target="_blank">BBa_K274210</a>. We finally merged the two together to create part <a class="i_linker registry" href="http://parts.igem.org/Part:BBa_K1604022" target="_blank">BBa_K1604022</a>.</p> |
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| <p>Cells transformed with this device were grown and induced for 24 hours with 5 mM arabinose. After the cells were centrifuged, we compared the two pellets to discover that also the uninduced sample showed a very bright orange pellet. The araC-pBAD promoter is very tightly regulated and has a very little basal expression. By looking at the sequence of the operon, we discovered a possible internal promoter in the ctrE gene, the first gene of the pathway.</p><br /> | | <p>Cells transformed with this device were grown and induced for 24 hours with 5 mM arabinose. After the cells were centrifuged, we compared the two pellets to discover that also the uninduced sample showed a very bright orange pellet. The araC-pBAD promoter is very tightly regulated and has a very little basal expression. By looking at the sequence of the operon, we discovered a possible internal promoter in the ctrE gene, the first gene of the pathway.</p><br /> |
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− | <p class="image_caption lateral-left"><span> Bacterial pellet confirmes β-carotene production in transformed cells</span> A: Pellet collected from <a class="i_linker registry" href="http://parts.igem.org/Part:BBa_K731201" target="_blank">BBa_K731201</a> transformed and arabinose induced cells (control). B-C: pellet collected from <a class="i_linker registry" href="http://parts.igem.org/Part:BBa_K1604020" target="_blank">BBa_K1604020</a> (β-carotene producers) induced (B) and non induced (C). <a class="i_linker registry" href="http://parts.igem.org/Part:BBa_K1604020" target="_blank">BBa_K1604020</a> transformed cells produced β-carotene both in presence and absence of the arabinose induction. </p> | + | <p class="image_caption lateral-left"><span> Bacterial pellet confirms β-carotene production in transformed cells</span> A: Pellet collected from <a class="i_linker registry" href="http://parts.igem.org/Part:BBa_K731201" target="_blank">BBa_K731201</a> transformed and induced (control). B-C: pellet collected from <a class="i_linker registry" href="http://parts.igem.org/Part:BBa_K1604020" target="_blank">BBa_K1604020</a> (β-carotene producers) induced (B) and not induced (C). <a class="i_linker registry" href="http://parts.igem.org/Part:BBa_K1604020" target="_blank">BBa_K1604020</a> transformed cells produced β-carotene both in presence and absence of the arabinose induction. </p> |
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− | <p>Our goal was to synthetize retinal and provide it to proteorhodopsin. Our blh producing device was synthetized by Genescript<sup><a class="sourced" onclick="javascript:scrollAndHighlight('refs_2')" href="#refs_2">[2]</a></sup> with a sequence optimized for <i>E. coli</i> expression. We subcloned it into pSB1C3 and submit it to the registry (<a class="i_linker registry" href="http://parts.igem.org/Part:BBa_K1604021" target="_blank">BBa_K1604021</a>). It was not possible to characterize blh in vivo by itself, due to the low solubility of β-carotene and the fact that the cells would not uptake the molecule. To overcome this problem we decided to produce endogenous β-carotene. Blh, under the control of a constitutive promoter J23100, was characterized both in co-transformed cells with <a class="i_linker registry" href="http://parts.igem.org/Part:BBa_K1604020" target="_blank">BBa_K1604020</a> (araC-pBAD-ctrEBI) and in a complete device containing the complete pathway (<a class="i_linker registry" href="http://parts.igem.org/Part:BBa_K1604022" target="_blank">BBa_K1604022</a>).</p> | + | <p>Our goal was to synthetize retinal and provide it to proteorhodopsin. Our blh producing device was synthetized by Genescript<sup><a class="sourced" onclick="javascript:scrollAndHighlight('refs_2')" href="#refs_2">[2]</a></sup> with a sequence optimized for <i>E. coli</i> expression. We subcloned it into pSB1C3 and submit it to the registry (<a class="i_linker registry" href="http://parts.igem.org/Part:BBa_K1604021" target="_blank">BBa_K1604021</a>). It was not possible to characterize blh <i>in vivo</i> by itself, due to the low solubility of β-carotene and the fact that the cells would not uptake the molecule. To overcome this problem we decided to produce endogenous β-carotene. Blh, under the control of a constitutive promoter J23100, was characterized both in co-transformed cells with <a class="i_linker registry" href="http://parts.igem.org/Part:BBa_K1604020" target="_blank">BBa_K1604020</a> (araC-pBAD-ctrEBI) and in a complete device containing the complete pathway (<a class="i_linker registry" href="http://parts.igem.org/Part:BBa_K1604022" target="_blank">BBa_K1604022</a>).</p> |
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| <a class="fancybox" rel="group" href="https://static.igem.org/mediawiki/2015/5/5f/Unitn_project_results_blh_3graph.png" alt=""><img src="https://static.igem.org/mediawiki/2015/4/48/Unitn_project_results_blh_3graph_thumb.png" alt="" style="width:100%; "/></a> | | <a class="fancybox" rel="group" href="https://static.igem.org/mediawiki/2015/5/5f/Unitn_project_results_blh_3graph.png" alt=""><img src="https://static.igem.org/mediawiki/2015/4/48/Unitn_project_results_blh_3graph_thumb.png" alt="" style="width:100%; "/></a> |
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− | <p class="image_caption"><span>HPLC profile </span> Here the comparison between the HPLC profile between reference (mixture of pure β-carotene and retinal), extract from <a class="i_linker registry" href="http://parts.igem.org/Part:BBa_K1604020" target="_blank">BBa_K1604020</a> inducted cells and <a class="i_linker registry" href="http://parts.igem.org/Part:BBa_1604022" target="_blank">BBa_1604022</a> inducted cells.</p> | + | <p class="image_caption"><span>HPLC profile </span> HPLC profiles between reference (mixture of pure β-carotene and retinal), extract from <a class="i_linker registry" href="http://parts.igem.org/Part:BBa_K1604020" target="_blank">BBa_K1604020</a> induced cells and <a class="i_linker registry" href="http://parts.igem.org/Part:BBa_K1604022" target="_blank">BBa_K1604022</a> not induced cells. The pigments were extracted incubating the pellet with 2.5 mL of acetone for 10 min at 50C. The samples were concentrated with N2, methanol was added to reach a final volume of 500 uL. The different samples were run on the HPLC Agilent 1100 on a Agilent Eclipse XDB C8 3.5 uM (4.6 mmx150 mm) reverse phase column. Eluent used were, buffer A MeOH/H2O 7/3 + 12 mmM acetate, buffer B MeOH + 12 mmM acetate at 08 mL/min. The gradient used was 35% of buffer B up to 100% in 40 minutes. </p> |
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| <p>We also measured the absorption spectrum of the extracted pigments. We used pure retinal and β-carotene for reference, which absorb at 373 nm and 456 nm respectively. Also this test confirmed the disappearance of β-carotene, but did not show proof of retinal synthesis. The same behavior was observed in co-transformed cells.</p> | | <p>We also measured the absorption spectrum of the extracted pigments. We used pure retinal and β-carotene for reference, which absorb at 373 nm and 456 nm respectively. Also this test confirmed the disappearance of β-carotene, but did not show proof of retinal synthesis. The same behavior was observed in co-transformed cells.</p> |
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| <a class="fancybox" rel="group" href="https://static.igem.org/mediawiki/2015/1/1e/Unitn_project_results_blh_adsorb.png" alt=""><img src="https://static.igem.org/mediawiki/2015/d/d9/Unitn_project_results_blh_adsorb_thumb.png" alt="" style="width:100%; "/></a> | | <a class="fancybox" rel="group" href="https://static.igem.org/mediawiki/2015/1/1e/Unitn_project_results_blh_adsorb.png" alt=""><img src="https://static.igem.org/mediawiki/2015/d/d9/Unitn_project_results_blh_adsorb_thumb.png" alt="" style="width:100%; "/></a> |
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− | <p class="image_caption"><span>Absorption spectra of cellular extracts</span> An UV-Visible assay was performed on β carotenoids extracted from cells with acetone. Absorption spectrum of cells trasnfected with <a class="i_linker registry" href="http://parts.igem.org/Part:BBa_K1604020" target="_blank">BBa_K1604020</a> (β-carotene producers) (yellow) resembles the spectra of a β-carotene reference sample. Conversely, cells transformed with <a class="i_linker registry" href="http://parts.igem.org/Part:BBa_K1604022" target="_blank">BBa_K1604022</a> (red) and retinal reference do not show such analogy.</p> | + | <p class="image_caption"><span>Absorption spectra of cellular extracts</span> An UV-Visible assay was performed on β-carotenoids extracted from cells with acetone. Absorption spectrum of cells transfected with <a class="i_linker registry" href="http://parts.igem.org/Part:BBa_K1604020" target="_blank">BBa_K1604020</a> (β-carotene producers) (yellow) resembles the spectra of a β-carotene reference sample. Conversely, cells transformed with <a class="i_linker registry" href="http://parts.igem.org/Part:BBa_K1604022" target="_blank">BBa_K1604022</a> (red) and retinal reference do not show such analogy.</p> |
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− | <p>We think that β-carotene is being cleaved to form retinal (as shown by the evident loss of color, and the absence of a peak in the HPLC or UV-VIS spectrum), and is immediately taken by the cell to enter different biochemical pathways. The biosynthesis of retinal involves the formation of intermediate molecules that could also be used by <span class="bacterium"> E. coli </span> in different metabolic reactions.</p> | + | <p>We think that β-carotene is being cleaved to form retinal (as shown by the evident loss of color, and the absence of a peak in the HPLC or UV-VIS spectrum), and it is immediately taken by the cell to enter different biochemical pathways. The biosynthesis of retinal involves the formation of intermediate molecules that could also be used by <span class="bacterium"> E. coli </span> in different metabolic reactions.</p> |
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| <h4 class="header4 wow animated flipInX " style="text-align:center;"><div href="#" class="rotate-box square-icon" style="text-align:center;"> | | <h4 class="header4 wow animated flipInX " style="text-align:center;"><div href="#" class="rotate-box square-icon" style="text-align:center;"> |
| <span class="rotate-box-icon "><i class="faa flaticon-write12"></i></span> | | <span class="rotate-box-icon "><i class="faa flaticon-write12"></i></span> |
− | </div><br />blh cleaves β-carotene?</h4> | + | </div><br />Who is using our retinal?</h4> |
− | <p>We observe the lack of β-carotene in blh expressing cells, but were unable to characterize the presence of retinal.</p> | + | <p>We observe the lack of β-carotene in blh expressing cells, but were unable to characterize the presence of retinal. The produced retinal probably enters other pathways.</p> |
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