Team:Valencia/other microalgae

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<div id="Titulos">
 
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<br>
 
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<br>Other Microalgae<br>
 
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<br>
 
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</div>
 
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<div id="HomeCenterCenter">
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<HTML>
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<p align="justify">
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Our aims go beyond building the most efficient photosynthetic biolamp, into trying to develop more robust and simple designs based on bioluminescent vascular plants. These kind of biolamps would be less energy-efficient, due to the lower surface-volume quotient and amount of structural carbon, but would be much easier to transport, manage, upkeep and commercialize. Vascular plants are robust organisms with a wider tolerance to changes in environmental conditions and independent of a broth vessel and complex tube systems (as they have their own biological structures for this function - xylems and phloems).
+
-
<br>
+
<BODY LANG="es-ES" DIR="LTR">
 +
<DIV ID="Titulos" DIR="LTR">
 +
<P ALIGN=CENTER>Other Microalgae
 +
</P>
 +
</DIV>
 +
<DIV ID="HomeCenterCenter" DIR="LTR">
 +
<P ALIGN=JUSTIFY>Our aims go beyond building the most efficient
 +
photosynthetic biolamp, into trying to develop more robust and
 +
simple designs based on bioluminescent vascular plants. These kind
 +
of biolamps would be less energy-efficient, due to the lower
 +
surface-volume quotient and amount of structural carbon, but would
 +
be much easier to transport, manage, upkeep and commercialize.
 +
Vascular plants are robust organisms with a wider tolerance to
 +
changes in environmental conditions and independent of a broth
 +
vessel and complex tube systems (as they have their own biological
 +
structures for this function - xylems and phloems).
 +
</P>
 +
<P ALIGN=JUSTIFY>In first place, we would test of luminescence of S.
 +
elongatus WT with psbA-luxAB as grown broth biolamp, to assess the
 +
magnitude of the problem of pigment shading of luminescence.</P>
 +
<P ALIGN=JUSTIFY>The next step would be the transformation of
 +
Chlamydomonas reinhardtii's chloroplast with the lux cassette under
 +
ligth regulation .</P><br>
-
<p>In first place, we would test of luminescence of S. elongatus WT with psbA-luxAB as grown broth biolamp, to assess the magnitude of the problem of pigment shading of luminescence.</p>
+
<h2><strong>Chlamydomonas reinhardtii:</strong></h2><br>
 +
 +
<P ALIGN=JUSTIFY>Chlamydomonas reinhardtii
 +
is haploid unicellular green algae. It is about 10 micrometers long
 +
and 3 wide and has two flagella. Much of its volume is occupied by
 +
its only chloroplast which has 80 copies of its genome.
 +
Chlamydomonas can grow by autotrophic or heterotrophic ways using
 +
organic carbon and chemical energy sources.</P>
 +
<P ALIGN=JUSTIFY>This alga is widely spread
 +
around the world and is one of mostly used laboratory organism. It
 +
is used as model in studies of cellular movement, environmental
 +
stimuli responses and photosynthetic and cellular recognition
 +
studies.</P>
 +
<P ALIGN=CENTER STYLE="margin-bottom: 0 cm"><IMG SRC="https://static.igem.org/mediawiki/2012/3/3f/Valencia2012_Distribuci&oacute;n_Chlamydomonas.png" NAME="gr&aacute;ficos1" ALIGN=BOTTOM  BORDER=0></P>
 +
 +
<P ALIGN=center><STRONG>Figure 1</STRONG>: <i>Chlamydomonas reinhardtii</i> world distribution. Source: <a href="http://www.algaebase.org/"> http://www.algaebase.org/</a>
 +
</P>
 +
 +
<P ALIGN=JUSTIFY>In the industry this algae
 +
has been used on different areas such as: biofuels production (lipid
 +
for biodiesel), biorremediation (heavy metals subtraction from
 +
water), pigment production (carotenoids) and bioreactor for
 +
production of recombinant proteins for medical use. This is due to
 +
some of its features as easy and cheap culture, great capacity of
 +
store biomass and because commonly it is considered non harmful for
 +
human beings.
 +
</P>
 +
</UL>
 +
<UL>
 +
<P ALIGN=center STYLE="margin-bottom: 0cm"><BR><STRONG>Table 1</STRONG>: Features comparation between different traditional organism used as bioreactors. Source: <a hsref="http://www.revistaciencia.amc.edu.mx/">http://www.revistaciencia.amc.edu.mx/</a>
 +
</P>
 +
<TABLE WIDTH=899 BORDER=0 CELLPADDING=4 CELLSPACING=0 STYLE="page-break-before: always">
 +
<COL WIDTH=84>
 +
<COL WIDTH=109>
 +
<COL WIDTH=109>
 +
<COL WIDTH=109>
 +
<COL WIDTH=109>
 +
<COL WIDTH=109>
 +
<COL WIDTH=110>
 +
<COL WIDTH=96>
-
 
+
<TR VALIGN=TOP>
-
<p>The next step would be the transformation of Chlamydomonas reinhardtii’s chloroplast with the lux cassette under regulation of psbA promoter (ligation including psbA-RBS-luxABCDE-Ter).</p>
+
<TD WIDTH=84 BGCOLOR="#3366FF">
-
 
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<P ALIGN=JUSTIFY><STRONG>Organisms</STRONG>
-
 
+
</P>
-
<ul style="list-style-type: square">
+
</TD>
-
 
+
<TD WIDTH=109 BGCOLOR="#3366FF">
-
<br>  
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<P ALIGN=JUSTIFY><STRONG>Production cost</STRONG></P>
-
 
+
</TD>
-
<li><strong>Chlamydomonas reinhardtii </strong>
+
<TD WIDTH=109 BGCOLOR="#3366FF">
-
 
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<P ALIGN=JUSTIFY><STRONG>Production time</STRONG></P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#3366FF">
 +
<P ALIGN=JUSTIFY><STRONG>Staggering capacity</STRONG></P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#3366FF">
 +
<P ALIGN=Left><STRONG>Quality of product</STRONG></P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#3366FF">
 +
<P ALIGN=JUSTIFY><STRONG>Glucosilation capacity</STRONG>
 +
</P>
 +
</TD>
 +
<TD WIDTH=110 BGCOLOR="#3366FF">
 +
<P ALIGN=JUSTIFY><STRONG>Contamination risk</STRONG></P>
 +
</TD>
 +
<TD WIDTH=96 BGCOLOR="#3366FF">
 +
<P ALIGN=JUSTIFY><STRONG>Storage cost</STRONG>
 +
</P>
 +
</TD>
 +
</TR>
 +
<TR VALIGN=TOP>
 +
<TD WIDTH=84 BGCOLOR="#CCFFCC">
 +
<P ALIGN=JUSTIFY><STRONG>Bacteria</STRONG></P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#CCFFCC">
 +
<P ALIGN=JUSTIFY>Low</P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#CCFFCC">
 +
<P ALIGN=JUSTIFY>Short</P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#CCFFCC">
 +
<P ALIGN=JUSTIFY>High</P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#CCFFCC">
 +
<P ALIGN=JUSTIFY>Low</P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#CCFFCC">
 +
<P ALIGN=JUSTIFY>No</P>
 +
</TD>
 +
<TD WIDTH=110 BGCOLOR="#CCFFCC">
 +
<P ALIGN=JUSTIFY>Endotoxins
 +
</P>
 +
</TD>
 +
<TD WIDTH=96 BGCOLOR="#CCFFCC">
 +
<P ALIGN=JUSTIFY>Moderated
 +
</P>
 +
</TD>
 +
</TR>
 +
<TR VALIGN=TOP>
 +
<TD WIDTH=84 BGCOLOR="#99FF99">
 +
<P ALIGN=JUSTIFY><STRONG>Yeast</STRONG></P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#99FF99">
 +
<P ALIGN=JUSTIFY>Medium</P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#99FF99">
 +
<P ALIGN=JUSTIFY>Medium
 +
</P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#99FF99">
 +
<P ALIGN=JUSTIFY>High
 +
</P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#99FF99">
 +
<P ALIGN=JUSTIFY>Medium</P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#99FF99">
 +
<P ALIGN=JUSTIFY>Yes</P>
 +
</TD>
 +
<TD WIDTH=110 BGCOLOR="#99FF99">
 +
<P ALIGN=JUSTIFY>Low</P>
 +
</TD>
 +
<TD WIDTH=96 BGCOLOR="#99FF99">
 +
<P ALIGN=JUSTIFY>Moderated</P>
 +
</TD>
 +
</TR>
 +
<TR VALIGN=TOP>
 +
<TD WIDTH=84 BGCOLOR="#CCFFCC">
 +
<P ALIGN=JUSTIFY><STRONG>Insect cells</STRONG></P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#CCFFCC">
 +
<P ALIGN=JUSTIFY>High
 +
</P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#CCFFCC">
 +
<P ALIGN=JUSTIFY>Medium</P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#CCFFCC">
 +
<P ALIGN=JUSTIFY>Medium</P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#CCFFCC">
 +
<P ALIGN=JUSTIFY>High</P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#CCFFCC">
 +
<P ALIGN=JUSTIFY>Yes</P>
 +
</TD>
 +
<TD WIDTH=110 BGCOLOR="#CCFFCC">
 +
<P ALIGN=JUSTIFY>High</P>
 +
</TD>
 +
<TD WIDTH=96 BGCOLOR="#CCFFCC">
 +
<P ALIGN=JUSTIFY>Expensive</P>
 +
</TD>
 +
</TR>
 +
<TR VALIGN=TOP>
 +
<TD WIDTH=84 BGCOLOR="#99FF99">
 +
<P ALIGN=JUSTIFY><STRONG>Mamals cells</STRONG>
 +
</P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#99FF99">
 +
<P ALIGN=JUSTIFY>High</P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#99FF99">
 +
<P ALIGN=JUSTIFY>Long</P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#99FF99">
 +
<P ALIGN=JUSTIFY>Very low</P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#99FF99">
 +
<P ALIGN=JUSTIFY>Very High</P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#99FF99">
 +
<P ALIGN=JUSTIFY>Yes</P>
 +
</TD>
 +
<TD WIDTH=110 BGCOLOR="#99FF99">
 +
<P ALIGN=JUSTIFY>Viruses prions</P>
 +
</TD>
 +
<TD WIDTH=96 BGCOLOR="#99FF99">
 +
<P ALIGN=JUSTIFY>Expensive</P>
 +
</TD>
 +
</TR>
 +
<TR VALIGN=TOP>
 +
<TD WIDTH=84 BGCOLOR="#CCFFCC">
 +
<P ALIGN=JUSTIFY><STRONG>Animals</STRONG></P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#CCFFCC">
 +
<P ALIGN=JUSTIFY>High</P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#CCFFCC">
 +
<P ALIGN=JUSTIFY>Very long</P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#CCFFCC">
 +
<P ALIGN=JUSTIFY>Low</P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#CCFFCC">
 +
<P ALIGN=JUSTIFY>Very high</P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#CCFFCC">
 +
<P ALIGN=JUSTIFY>Yes</P>
 +
</TD>
 +
<TD WIDTH=110 BGCOLOR="#CCFFCC">
 +
<P ALIGN=JUSTIFY>Viruses prions</P>
 +
</TD>
 +
<TD WIDTH=96 BGCOLOR="#CCFFCC">
 +
<P ALIGN=JUSTIFY>Expensive</P>
 +
</TD>
 +
</TR>
 +
<TR VALIGN=TOP>
 +
<TD WIDTH=84 BGCOLOR="#99FF99">
 +
<P ALIGN=JUSTIFY><STRONG>Plant cells</STRONG></P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#99FF99">
 +
<P ALIGN=JUSTIFY>Low</P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#99FF99">
 +
<P ALIGN=JUSTIFY>Short</P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#99FF99">
 +
<P ALIGN=JUSTIFY>High</P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#99FF99">
 +
<P ALIGN=JUSTIFY>High</P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#99FF99">
 +
<P ALIGN=JUSTIFY>Yes</P>
 +
</TD>
 +
<TD WIDTH=110 BGCOLOR="#99FF99">
 +
<P ALIGN=JUSTIFY>Low</P>
 +
</TD>
 +
<TD WIDTH=96 BGCOLOR="#99FF99">
 +
<P ALIGN=JUSTIFY>Low cost</P>
 +
</TD>
 +
</TR>
 +
<TR VALIGN=TOP>
 +
<TD WIDTH=84 BGCOLOR="#CCFFCC">
 +
<P ALIGN=JUSTIFY><STRONG>Plants</STRONG></P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#CCFFCC">
 +
<P ALIGN=JUSTIFY>Very low</P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#CCFFCC">
 +
<P ALIGN=JUSTIFY>Long</P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#CCFFCC">
 +
<P ALIGN=JUSTIFY>Very high</P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#CCFFCC">
 +
<P ALIGN=JUSTIFY STYLE="background: transparent">High</P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#CCFFCC">
 +
<P ALIGN=JUSTIFY>Nucleus: yes</P>
 +
<P ALIGN=JUSTIFY>Chloroplast: no</P>
 +
</TD>
 +
<TD WIDTH=110 BGCOLOR="#CCFFCC">
 +
<P ALIGN=JUSTIFY>Low</P>
 +
</TD>
 +
<TD WIDTH=96 BGCOLOR="#CCFFCC">
 +
<P ALIGN=JUSTIFY>Low cost</P>
 +
</TD>
 +
</TR>
 +
<TR VALIGN=TOP>
 +
<TD WIDTH=84 BGCOLOR="#99FF99">
 +
<P ALIGN=JUSTIFY><STRONG>Microalgae</STRONG></P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#99FF99">
 +
<P ALIGN=JUSTIFY>Very low</P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#99FF99">
 +
<P ALIGN=JUSTIFY>Short</P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#99FF99">
 +
<P ALIGN=JUSTIFY>Very long</P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#99FF99">
 +
<P ALIGN=JUSTIFY>High</P>
 +
</TD>
 +
<TD WIDTH=109 BGCOLOR="#99FF99">
 +
<P ALIGN=JUSTIFY>Nuclus: yes</P>
 +
<P ALIGN=JUSTIFY>Chlorplast: no</P>
 +
</TD>
 +
<TD WIDTH=110 BGCOLOR="#99FF99">
 +
<P ALIGN=JUSTIFY>Low</P>
 +
</TD>
 +
<TD WIDTH=96 BGCOLOR="#99FF99">
 +
<P ALIGN=JUSTIFY>Low cost</P>
 +
</TD>
 +
</TR>
 +
</TABLE>
<br>
<br>
 +
<P ALIGN=JUSTIFY STYLE="background: transparent"></P>
-
<p>Chlamydomonas reinhardtii is haploid unicellular green algae. It is about 10 micrometers long and 3 wide and has two flagella. Much of its volume is occupied by its only chloroplast which has 80 copies of its genome. Chlamydomonas can grow by autotrophic or heterotrophic ways using organic carbon and chemical energy sources.</p>
+
<h2><strong>Experimental design:</strong></h2><br>
 +
 +
    <h4><STRONG>Genetic circuit:</STRONG></h4>
 +
</P>
 +
<P ALIGN=JUSTIFY>The designed genetic circuit is very similar to
 +
the one that is employed at co-culture project. In this one the
 +
psbA promoter regulates &#x3BB; production; and this production of &#x3BB;
 +
regulates the expression of lux operon.</P>
 +
<P ALIGN=JUSTIFY>During the day the presence of CI repressor
 +
inhibits the expression of lux operon because alga does not emit
 +
light.</P>
 +
<P ALIGN=JUSTIFY STYLE="margin-bottom: 0cm"></P>
 +
<P ALIGN=CENTER STYLE="margin-bottom: 0cm"><IMG SRC="https://static.igem.org/mediawiki/2012/6/6c/Valencia2012_Chlamydomonas_de_d&iacute;a.png" NAME="gr&aacute;ficos2" ALIGN=BOTTOM WIDTH=625 HEIGHT=315 BORDER=0></P>
-
 
+
<P ALIGN="center"><STRONG>Figure 2</STRONG>: Genetic circuit working in presence of light/during the day</p> 
-
<p>This alga is widely spread around the world and is one of mostly used laboratory organism. It is used as model in studies of cellular movement, environmental stimuli responses and photosynthetic and cellular recognition studies.</p>
+
-
 
+
-
 
+
-
<center><img src=" https://static.igem.org/mediawiki/2012/3/3f/Valencia2012_Distribuci%C3%B3n_Chlamydomonas.png "></center><br>
+
-
Source: http://www.algaebase.org/
+
<br>
<br>
-
 
+
<P ALIGN=JUSTIFY></P>
-
<p>In the industry this algae has been used on different areas such as: biofuels production (lipid for biodiesel), biorremediation (heavy metals subtraction from water), pigment production (carotenoids) and bioreactor for production of recombinant proteins for medical use. This is due to some of its features as easy and cheap culture, great capacity of store biomass and because commonly it is considered non harmful for human beings. </p>
+
<P ALIGN=JUSTIFY>During night &#x3BB; product is not present and that
-
 
+
allows the expression of lux operon and the following light
-
</li>
+
emission.</P>
<br>
<br>
 +
<P ALIGN=JUSTIFY STYLE="margin-bottom: 0cm"></P>
 +
<P ALIGN=CENTER STYLE="margin-bottom: 0cm"><IMG SRC="https://static.igem.org/mediawiki/2012/a/af/Valencia_2012_Chlamydomonas_de_noche.png" NAME="gr&aacute;ficos3" ALIGN=BOTTOM WIDTH=625 HEIGHT=315 BORDER=0></P>
 +
<P ALIGN="center"><STRONG> Figure 3</STRONG>: Genetic circuit working in abscence of light/ during the night</p>
 +
<P ALIGN=JUSTIFY STYLE="margin-bottom: 0cm"></P><br>
 +
-
<strong>Table 1</strong>: source: http://www.revistaciencia.amc.edu.mx/
+
<h4><STRONG>Transform Chlamydomonas reinhardtii:</strong></h4>
 +
</P>
 +
<P ALIGN=JUSTIFY>The psbAI gen is a chloroplast's gen. The reasons
 +
why we chose to transform chloroplast genome of Chlamydomonas
 +
reinhardtii are exposed in the next table:
 +
</P>
-
<CENTER>
+
<p align=center><strong> Table 2:</strong> Comparison of nucleus manipulation against chloroplast manipulation</p>  
-
<TABLE WIDTH=95% BORDER=0 CELLPADDING=4 CELLSPACING=0 STYLE="page-break-before: always">
+
<P ALIGN=CENTER STYLE="margin-bottom: 0cm"><IMG SRC="https://static.igem.org/mediawiki/2012/f/f7/Valencia2012_Tabla_Milstones.png" NAME="gr&aacute;ficos4" ALIGN=BOTTOM WIDTH=750 HEIGHT=750 BORDER=0></P>
-
<COL WIDTH=32*>
+
<P ALIGN=JUSTIFY STYLE="margin-bottom: 0cm"></P><br>
-
<COL WIDTH=32*>
+
-
<COL WIDTH=32*>
+
-
<COL WIDTH=32*>
+
-
<COL WIDTH=32*>
+
-
<COL WIDTH=32*>
+
-
<COL WIDTH=32*>
+
-
<COL WIDTH=32*>
+
-
<TR>
+
-
<TH COLSPAN=8 WIDTH=100%>
+
-
<P ALIGN=CENTER>Features</P>
+
-
</TH>
+
-
</TR>
+
-
<TR VALIGN=TOP>
+
-
<TD WIDTH=13% BGCOLOR="#0047ff">
+
-
<P ALIGN=CENTER><strong>Organisms</strong>
+
-
</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#0047ff">
+
-
<P ALIGN=CENTER><strong>Production cost</strong></P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#0047ff">
+
-
<P ALIGN=CENTER><strong>Production time</strong></P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#0047ff">
+
-
<P ALIGN=CENTER><strong>Staggering capacity</strong></P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#0047ff">
+
-
<P ALIGN=CENTER><strong>Quality of product</strong></P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#0047ff">
+
-
<P ALIGN=CENTER><strong>Glucosilation capacity</strong>
+
-
</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#0047ff">
+
-
<P ALIGN=CENTER><strong>Contamination risk</strong></P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#0047ff">
+
-
<P ALIGN=CENTER><strong>Storage cost</strong>
+
-
</P>
+
-
</TD>
+
-
</TR>
+
-
<TR VALIGN=TOP>
+
-
<TD WIDTH=13% BGCOLOR="#00ff00">
+
-
<P ALIGN=CENTER><strong>Bacteria</strong></P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#00ff00">
+
-
<P ALIGN=CENTER>Low</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#00ff00">
+
-
<P ALIGN=CENTER>Short</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#00ff00">
+
-
<P ALIGN=CENTER>High</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#00ff00">
+
-
<P ALIGN=CENTER>Low</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#00ff00">
+
-
<P ALIGN=CENTER>No</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#00ff00">
+
-
<P ALIGN=CENTER>Endotoxins
+
-
</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#00ff00">
+
-
<P ALIGN=CENTER>Moderated
+
-
</P>
+
-
</TD>
+
-
</TR>
+
-
<TR VALIGN=TOP>
+
-
<TD WIDTH=13% BGCOLOR="#83caff">
+
-
<P ALIGN=CENTER><strong>Yeast</strong></P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#83caff">
+
-
<P ALIGN=CENTER>Medium</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#83caff">
+
-
<P ALIGN=CENTER>Medium
+
-
</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#83caff">
+
-
<P ALIGN=CENTER>High
+
-
</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#83caff">
+
-
<P ALIGN=CENTER>Medium</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#83caff">
+
-
<P ALIGN=CENTER>Yes</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#83caff">
+
-
<P ALIGN=CENTER>Low</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#83caff">
+
-
<P ALIGN=CENTER>Moderated</P>
+
-
</TD>
+
-
</TR>
+
-
<TR VALIGN=TOP>
+
-
<TD WIDTH=13% BGCOLOR="#00ff00">
+
-
<P ALIGN=CENTER><strong>Insect cells</strong></P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#00ff00">
+
-
<P ALIGN=CENTER>High
+
-
</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#00ff00">
+
-
<P ALIGN=CENTER>Medium</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#00ff00">
+
-
<P ALIGN=CENTER>Medium</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#00ff00">
+
-
<P ALIGN=CENTER>High</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#00ff00">
+
-
<P ALIGN=CENTER>Yes</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#00ff00">
+
-
<P ALIGN=CENTER>High</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#00ff00">
+
-
<P ALIGN=CENTER>Expensive</P>
+
-
</TD>
+
-
</TR>
+
-
<TR VALIGN=TOP>
+
-
<TD WIDTH=13% BGCOLOR="#83caff">
+
-
<P ALIGN=CENTER><strong>Mamals cells</strong>
+
-
</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#83caff">
+
-
<P ALIGN=CENTER>High</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#83caff">
+
-
<P ALIGN=CENTER>Long</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#83caff">
+
-
<P ALIGN=CENTER>Very low</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#83caff">
+
-
<P ALIGN=CENTER>Very High</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#83caff">
+
-
<P ALIGN=CENTER>Yes</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#83caff">
+
-
<P ALIGN=CENTER>Viruses prions</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#83caff">
+
-
<P ALIGN=CENTER>Expensive</P>
+
-
</TD>
+
-
</TR>
+
-
<TR VALIGN=TOP>
+
-
<TD WIDTH=13% BGCOLOR="#00ff00">
+
-
<P ALIGN=CENTER><strong>Animals</strong></P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#00ff00">
+
-
<P ALIGN=CENTER>High</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#00ff00">
+
-
<P ALIGN=CENTER>Very long</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#00ff00">
+
-
<P ALIGN=CENTER>Low</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#00ff00">
+
-
<P ALIGN=CENTER>Very high</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#00ff00">
+
-
<P ALIGN=CENTER>Yes</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#00ff00">
+
-
<P ALIGN=CENTER>Viruses prions</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#00ff00">
+
-
<P ALIGN=CENTER>Expensive</P>
+
-
</TD>
+
-
</TR>
+
-
<TR VALIGN=TOP>
+
-
<TD WIDTH=13% BGCOLOR="#83caff">
+
-
<P ALIGN=CENTER><strong>Plant cells<strong></P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#83caff">
+
-
<P ALIGN=CENTER>Low</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#83caff">
+
-
<P ALIGN=CENTER>Short</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#83caff">
+
-
<P ALIGN=CENTER>High</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#83caff">
+
-
<P ALIGN=CENTER>High</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#83caff">
+
-
<P ALIGN=CENTER>Yes</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#83caff">
+
-
<P ALIGN=CENTER>Low</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#83caff">
+
-
<P ALIGN=CENTER>Low cost</P>
+
-
</TD>
+
-
</TR>
+
-
<TR VALIGN=TOP>
+
-
<TD WIDTH=13% BGCOLOR="#00ff00">
+
-
<P ALIGN=CENTER><strong>Plants</strong></P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#00ff00">
+
-
<P ALIGN=CENTER>Very low</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#00ff00">
+
-
<P ALIGN=CENTER>Long</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#00ff00">
+
-
<P ALIGN=CENTER>Very high</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#00ff00">
+
-
<P ALIGN=CENTER STYLE="background: transparent">High</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#00ff00">
+
-
<P ALIGN=CENTER>Nuclei: yes</P>
+
-
<P ALIGN=CENTER>Chloroplast: no</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#00ff00">
+
-
<P ALIGN=CENTER>Low</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#00ff00">
+
-
<P ALIGN=CENTER>Low cost</P>
+
-
</TD>
+
-
</TR>
+
-
<TR VALIGN=TOP>
+
-
<TD WIDTH=13% BGCOLOR="#83caff">
+
-
<P ALIGN=CENTER><strong>Microalgae</strong></P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#83caff">
+
-
<P ALIGN=CENTER>Very low</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#83caff">
+
-
<P ALIGN=CENTER>Short</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#83caff">
+
-
<P ALIGN=CENTER>Very long</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#83caff">
+
-
<P ALIGN=CENTER>High</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#83caff">
+
-
<P ALIGN=CENTER>Nuclei: yes</P>
+
-
<P ALIGN=CENTER>Chlorplast: no</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#83caff">
+
-
<P ALIGN=CENTER>Low</P>
+
-
</TD>
+
-
<TD WIDTH=13% BGCOLOR="#83caff">
+
-
<P ALIGN=CENTER>Low cost</P>
+
-
</TD>
+
-
</TR>
+
-
</TABLE>
+
-
</CENTER>
+
-
<P STYLE="background: transparent"><BR><BR>
+
-
</P>
+
-
 
+
-
<li><strong>Experimental design</strong> <br><br>
+
-
 
+
-
<ul style="list-style-type: circle">
+
-
<li><strong>Genetic circuit:</strong> <br>
+
-
 
+
-
 
+
-
<p>The designed genetic circuit is very similar to the one that is employed at co-culture project. In this one the psbA promoter regulates λ production; and this production of λ regulates the expression of lux operon.</p>
+
 +
<h4><STRONG>Strain selected:</strong></h4>
 +
 +
<P ALIGN=JUSTIFY>With the intention of avoiding the use of
 +
antibiotics at selection of transformed cells we decided to employ
 +
the photosynthesis-deficient mutant strain ac-uc-221 (CC373) of C.
 +
reinhardtiii.
 +
</P>
 +
<P ALIGN=JUSTIFY>The ac-uc-2-21 is a deletion mutation in the
 +
chloroplast atpB gen, which results in a clean, non-reverting
 +
acetate-requiring phenotype. This strain was originally obtained
 +
from the culture collection of the Chlamydomonas Genetics Center
 +
at Duke University, NC, USA
 +
</P>
 +
<P ALIGN=JUSTIFY>The use mutant strain CC373 enables the selection
 +
of transformed cells employing vectors which carry the DNA of
 +
interest between plastome homologous regions and atpB gen. The
 +
atpB gen allows the restoration of a complete atpB gen copy. Then
 +
transformed cells will be able to grow in a culture medium without
 +
acetate and high light conditions while not transformed will not
 +
do.</P>
<br>
<br>
-
 
+
    <h4><STRONG>Vector selected:</STRONG> </h4>
-
 
+
</P>
-
<p>During the day the presence of CI repressor inhibits the expression of lux operon because alga does not emit light.</p>
+
<P ALIGN=JUSTIFY>To introduce our construction and complement the
 +
deletion mutation ac-uc-2-21 we chose to use plasmid pCrc +157 (Inger
 +
Lill Anthonisen, 2002). This plasmid has between its has
 +
between inverted repeats homologous to plastome, regions XhoI and
 +
XbaI restriction sites flanking 5' rbcL (el promotor), uidA gen
 +
and 3' UTR from psaB (to stabilize transcripts).Apart it has atpB
 +
gen.</P>
<br>
<br>
 +
<P ALIGN=JUSTIFY>This plasmid has between its two regions with
 +
inverted repeat sequences homologous to plastome, targets for
 +
restriction enzymes Xhol and Xbal. Between these targets there is
 +
the uidA gen flanked by the rbcL 5' UTR and the psaB 3' UTR (this
 +
last stabilizes the transcripts). Out of these sequences it has
 +
the atpB gen.</P>
-
<center><img src=" https://static.igem.org/mediawiki/2012/6/6c/Valencia2012_Chlamydomonas_de_d%C3%ADa.png" width="704" height="394"></center><br>
+
<P ALIGN=CENTER STYLE="margin-bottom: 0cm"><IMG SRC="https://static.igem.org/mediawiki/2012/3/3b/Valencia2012_p%2B157_Marisa_Salvador.png" ALIGN=BOTTOM  BORDER=0></P>
-
 
+
<P ALIGN=JUSTIFY STYLE="margin-bottom: 0cm"></P>
-
<p>During night λ product is not present and that allows the expression of lux operon and the following light emission.</p>
+
 +
<p align="center"> <strong> Figure 4:</strong> expression cassette of pCrc+157. Source: Maria L. Salvador.</p>
<br>
<br>
-
<center><img src=" https://static.igem.org/mediawiki/2012/a/af/Valencia_2012_Chlamydomonas_de_noche.png" width="704" height="394" /></center><br>
+
<h4><STRONG>Method selected:</STRONG></h4>  
-
</li>
+
-
 
+
<P ALIGN=JUSTIFY>Chlamydomonas&acute; chloroplast can be
-
<li><strong>Transform Chlamydomonas reinhardtii</strong>
+
transformed by different ways. The most prefered are
-
 
+
Polyethilenglicol and gen gun methods. We chose gun gen because we
-
<p>The psbAI gen is a chloroplast’s gen. The reasons why we chose to transform chloroplast genome of Chlamydomonas reinhardtii are exposed in the next table: </p>
+
found more literature explaining it. This consists on adhering
 +
your construction to gold or tungsten particles. After that you
 +
will shot them to your algae culture (in agar plates) at empty
 +
conditions.</P>
 +
<P ALIGN=JUSTIFY>Bullets will: - Fall and not hit algae. - Kill
 +
algae. - Break through algae. - Hit the chloroplast and transform
 +
it. As with all chloroplast transformation methods the
 +
introduction of desired DNA will be done by homologous
 +
recombination.
 +
</P>
<br>
<br>
 +
<h4><STRONG>Future</STRONG></h4>
-
Table 1: source: Henrt Daniell, Muhammad S. Khan and Lori Allison, Trends in Plant science. (milstones in chloroplast genetic enginering.
+
<P ALIGN=JUSTIFY>This opens the way for further research on
 +
eukaryotic chloroplast transformation that can lead to the
 +
development of glowing trees on boulevards (see Team Cambridge
 +
2011).</P>
 +
<P ALIGN=JUSTIFY>The last experimental step would be the
 +
transformation of Tobacco plant cell with psbA-lux cassette and
 +
development of a protoplast. The protoplast can be grown into a
 +
callus, from which we can finally obtain a bioluminescent plant.  
 +
</P><br><br>
 +
 +
<h2><STRONG>References</STRONG></h2><hr>
-
<center><img src="https://static.igem.org/mediawiki/2012/f/f7/Valencia2012_Tabla_Milstones.png" width="750" height="750"/></center><br>
+
<ul>
 +
   
-
</li>
+
                      <li><P Align=justify> Anthonisen I. L., Kasai S., Kato K., Salvadlor M. L., Klein U. (2002) Structural and functional characterization of a transcription-enhancing sequence elñement in the <i> rbcL </i> gene of the <i>Chlamydomonas</i> chloroplast genome. TRENDS in Plant Sciencie Vol. 7 Nº2</p>
-
<li><strong>Strain selected:</strong>
+
<LI><P ALIGN=JUSTIFY>
 +
Blowers,A.D., Klein, U., Ellmore, G.S. and Bogorad,L (1993)
 +
Functional in vivo analyses of the 3' flanking sequences of the
 +
Chlamydomonas chloroplast rbcL and psaB genes. Mol. Gen. Genet.,
 +
238, 339-349.
 +
</P></li>
-
<p>With the intention of avoiding the use of antibiotics at selection of transformed cells we decided to employ the photosynthesis-deficient mutant strain ac-uc-221 (CC373) of C. reinhardtiii. </p>
+
                      <li><P align=justify> Daniell H., Khan M.S. and Allison L. (2002) Milestones in chloroplast genetic engineering: an environmentally friendly era in iotechnology. Curr. Genet., 41: 349-356.</p></li>
-
<p>The ac-uc-2-21 is a deletion mutation in the chloroplast atpB gen, which results in a clean, non-reverting acetate-requiring phenotype. This strain  was  originally obtained from the culture collection of the Chlamydomonas Genetics Center at Duke University,  NC, USA <link src="http://chlamycollection.org/"></p>
+
                      <li><P align=justify> Maliga P. (2004) Plastid Transformation in Higher Plants. Annu.Rev. Plant Biol., 55:289-313.</p></li>
-
<p>The use mutant strain CC373 enables the selection of transformed cells employing vectors which carry the DNA of interest between plastome homologous regions and atpB gen. The atpB gen allows the restoration of a complete atpB gen copy. Then transformed cells will be able to grow in a culture medium without acetate and high light conditions while not transformed will not do.</p>
+
                      <li> Maria L.S., Loreto S. and Uwe K. (2011) Messeger RNA degradation is initiated at the 5' end and follows sequence - and condition-dependent modes in chloroplasts. Nuclei acids Research, 14, 6213-6222</p></li>
 +
 
-
</li>
 
-
<li><p><strong>Vector selected: </strong></p>
 
-
<p>To introduce our construction and complement the deletion mutation ac-uc-2-21 we chose to use plasmid p +157 (Inger Lill Anthonisen, 2002). This plasmid has between its This one has between inverted repeats homologous to plastome, regions XhoI and XbaI restriction sites flanking 5’ rbcL (el promotor), uidA gen and 3’ UTR from  psaB (to stabilize transcripts).Apart it has atpB gen.</p>
+
</UL>
-
<p>This plasmid has between its two regions with inverted repeat sequences homologous to plastome, targets for restriction enzymes Xhol and Xbal. Between these targets there is the uidA gen flanked by the rbcL 5’ UTR and the psaB 3’ UTR (this last stabilizes the transcripts). Out of these sequences it has the atpB gen.</p>
+
</BODY>
-
 
+
</HTML>
-
</li>
+
-
 
+
-
<li><strong>Method selected:</strong>
+
-
 
+
-
<br>
+
-
 
+
-
<p>Chlamydomonas´ chloroplast can be transformed by different ways. The most prefered are Polyethilenglicol and gen gun methods. We chose gun gen because we found more literature explaining it. This consists on adhering your construction to gold or tungsten particles. After that you will shot them to your algae culture (in agar plates) at empty conditions.</p>
+
-
 
+
-
Bullets will:
+
-
- Fall and not hit algae.
+
-
- Kill algae.
+
-
- Break through algae.
+
-
- Hit the chloroplast and transform it.
+
-
 
+
-
As with all chloroplast transformation methods the introduction of desired DNA will be done by homologous recombination.
+
-
 
+
-
</li>
+
-
 
+
-
<br>
+
-
<br>
+
-
 
+
-
<p><strong>Problems</strong></p>
+
-
 
+
-
<p><strong>Future</strong></p>
+
-
 
+
-
<p>This opens the way for further research on eukaryotic chloroplast transformation that can lead to the development of glowing trees on boulevards (see Team Cambridge 2011).<p>
+
-
 
+
-
The last experimental step would be the transformation of Tobacco plant cell with psbA-lux cassette  and development of a protoplast. The protoplast can be grown into a callus, from which we can finally obtain a bioluminescent plant.
+
-
 
+
-
 
+
-
 
+
-
<p><strong>Bibliography</strong></p>
+
-
 
+
-
- About chlamydomonas straipe:
+
-
o Shepherd et al. (1979) Proc. Natl. Acad. Sci. USA 76, 1353-1357
+
-
o Myers et al. (1982) Plasmid 7, 133-151
+
-
o Woessner et al. (1984) Plant Mol. Biol. 3, 177-190
+
-
o Boynton et al. (1988) Science 240, 1534-1538
+
-
- Vector de transformación:
+
-
o Blowers,A.D., Klein, U., Ellmore, G.S. and Bogorad,L (1993) Functional in vivo analyses of the 3’ flanking sequences of the Chlamydomonas chloroplast rbcL and psaB genes. Mol. Gen. Genet., 238, 339-349.
+
-
 
+
-
<br>
+
-
</p>
+
-
 
+
-
</html>
+

Latest revision as of 03:55, 27 September 2012

Other Microalgae

Our aims go beyond building the most efficient photosynthetic biolamp, into trying to develop more robust and simple designs based on bioluminescent vascular plants. These kind of biolamps would be less energy-efficient, due to the lower surface-volume quotient and amount of structural carbon, but would be much easier to transport, manage, upkeep and commercialize. Vascular plants are robust organisms with a wider tolerance to changes in environmental conditions and independent of a broth vessel and complex tube systems (as they have their own biological structures for this function - xylems and phloems).

In first place, we would test of luminescence of S. elongatus WT with psbA-luxAB as grown broth biolamp, to assess the magnitude of the problem of pigment shading of luminescence.

The next step would be the transformation of Chlamydomonas reinhardtii's chloroplast with the lux cassette under ligth regulation .


Chlamydomonas reinhardtii:


Chlamydomonas reinhardtii is haploid unicellular green algae. It is about 10 micrometers long and 3 wide and has two flagella. Much of its volume is occupied by its only chloroplast which has 80 copies of its genome. Chlamydomonas can grow by autotrophic or heterotrophic ways using organic carbon and chemical energy sources.

This alga is widely spread around the world and is one of mostly used laboratory organism. It is used as model in studies of cellular movement, environmental stimuli responses and photosynthetic and cellular recognition studies.

Figure 1: Chlamydomonas reinhardtii world distribution. Source: http://www.algaebase.org/

In the industry this algae has been used on different areas such as: biofuels production (lipid for biodiesel), biorremediation (heavy metals subtraction from water), pigment production (carotenoids) and bioreactor for production of recombinant proteins for medical use. This is due to some of its features as easy and cheap culture, great capacity of store biomass and because commonly it is considered non harmful for human beings.


    Table 1: Features comparation between different traditional organism used as bioreactors. Source: http://www.revistaciencia.amc.edu.mx/

    Organisms

    Production cost

    Production time

    Staggering capacity

    Quality of product

    Glucosilation capacity

    Contamination risk

    Storage cost

    Bacteria

    Low

    Short

    High

    Low

    No

    Endotoxins

    Moderated

    Yeast

    Medium

    Medium

    High

    Medium

    Yes

    Low

    Moderated

    Insect cells

    High

    Medium

    Medium

    High

    Yes

    High

    Expensive

    Mamals cells

    High

    Long

    Very low

    Very High

    Yes

    Viruses prions

    Expensive

    Animals

    High

    Very long

    Low

    Very high

    Yes

    Viruses prions

    Expensive

    Plant cells

    Low

    Short

    High

    High

    Yes

    Low

    Low cost

    Plants

    Very low

    Long

    Very high

    High

    Nucleus: yes

    Chloroplast: no

    Low

    Low cost

    Microalgae

    Very low

    Short

    Very long

    High

    Nuclus: yes

    Chlorplast: no

    Low

    Low cost


    Experimental design:


    Genetic circuit:

    The designed genetic circuit is very similar to the one that is employed at co-culture project. In this one the psbA promoter regulates λ production; and this production of λ regulates the expression of lux operon.

    During the day the presence of CI repressor inhibits the expression of lux operon because alga does not emit light.

    Figure 2: Genetic circuit working in presence of light/during the day


    During night λ product is not present and that allows the expression of lux operon and the following light emission.


    Figure 3: Genetic circuit working in abscence of light/ during the night


    Transform Chlamydomonas reinhardtii:

    The psbAI gen is a chloroplast's gen. The reasons why we chose to transform chloroplast genome of Chlamydomonas reinhardtii are exposed in the next table:

    Table 2: Comparison of nucleus manipulation against chloroplast manipulation


    Strain selected:

    With the intention of avoiding the use of antibiotics at selection of transformed cells we decided to employ the photosynthesis-deficient mutant strain ac-uc-221 (CC373) of C. reinhardtiii.

    The ac-uc-2-21 is a deletion mutation in the chloroplast atpB gen, which results in a clean, non-reverting acetate-requiring phenotype. This strain was originally obtained from the culture collection of the Chlamydomonas Genetics Center at Duke University, NC, USA

    The use mutant strain CC373 enables the selection of transformed cells employing vectors which carry the DNA of interest between plastome homologous regions and atpB gen. The atpB gen allows the restoration of a complete atpB gen copy. Then transformed cells will be able to grow in a culture medium without acetate and high light conditions while not transformed will not do.


    Vector selected:

    To introduce our construction and complement the deletion mutation ac-uc-2-21 we chose to use plasmid pCrc +157 (Inger Lill Anthonisen, 2002). This plasmid has between its has between inverted repeats homologous to plastome, regions XhoI and XbaI restriction sites flanking 5' rbcL (el promotor), uidA gen and 3' UTR from psaB (to stabilize transcripts).Apart it has atpB gen.


    This plasmid has between its two regions with inverted repeat sequences homologous to plastome, targets for restriction enzymes Xhol and Xbal. Between these targets there is the uidA gen flanked by the rbcL 5' UTR and the psaB 3' UTR (this last stabilizes the transcripts). Out of these sequences it has the atpB gen.

    Figure 4: expression cassette of pCrc+157. Source: Maria L. Salvador.


    Method selected:

    Chlamydomonas´ chloroplast can be transformed by different ways. The most prefered are Polyethilenglicol and gen gun methods. We chose gun gen because we found more literature explaining it. This consists on adhering your construction to gold or tungsten particles. After that you will shot them to your algae culture (in agar plates) at empty conditions.

    Bullets will: - Fall and not hit algae. - Kill algae. - Break through algae. - Hit the chloroplast and transform it. As with all chloroplast transformation methods the introduction of desired DNA will be done by homologous recombination.


    Future

    This opens the way for further research on eukaryotic chloroplast transformation that can lead to the development of glowing trees on boulevards (see Team Cambridge 2011).

    The last experimental step would be the transformation of Tobacco plant cell with psbA-lux cassette and development of a protoplast. The protoplast can be grown into a callus, from which we can finally obtain a bioluminescent plant.



    References


    • Anthonisen I. L., Kasai S., Kato K., Salvadlor M. L., Klein U. (2002) Structural and functional characterization of a transcription-enhancing sequence elñement in the rbcL gene of the Chlamydomonas chloroplast genome. TRENDS in Plant Sciencie Vol. 7 Nº2

    • Blowers,A.D., Klein, U., Ellmore, G.S. and Bogorad,L (1993) Functional in vivo analyses of the 3' flanking sequences of the Chlamydomonas chloroplast rbcL and psaB genes. Mol. Gen. Genet., 238, 339-349.

    • Daniell H., Khan M.S. and Allison L. (2002) Milestones in chloroplast genetic engineering: an environmentally friendly era in iotechnology. Curr. Genet., 41: 349-356.

    • Maliga P. (2004) Plastid Transformation in Higher Plants. Annu.Rev. Plant Biol., 55:289-313.

    • Maria L.S., Loreto S. and Uwe K. (2011) Messeger RNA degradation is initiated at the 5' end and follows sequence - and condition-dependent modes in chloroplasts. Nuclei acids Research, 14, 6213-6222