Team:AUC TURKEY/Project/Mechanism

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 +
 +
<div class=WordSection1>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>Overview</span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>The most
 +
appropriate scale to deducing the qualitative chance in reporter systems relies
 +
on visual <span class=GramE>data</span>.<a name="_ednref1"></a><a href="#_edn1"
 +
title=""><span style='mso-bookmark:_ednref1'><span class=MsoEndnoteReference>[i]</span></span><span
 +
style='mso-bookmark:_ednref1'></span></a><span style='mso-bookmark:_ednref1'></span>The
 +
reporter system that we designed as an alternative to the current reporter systems
 +
uses the change factor in the current reporter systems as the response. <span
 +
class=GramE>Instead of observing change through the synthesis of color, the
 +
system is built around the observation of change through breaking down dye; the
 +
dye degradation plays a key role in the system, therefore for the system to
 +
function there is the requirement of using specific dye in experiments
 +
alongside the standard lab equipment. </span>The bacteria will degrade the
 +
necessary dye to report the response.</span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>&nbsp;</span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>Color-Based
 +
Reporter System</span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>The dye that
 +
was designated and the enzyme that was to show activity in accordance to it was
 +
one of our concerns. The enzyme-substrate action in this novel system carried
 +
great importance and had to be designed with utmost care.</span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>Peroxidases,
 +
which actively take part in the breakdown of lignin-based compounds thus
 +
contributing to the maintenance of the continuity of the existence of white rot
 +
fungi that we based our bleaching enzymes <span class=GramE>on ,were</span>
 +
enzymes that we took into our prospect. We elected lignin peroxidase, an enzyme
 +
actively used by white rot fungi to continue their <span class=GramE>life , as</span>
 +
the enzyme to be implemented into our system. To increase the variance and the
 +
richness in future application, we chose a secondary enzyme. The secondary
 +
enzyme was the horseradish peroxidase as it had a very strong structure and
 +
high activity.</span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>&nbsp;</span></p>
 +
 +
<p class=MsoNormal><b><span style='font-size:12.0pt;line-height:115%'>Lignin
 +
peroxidase:</span></b><span style='font-size:12.0pt;line-height:115%'> Lignin
 +
is highly resistant to biodegradation and only higher fungi are capable of
 +
degrading the polymer via an oxidative <span class=GramE>process.Lignin</span>
 +
is found to be degraded by an enzyme lignin peroxidases produced by some fungi
 +
like Phanerochaete chrysosporium.The mechanism by which lignin peroxidase (Lip)
 +
interacts with the lignin polymer which involves Veratryl alcohol (Valc), a
 +
secondary metabolite of white rot fungi, acts as a cofactor for the enzyme.</span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>In
 +
enzymology, a lignin peroxidase (EC 1.11.1.14) is an enzyme that catalyzes the
 +
chemical reaction</span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>1,2-bis(3,4-dimethoxyphenyl)propane-1,3-diol
 +
+ H2O2&nbsp;&nbsp; 3,4-dimethoxybenzaldehyde +
 +
1-(3,4-dimethoxyphenyl)ethane-1,2-diol + H2O </span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>Thus, the
 +
two substrates of this enzyme are 1,2-bis(3,4-dimethoxyphenyl)propane-1,3-diol
 +
and H2O2, whereas its 3 products are 3,4-dimethoxybenzaldehyde,
 +
1-(3,4-dimethoxyphenyl)ethane-1,2-diol, and H2O. </span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>This enzyme
 +
belongs to the family of oxidoreductases, specifically those acting on a
 +
peroxide as acceptor (peroxidases) and can be included in the broad category of
 +
ligninases. The systematic name of this enzyme class is
 +
1,2-bis(3,4-dimethoxyphenyl)propane-1,3-<span class=GramE>diol:hydrogen</span>-peroxide
 +
oxidoreductase. Other names in common use include diarylpropane oxygenase,
 +
ligninase I,diarylpropane peroxidase, LiP, <span class=GramE>diarylpropane:oxygen</span>,hydrogen-peroxide
 +
oxidoreductase (C-C-bond-cleaving). It employs one cofactor, heme.</span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>LiP
 +
catalyzes the H2O2-dependent oxidation of a variety of lignin model compounds
 +
in the following multistep reaction sequence:</span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>LiP(Fe+3)P +
 +
H2O2 à LiP-I(Fe+4 – O)P’ + H2O</span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>LiP-I(Fe+4 –
 +
O)P’ + R à LiP-II(Fe+4 – O)P + R’</span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>LiP-II(Fe+4
 +
– O)P + R + 2(H+) à LiP(Fe+3)P + R’ + H2O </span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>Horseradish
 +
peroxidase: The enzyme horseradish peroxidase (HRP), found in the roots of
 +
plant horseradish, is used extensively in biochemistry applications primarily
 +
for its ability to amplify a weak signal and increase detectability of a target
 +
molecule. It is a metalloenzyme with many isoforms and the most studied type is
 +
C.</span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>The
 +
structure of the enzyme was first solved by X-ray crystallography in 1997 and
 +
has since has been solved several times with various substrates. It is an all
 +
alpha-helical protein which binds heme as a cofactor.</span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>Alone, the
 +
HRP enzyme, or conjugates thereof, is of little value; its presence must be
 +
made visible using a substrate that, when oxidized by HRP using hydrogen
 +
peroxide as the oxidizing agent, yields a characteristic change that is
 +
detectable by spectrophotometric methods.</span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>Numerous
 +
substrates for the horseradish peroxidase enzyme have been described and
 +
commercialized to exploit the desirable features of HRP. These substrates fall
 +
into several distinct categories. HRP catalyzes the conversion of chromogenic
 +
substrates (e.g<span class=GramE>.,</span> TMB, DAB, ABTS) into coloured
 +
products, and produces light when acting on chemiluminescentsubstrates (e.g.
 +
ECL).</span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>Horseradish
 +
peroxidase is a 44,173.9-dalton glycoprotein with 6 lysine residues which can
 +
be conjugated to a labeled molecule. It produces a coloured, fluorimetric, or
 +
luminescent derivative of the labeled molecule when incubated with a proper
 +
substrate, allowing it to be detected and quantified. HRP is often used in
 +
conjugates (molecules that have been joined genetically or chemically) to
 +
determine the presence of a molecular target. For example, an antibody
 +
conjugated to HRP may be used to detect a small amount of a specific protein in
 +
a western blot. Here, the antibody provides the specificity to locate the
 +
protein of interest, and the HRP enzyme, in the presence of a substrate,
 +
produces a detectable <span class=GramE>signal.Horseradish</span> peroxidase is
 +
also commonly used in techniques such as ELISA and Immunohistochemistry due to
 +
its monomeric nature and the ease with which it produces coloured products.
 +
Peroxidase, a heme-containing oxidoreductase, is a commercially important
 +
enzyme which catalyses the reductive cleavage of hydrogen peroxide by an
 +
electron donor.</span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>Horseradish
 +
peroxidase is ideal in many respects for these applications because it is
 +
smaller, more stable, and less expensive than other popular alternatives such
 +
as alkaline phosphatase. It also has a high turnover rate that allows
 +
generation of strong signals in a relatively short time span.</span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>Moreover,
 +
&quot;In recent years the technique of marking neurons with the enzyme
 +
horseradish peroxidase has become a major tool. In its brief history, this
 +
method has probably been used by more neurobiologists than have used the Golgi
 +
stain since its discovery in 1870.&quot;</span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>&nbsp;</span></p>
 +
 +
<p class=MsoNormal><b><span style='font-size:12.0pt;line-height:115%'>Design</span></b></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>In order to verify
 +
that the horseradish peroxidase and lignin peroxidase enzymes, which were not
 +
transformated and synthesized in bacteria in the past, worked; we decided to
 +
use a constitutive promoter. We chose the constitutive promoter as J23100, one
 +
of the strongest.&nbsp; We wanted to be certain that our protein is surely
 +
produced due to the J23100 constitutive promoter that is 35 bp and coming after
 +
the prefix of 22 base pairs. <span class=GramE>The exhibition of our results in
 +
Western Blotting through the addition of a 6 histidin long his-tag at the end
 +
of the horseradish peroxidase C and lignin peroxidase 1 enzyme sequences, which
 +
contain BamH-I restriction cites that are followed by our ‘AAAGAGGAGAAA’
 +
sequenced RBS, was added to our lab plans. </span>This would in turn give us
 +
the safest experimental procedure to validate the presence of the proteins
 +
syntesized.</span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>The accruity
 +
of our design was to be tested through getting the dye to react with the
 +
culture of bacteria containing enzymes that were to be rapidly synthesized
 +
through the constitutive promoter. The changes ranging from the visually
 +
observable changes in the color concentration to the shifts in the wavelenght
 +
absorbance which can only be detected through Varioskan approve the validity of
 +
our project. The degradation of the specified dyes by the lignin peroxidase and
 +
horsereadish peroxidase, enzymes we selected to breakdown these dyes, is enough
 +
to complete the rudimentary part of our project. The addition of the enzymes as
 +
a composite at the end of another part would enable the production of the
 +
protein in the sequence as well as the the enzymes enabling the response
 +
through an accelerated breakdown process.</span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>Aside of the
 +
affirmation of the synthesis of the enzymes with the Western Blott results, to
 +
confirm the functionality of the proteins carries great importance. We came to
 +
the conclusion that working with several methods to verify the results would be
 +
more professional and certain:</span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>-The
 +
confirmation of the enzyme activity can be <span class=GramE>done</span>
 +
through collecting the data acquired through the observation of the interaction
 +
between the interaction of the specified dyes and DegradEcolor bacteria. For
 +
this feat to be accomplished, the selection of a dye that both lignin
 +
peroxidase and horseradish peroxidase can degrade in equivalent levels would be
 +
more reasonable. We chose Methylene blue as the dye to be used as it was
 +
degraded by the two enzymes in similar amounts during trials. The trials were
 +
consisting of the observation of the changes in the absorbance and color
 +
through the reactions between methylene blue and the two enzymes. The
 +
degradation of the dye plays a keyrole in the determination of the enzyme
 +
activity<span class=GramE>..</span></span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>-HRP
 +
activity was assayed using 2,4-dichlorophenol and 4-aminoantipyrine as the
 +
substrates, substrates used to assay the activity of enzymes. LiP activity was
 +
assayed using veratryl alcohol as the substrate. </span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>-While
 +
examining the general properties of the two designated enzymes, we found out
 +
that the horseradish peroxidase enzyme had the ability to determine the
 +
presence of a molecular target. If we are to recall the Western blott procedure
 +
we see the following:</span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>The proteins
 +
in the lysate that were planted in the jel first run and transferred to the
 +
membrane afterwards. After being left to interact with the primary antibodies
 +
causing the immuglobins to bind with the specific binding site located on the <span
 +
class=GramE>protein.In</span> the case of contamination or the absence of
 +
protein synthesis, no binding will be observed. After the completion of the
 +
binding of the primary antibodies, the secondary antibody binding process
 +
begins. While the secondary antibodies bind to the primary antibodies, they
 +
bring with them the horseradish peroxidase enzymes that are attached to them.
 +
The enhanced chemiluminescence solution does emission under the Western
 +
blotting device. The luminol in the enhanced chemiluminescence solution is
 +
oxidised by hydrogen peroxide, however this reaction can only occur in the
 +
presence of the horseradish peroxidase; as explained, if the proteins are
 +
correctly synthesized the horseradish peroxidase will cause oxygenation to take
 +
place causing emission. The same effect can be acquired through the horseradish
 +
peroxidase that is synthesized by DegradEcolor. In thıs case, the functionality
 +
of the enzyme could be proven after seeing emission from the interaction
 +
between the enhanced chemiluminescence solution and DegradEcolor or lysate
 +
prepared from DegradEcolor. As horseradish peroxidase was able to catalise the
 +
reaction of hydrogen peroxide, lignin peroxidase, another peroxidase enzyme,
 +
would most likely be able to have the same effect. We are expecting to see
 +
emission from the bacteria or lysate prepared from the bacteria that produce
 +
lignin peroxidase.</span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>Dye
 +
Degradation</span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>Methylene blue,
 +
the dye which the horseradish peroxidase and lignin peroxidase exhibited
 +
equivalent levels of degradation on, will show that DegradEcolor produced the
 +
functional proteins. Addition of the horseradish peroxidase or lignin
 +
peroxidase enzyme sequence to the composite part would make the part include a
 +
reporter system. If the part is coded and the enzyme is translated, the enzyme
 +
will be synthesized and change in methylene blue will be observed. Many
 +
deductions can be obtained with the results of the methylene blue degradation
 +
including the following:</span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>-The
 +
bleeching of the dye color, which can be understood through qualitative
 +
observation, allowsus to reach certain conclusions. The bleeching of the color
 +
primarily indicates that the enzymes were synthesized. therefore no
 +
contamination took place. Apart from the synthesis factor, the conclusion
 +
that&nbsp; the conformational structure is functional can be reached. This will
 +
in turn provide insight that the other desired proteins will also be
 +
synthesized. The system will also enable the ability to evaluate the efficiency
 +
of the system through the gradient of color concentration.</span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>-The changes
 +
in absorbance will ease the acquirement of the certain results. The absorbance <span
 +
class=GramE>data</span> can be used to prepare a professional and highly
 +
efficient scale for examination and use. The prepared scales can be used for
 +
comparison between the future experiments and the current experiments. It would
 +
be hard and even erronous to make judgement on strains that do not have high
 +
protein synthesis but the comparison between the acquired absorbance values and
 +
the scales not only&nbsp; removes the risk factor but also gives the
 +
opportunity of making precise judgement in the absence of visual <span
 +
class=GramE>data</span>.</span></p>
 +
 +
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mso-width-percent:0;mso-height-percent:0;mso-wrap-distance-left:9pt;
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mso-position-horizontal-relative:text;mso-position-vertical:absolute;
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mso-position-vertical-relative:line;mso-width-percent:0;mso-height-percent:0;
 +
mso-width-relative:page;mso-height-relative:page' o:allowoverlap="f">
 +
<v:imagedata src="https://static.igem.org/mediawiki/2014hs/e/e3/Ekran_Al%C4%B1nt%C4%B1s%C4%B1.PNG"/>
 +
<w:wrap type="square" anchory="line"/>
 +
</v:shape><![endif]--><![if !vml]><img width=776 height=162
 +
src="https://static.igem.org/mediawiki/2014hs/e/e3/Ekran_Al%C4%B1nt%C4%B1s%C4%B1.PNG"
 +
align=left hspace=12
 +
alt="https://static.igem.org/mediawiki/2014hs/e/e3/Ekran_Al%C4%B1nt%C4%B1s%C4%B1.PNG"
 +
v:shapes="Resim_x0020_2"><![endif]></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>&nbsp;</span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'><o:p>&nbsp;</o:p></span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'><o:p>&nbsp;</o:p></span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'><o:p>&nbsp;</o:p></span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'><o:p>&nbsp;</o:p></span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>Advanced
 +
System</span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>The main
 +
principle of our advanced system that has brought a new dimension to reporter
 +
systems lies in the variance in the activity levels of the lignin peroxidase
 +
and horseradish peroxidase enzymes. The enzymes to have effect on one specific
 +
dye at the same time would not bring us any experimental gain. For this reason,
 +
the advanced system contains two different dyes alongside the two enzymes. The
 +
system is built around the inability of one enzyme in degrading the one dye
 +
while the other can, while the opposite is true for the other dye. Experimental
 +
systems containing a complex unison of enzymes and dyes can be constructed.</span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>To further
 +
enhance our project, we formed such a complex system. The bacteria were given
 +
two parts, one containing horseradish peroxidase while the other contains
 +
lignin peroxidase. The dyes that were selected were Methyl green and Azure-b.
 +
While methyl green is, as the name implies, green colored, azure-b has a color
 +
in between pink and purple. Horseradish peroxidase can effectively degrade
 +
methyl green but lacks the ability to effectively degrade azure-b meanwhile
 +
lignin peroxidase is active in the degradation of azure-b and lackluster in
 +
degrading methyl green.</span></p>
 +
 +
<p class=MsoNormal><span style='font-size:12.0pt;line-height:115%'>If parts
 +
starting off with different inducible promoters were transformed to the same
 +
bacteria, different <span class=GramE>data</span> from different conditions
 +
could be acquired. Think of a system in which the bacteria have inducible
 +
promoters that are oxygen sensitive and the other carbon dioxide sensitive. If
 +
methyl green and azure-b was to be added to cause interaction with the bacteria,
 +
the varying levels of oxygen and carbon dioxide would therefore result in
 +
different levels of enzymatic activity. Let’s say that the oxygen inducible
 +
bacteria contain genes that code for horseradish peroxidase and the carbon
 +
dioxide inducible bacteria contain genes that code for lignin peroxidase. <span
 +
class=GramE>The variation in the level of oxygen and carbon dioxide would
 +
change the rate of specific enzyme activity hence leading to a difference in
 +
the degradation levels of methyl green and azure-b. This would change the color
 +
of the resultant substrate thus allowing the identification of the activity of
 +
the inducible promoters. </span>In this way, scales could be prepared for many
 +
different types of inducible promoters for countless possibilities.</span></p>
 +
 +
<div>
 +
 +
<p class=MsoNormal style='margin-bottom:0cm;margin-bottom:.0001pt'><span
 +
style='font-size:12.0pt;line-height:115%;font-family:"Times New Roman","serif";
 +
mso-fareast-font-family:"Times New Roman"'><br clear=all style='mso-special-character:
 +
line-break'>
 +
<o:p></o:p></span></p>
 +
 +
<div class=MsoNormal style='margin-bottom:0cm;margin-bottom:.0001pt'><span
 +
style='font-size:12.0pt;line-height:115%;font-family:"Times New Roman","serif";
 +
mso-fareast-font-family:"Times New Roman"'>
 +
 +
<hr size=1 width="33%" align=left>
 +
 +
</span></div>
 +
 +
<div id=edn1>
 +
 +
<p class=MsoEndnoteText><a name="_edn1"></a><a href="#_ednref1" title=""><span
 +
style='mso-bookmark:_edn1'><span class=MsoEndnoteReference>[i]</span></span><span
 +
style='mso-bookmark:_edn1'></span></a><span style='mso-bookmark:_edn1'></span> <sup><span
 +
style='color:#252525'>K.E.L. Eriksson, R.A. Blanchette and P. Ander (1990).
 +
&quot;Microbial and Enzymatic Degradation of Wood and Wood Components,&quot;. <i>Springer-Verlag</i></span></sup></p>
 +
 +
<p class=MsoEndnoteText><sup>[i]&nbsp; </sup><sup><span style='font-size:9.0pt;
 +
color:#333333'>Veitch, Nigel C<span class=GramE>.,</span> <i>Horseradish peroxidase:
 +
a modern view of a classic enzyme</i>, Phytochemistry, 65, <b>2004</b>,
 +
249-259, 23-May-2010</span></sup></p>
 +
 +
<p class=MsoNormal style='line-height:normal'><sup>[i]</sup><sup><span
 +
style='font-size:10.0pt'> Ann B. Orth,&nbsp; Daniel J. Royse, Ming Tien
 +
“Ubiquity of Lignin-Degrading Peroxidases among Various Wood-Degrading Fungi,”
 +
Applied and Environmental Microbiology (1993):4017-4023</span></sup></p>
 +
 +
<h1 style='margin-bottom:5.0pt;line-height:150%'><sup><span style='mso-fareast-font-family:
 +
"Times New Roman"'>[i]</span></sup><span style='mso-fareast-font-family:"Times New Roman"'><a
 +
href="http://www.sciencedirect.com/science/article/pii/0168644594900760"><span
 +
style='font-size:8.0pt;line-height:150%;font-family:"Arial","sans-serif";
 +
color:#316C9D;text-decoration:none;text-underline:none'>Annele Hatakka</span></a></span><span
 +
style='font-size:8.0pt;line-height:150%;font-family:"Arial","sans-serif";
 +
mso-fareast-font-family:"Times New Roman"'>, “</span><span style='font-size:
 +
8.0pt;line-height:150%;font-family:"Arial","sans-serif";mso-fareast-font-family:
 +
"Times New Roman";color:#5C5C5C'>Lignin-modifying enzymes from selected
 +
white-rot fungi: production and role from in lignin degradation,” </span><span
 +
style='mso-fareast-font-family:"Times New Roman"'><a
 +
href="http://www.sciencedirect.com/science/journal/01686445"><span
 +
style='font-size:8.0pt;line-height:150%;font-family:"Arial","sans-serif";
 +
color:#2E2E2E;background:#F9FBFC;text-decoration:none;text-underline:none'>FEMS
 +
Microbiology Reviews</span></a></span><span style='font-size:8.0pt;line-height:
 +
150%;font-family:"Arial","sans-serif";mso-fareast-font-family:"Times New Roman";
 +
color:#5C5C5C'> (1994):125-135</span><span style='mso-fareast-font-family:"Times New Roman"'><o:p></o:p></span></h1>
 +
 +
<p class=MsoNormal style='line-height:normal'><sup>[i]</sup><span
 +
style='font-size:8.0pt'> <span style='color:#252525'>Renganathan V, Miki K,
 +
Gold MH (1985). &quot;Multiple molecular forms of diarylpropane oxygenase, an
 +
H2O2-requiring, lignin-degrading enzyme from Phanerochaete chrysosporium&quot;.
 +
<i>Arch. Biochem. Biophys.</i> <b>241</b> (1): 304–14. </span></span><a
 +
href="http://en.wikipedia.org/wiki/Digital_object_identifier"><span
 +
style='font-size:8.0pt;color:#0B0080;text-decoration:none;text-underline:none'>doi</span></a><span
 +
style='font-size:8.0pt;color:#252525'>:</span><a
 +
href="http://dx.doi.org/10.1016%2F0003-9861%2885%2990387-X"><span
 +
style='font-size:8.0pt;color:#663366;text-decoration:none;text-underline:none'>10.1016/0003-9861(85)90387-X</span></a><span
 +
style='font-size:8.0pt;color:#252525'>. </span><a
 +
href="http://en.wikipedia.org/wiki/PubMed_Identifier"><span style='font-size:
 +
8.0pt;color:#0B0080;text-decoration:none;text-underline:none'>PMID</span></a><span
 +
style='font-size:8.0pt;color:#252525'> </span><a
 +
href="http://www.ncbi.nlm.nih.gov/pubmed/4026322"><span style='font-size:8.0pt;
 +
color:#663366;text-decoration:none;text-underline:none'>4026322</span></a></p>
 +
 +
<p class=MsoEndnoteText><span class=GramE><sup>[i]</sup><a
 +
href="http://www.jbc.org/search?author1=Susana+Camarero&amp;sortspec=date&amp;submit=Submit"><b><span
 +
style='font-size:8.0pt;color:#333333;text-decoration:none;text-underline:none'>Susana
 +
Camarero</span></b></a><b><span style='font-size:8.0pt;color:#403838'>, </span></b><a
 +
href="http://www.jbc.org/search?author1=Sovan+Sarkar&amp;sortspec=date&amp;submit=Submit"><b><span
 +
style='font-size:8.0pt;color:#333333;text-decoration:none;text-underline:none'>Sovan
 +
Sarkar</span></b></a><b><span style='font-size:8.0pt;color:#403838'>, </span></b><a
 +
href="http://www.jbc.org/search?author1=Francisco+Javier+Ruiz-Due%C3%B1as&amp;sortspec=date&amp;submit=Submit"><b><span
 +
style='font-size:8.0pt;color:#333333;text-decoration:none;text-underline:none'>Francisco
 +
Javier Ruiz-Dueñas</span></b></a><b><span style='font-size:8.0pt;color:#403838'>,</span></b><a
 +
href="http://www.jbc.org/search?author1=Mar%C4%B1%CC%81a+Jes%C3%BAs+Mart%C4%B1%CC%81nez&amp;sortspec=date&amp;submit=Submit"><b><span
 +
style='font-size:8.0pt;color:#333333;text-decoration:none;text-underline:none'>Marı&#769;a
 +
Jesús Martı&#769;nez</span></b></a><b><span style='font-size:8.0pt;color:#403838'>
 +
and </span></b><a
 +
href="http://www.jbc.org/search?author1=%C3%81ngel+T.+Mart%C4%B1%CC%81nez&amp;sortspec=date&amp;submit=Submit"><b><span
 +
style='font-size:8.0pt;color:#333333;text-decoration:none;text-underline:none'>Ángel
 +
T. Martı&#769;nez “</span></b></a><span style='font-size:8.0pt'>Description of
 +
a Versatile Peroxidase Involved in the Natural Degradation of Lignin That Has
 +
Both Manganese Peroxidase and Lignin Peroxidase Substrate Interaction Sites,” <span
 +
style='color:#403838'>Centro de Investigaciones Biológicas, Consejo Superior de
 +
Investigaciones Cientı&#769;ficas, Velázquez 144, E-28006 Madrid, Spain, last
 +
accessed 06.21.2014, </span></span><a
 +
href="http://www.jbc.org/content/274/15/10324.short"><span style='font-size:
 +
8.0pt'>http://www.jbc.org/content/274/15/10324.short</span></a></span></p>
 +
 +
<p class=MsoNormal style='line-height:normal'><sup>[i]</sup><span
 +
style='font-size:10.0pt'> Jean Luc Wertz and Olivier Bedue, Lignocellulosic
 +
Biorefineries (Lausanne: EPFL Press, 2013), 278-286</span></p>
 +
 +
<h1 style='margin-bottom:5.0pt;line-height:150%'><sup><span style='mso-fareast-font-family:
 +
"Times New Roman"'>[i]</span></sup><span style='mso-fareast-font-family:"Times New Roman"'><a
 +
href="http://www.sciencedirect.com/science/article/pii/S0003986199913656"><span
 +
style='font-size:10.0pt;line-height:150%;color:#316C9D;text-decoration:none;
 +
text-underline:none'>Wolfgang Blodig</span></a><a
 +
href="http://www.sciencedirect.com/science/article/pii/S0003986199913656#A1"><sup><span
 +
style='font-size:12.0pt;line-height:150%;color:#316C9D;text-decoration:none;
 +
text-underline:none'>a</span></sup></a></span><sup><span style='font-size:12.0pt;
 +
line-height:150%;mso-fareast-font-family:"Times New Roman";color:#2E2E2E'>, </span></sup><span
 +
style='mso-fareast-font-family:"Times New Roman"'><a
 +
href="http://www.sciencedirect.com/science/article/pii/S0003986199913656#FN1"><sup><span
 +
style='font-size:12.0pt;line-height:150%;color:#316C9D;text-decoration:none;
 +
text-underline:none'>1</span></sup></a></span><span style='font-size:10.0pt;
 +
line-height:150%;mso-fareast-font-family:"Times New Roman";color:#2E2E2E'>, </span><span
 +
style='mso-fareast-font-family:"Times New Roman"'><a
 +
href="http://www.sciencedirect.com/science/article/pii/S0003986199913656"><span
 +
style='font-size:10.0pt;line-height:150%;color:#316C9D;text-decoration:none;
 +
text-underline:none'>Andrew T. Smith</span></a><a
 +
href="http://www.sciencedirect.com/science/article/pii/S0003986199913656#A2"><sup><span
 +
style='font-size:12.0pt;line-height:150%;color:#316C9D;text-decoration:none;
 +
text-underline:none'>b</span></sup></a></span><span style='font-size:10.0pt;
 +
line-height:150%;mso-fareast-font-family:"Times New Roman";color:#2E2E2E'>, </span><span
 +
style='mso-fareast-font-family:"Times New Roman"'><a
 +
href="http://www.sciencedirect.com/science/article/pii/S0003986199913656"><span
 +
style='font-size:10.0pt;line-height:150%;color:#316C9D;text-decoration:none;
 +
text-underline:none'>Kaspar Winterhalter</span></a><a
 +
href="http://www.sciencedirect.com/science/article/pii/S0003986199913656#A1"><sup><span
 +
style='font-size:12.0pt;line-height:150%;color:#316C9D;text-decoration:none;
 +
text-underline:none'>a</span></sup></a></span><span style='font-size:10.0pt;
 +
line-height:150%;mso-fareast-font-family:"Times New Roman";color:#2E2E2E'>, </span><span
 +
style='mso-fareast-font-family:"Times New Roman"'><a
 +
href="http://www.sciencedirect.com/science/article/pii/S0003986199913656"><span
 +
style='font-size:10.0pt;line-height:150%;color:#316C9D;text-decoration:none;
 +
text-underline:none'>Klaus Piontek “</span></a><a
 +
href="http://www.sciencedirect.com/science/article/pii/S0003986199913656"><b><span
 +
style='font-size:8.0pt;line-height:150%;font-family:"Arial","sans-serif";
 +
color:#5C5C5C;text-decoration:none;text-underline:none'>Evidence from
 +
Spin-Trapping for a Transient Radical on Tryptophan Residue 171 of Lignin
 +
Peroxidase,” </span></b></a><a
 +
href="http://www.sciencedirect.com/science/journal/00039861"><b><span
 +
style='font-size:8.0pt;line-height:150%;font-family:"Arial","sans-serif";
 +
color:#2E2E2E;background:#F9FBFC'>Archives of Biochemistry and Biophysic</span></b></a></span><span
 +
style='font-size:8.0pt;line-height:150%;mso-fareast-font-family:"Times New Roman"'>s</span><b><span
 +
style='font-size:8.0pt;line-height:150%;font-family:"Arial","sans-serif";
 +
mso-fareast-font-family:"Times New Roman"'> (1999):86-92</span></b><span
 +
style='mso-fareast-font-family:"Times New Roman"'><o:p></o:p></span></h1>
 +
 +
<h1 style='margin-top:5.0pt;margin-right:0cm;margin-bottom:11.0pt;margin-left:
 +
0cm;line-height:120%'><sup><span style='mso-fareast-font-family:"Times New Roman"'>[i]</span></sup><span
 +
style='font-size:8.0pt;line-height:120%;mso-fareast-font-family:"Times New Roman"'>
 +
</span><span style='mso-fareast-font-family:"Times New Roman"'><a
 +
href="http://link.springer.com/search?facet-author=%22M.+Yadav%22"><span
 +
style='font-size:8.0pt;line-height:120%;color:#333333;text-decoration:none;
 +
text-underline:none'>M. Yadav</span></a></span><span style='font-size:8.0pt;
 +
line-height:120%;mso-fareast-font-family:"Times New Roman";color:#333333'>, </span><span
 +
style='mso-fareast-font-family:"Times New Roman"'><a
 +
href="http://link.springer.com/search?facet-author=%22P.+Yadav%22"><span
 +
style='font-size:8.0pt;line-height:120%;color:#333333;text-decoration:none;
 +
text-underline:none'>P. Yadav</span></a></span><span style='font-size:8.0pt;
 +
line-height:120%;mso-fareast-font-family:"Times New Roman";color:#333333'>, </span><span
 +
style='mso-fareast-font-family:"Times New Roman"'><a
 +
href="http://link.springer.com/search?facet-author=%22K.+D.+S.+Yadav%22"><span
 +
style='font-size:8.0pt;line-height:120%;color:#333333;text-decoration:none;
 +
text-underline:none'>K. D. S. Yadav</span></a></span><span style='font-size:
 +
8.0pt;line-height:120%;mso-fareast-font-family:"Times New Roman"'>. “</span><span
 +
style='font-size:8.0pt;line-height:120%;font-family:"Georgia","serif";
 +
mso-fareast-font-family:"Times New Roman";color:#333333'>Purification,
 +
characterization, and coal depolymerizing activity of lignin peroxidase from <i>Gloeophyllum
 +
sepiarium</i>,” </span><span style='mso-fareast-font-family:"Times New Roman"'><a
 +
href="http://link.springer.com/journal/10541"><span style='font-size:8.0pt;
 +
line-height:120%;font-family:"Arial","sans-serif";color:#333333;text-decoration:
 +
none;text-underline:none'>Biochemistry (Moscow)</span></a></span><span
 +
style='font-size:8.0pt;line-height:120%;mso-fareast-font-family:"Times New Roman"'>
 +
(2009):1125-1131</span><span style='mso-fareast-font-family:"Times New Roman"'><o:p></o:p></span></h1>
 +
 +
<p class=MsoNormal style='line-height:normal'><sup>[i]</sup><sup><span
 +
style='font-size:10.0pt'> <span style='color:#252525'>&nbsp;</span></span></sup><a
 +
href="http://en.wikipedia.org/wiki/Protein_Data_Bank"><sup><span
 +
style='font-size:10.0pt;color:#0B0080;text-decoration:none;text-underline:none'>PDB</span></sup></a><sup><span
 +
style='font-size:10.0pt;color:#252525'> </span></sup><a
 +
href="http://www.rcsb.org/pdb/explore/explore.do?structureId=1GWU"><sup><span
 +
style='font-size:10.0pt;color:#663366;text-decoration:none;text-underline:none'>1GWU</span></sup></a><sup><span
 +
style='font-size:10.0pt;color:#252525'>; Gajhede M, Schuller DJ, Henriksen A,
 +
Smith AT, Poulos TL (December 1997). &quot;Crystal structure of horseradish
 +
peroxidase C at 2.15 A resolution&quot;. <i>Nat. Struct. Biol.</i> <b>4</b>(12):
 +
1032–8. </span></sup><a
 +
href="http://en.wikipedia.org/wiki/Digital_object_identifier"><sup><span
 +
style='font-size:10.0pt;color:#0B0080;text-decoration:none;text-underline:none'>doi</span></sup></a><sup><span
 +
style='font-size:10.0pt;color:#252525'>:</span></sup><a
 +
href="http://dx.doi.org/10.1038%2Fnsb1297-1032"><span class=GramE><sup><span
 +
style='font-size:10.0pt;color:#663366;text-decoration:none;text-underline:none'>10.1038</span></sup></span><sup><span
 +
style='font-size:10.0pt;color:#663366;text-decoration:none;text-underline:none'>/nsb1297-1032</span></sup></a><sup><span
 +
style='font-size:10.0pt;color:#252525'>. </span></sup><a
 +
href="http://en.wikipedia.org/wiki/PubMed_Identifier"><sup><span
 +
style='font-size:10.0pt;color:#0B0080;text-decoration:none;text-underline:none'>PMID</span></sup></a><sup><span
 +
style='font-size:10.0pt;color:#252525'> </span></sup><a
 +
href="http://www.ncbi.nlm.nih.gov/pubmed/9406554"><sup><span style='font-size:
 +
10.0pt;color:#663366;text-decoration:none;text-underline:none'>9406554</span></sup></a></p>
 +
 +
<p class=MsoEndnoteText><sup>[i] <span style='color:#252525'>&nbsp;</span></sup><a
 +
href="http://www.ebi.ac.uk/pdbe-apps/widgets/unipdb?uniprot=P00433"><sup><span
 +
style='color:#663366;text-decoration:none;text-underline:none'>&quot;Peroxidase
 +
C1A Related PDB sequences&quot;</span></sup></a><sup><span style='color:#252525'>.
 +
<i>UniPDB</i>. European Bioinformatics Institute</span></sup></p>
 +
 +
<p class=MsoEndnoteText><sup>[i] <span style='color:#252525'>Veitch NC
 +
(February 2004). &quot;Horseradish peroxidase: a modern view of a classic
 +
enzyme&quot;. </span></sup><a
 +
href="http://en.wikipedia.org/wiki/Phytochemistry_(journal)"><i><sup><span
 +
style='color:#0B0080;text-decoration:none;text-underline:none'>Phytochemistry</span></sup></i></a><sup><span
 +
style='color:#252525'> <b>65</b> (3): 249–59. </span></sup><a
 +
href="http://en.wikipedia.org/wiki/Digital_object_identifier"><sup><span
 +
style='color:#0B0080;text-decoration:none;text-underline:none'>doi</span></sup></a><sup><span
 +
style='color:#252525'>:</span></sup><a
 +
href="http://dx.doi.org/10.1016%2Fj.phytochem.2003.10.022"><span class=GramE><sup><span
 +
style='color:#663366;text-decoration:none;text-underline:none'>10.1016</span></sup></span><sup><span
 +
style='color:#663366;text-decoration:none;text-underline:none'>/j.phytochem.2003.10.022</span></sup></a><sup><span
 +
style='color:#252525'>. </span></sup><a
 +
href="http://en.wikipedia.org/wiki/PubMed_Identifier"><sup><span
 +
style='color:#0B0080;text-decoration:none;text-underline:none'>PMID</span></sup></a><sup><span
 +
style='color:#252525'> </span></sup><a
 +
href="http://www.ncbi.nlm.nih.gov/pubmed/14751298"><span class=GramE><sup><span
 +
style='color:#663366;text-decoration:none;text-underline:none'>14751298</span></sup></span></a></p>
 +
 +
<p class=MsoEndnoteText>&nbsp;</p>
 +
 +
<p class=MsoNormal style='line-height:normal'><sup>[i]</sup><sup><span
 +
style='font-size:10.0pt'> <span style='color:#252525'>Akkara JA, Senecal KJ,
 +
Kaplan DL (October 1991). &quot;Synthesis and characterization of polymers
 +
produced by horseradish peroxidase in dioxane&quot;. <i>Journal of Polymer
 +
Science</i> <b>29</b> (11): 1561–74. </span></span></sup><a
 +
href="http://en.wikipedia.org/wiki/Digital_object_identifier"><sup><span
 +
style='font-size:10.0pt;color:#0B0080;text-decoration:none;text-underline:none'>doi</span></sup></a><sup><span
 +
style='font-size:10.0pt;color:#252525'>:</span></sup><a
 +
href="http://dx.doi.org/10.1002%2Fpola.1991.080291105"><span class=GramE><sup><span
 +
style='font-size:10.0pt;color:#663366;text-decoration:none;text-underline:none'>10.1002</span></sup></span><sup><span
 +
style='font-size:10.0pt;color:#663366;text-decoration:none;text-underline:none'>/pola.1991.080291105</span></sup></a></p>
 +
 +
<p class=MsoNormal style='line-height:normal'><sup>[i]</sup><sup><span
 +
style='font-size:10.0pt'> <span style='color:#252525'>Chau YP, Lu KS (1995).
 +
&quot;Investigation of the blood-ganglion barrier properties in rat sympathetic
 +
ganglia by using lanthanum ion and horseradish peroxidase as tracers&quot;. <i>Acta
 +
Anat (Basel)</i> <b>153</b> (2): 135–44. </span></span></sup><a
 +
href="http://en.wikipedia.org/wiki/Digital_object_identifier"><sup><span
 +
style='font-size:10.0pt;color:#0B0080;text-decoration:none;text-underline:none'>doi</span></sup></a><sup><span
 +
style='font-size:10.0pt;color:#252525'>:</span></sup><a
 +
href="http://dx.doi.org/10.1159%2F000313647"><sup><span style='font-size:10.0pt;
 +
color:#663366;text-decoration:none;text-underline:none'>10.1159/000313647</span></sup></a><sup><span
 +
style='font-size:10.0pt;color:#252525'>. </span></sup><a
 +
href="http://en.wikipedia.org/wiki/PubMed_Identifier"><sup><span
 +
style='font-size:10.0pt;color:#0B0080;text-decoration:none;text-underline:none'>PMID</span></sup></a><sup><span
 +
style='font-size:10.0pt;color:#252525'> </span></sup><a
 +
href="http://www.ncbi.nlm.nih.gov/pubmed/8560966"><sup><span style='font-size:
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10.0pt;color:#663366;text-decoration:none;text-underline:none'>8560966</span></sup></a></p>
 +
 +
<p class=MsoNormal style='line-height:normal'><sup>[i]</sup><sup><span
 +
style='font-size:10.0pt'> <span style='color:#252525'>Lichtman JW, Purves D
 +
(1985). </span></span></sup><a
 +
href="http://books.google.com/books?id=t9JqAAAAMAAJ&amp;q=In+recent+years+the+technique+of+marking+neurons+with+the+enzyme+horseradish+peroxidase+has+become+a+major+tool&amp;dq=In+recent+years+the+technique+of+marking+neurons+with+the+enzyme+horseradish+peroxidase+has+become+a+major+tool&amp;hl=en&amp;sa=X&amp;ei=-rL_T67zC6ni4QSKndWrCA&amp;redir_esc=y"><sup><span
 +
style='font-size:10.0pt;color:#663366;text-decoration:none;text-underline:none'>&quot;Cell
 +
marking with horseradish peroxidase&quot;</span></sup></a><sup><span
 +
style='font-size:10.0pt;color:#252525'>. <i>Principles of neural development</i>.
 +
Sunderland, Mass: Sinauer Associates. <span class=GramE>p</span>. 114. </span></sup><a
 +
href="http://en.wikipedia.org/wiki/International_Standard_Book_Number"><sup><span
 +
style='font-size:10.0pt;color:#0B0080;text-decoration:none;text-underline:none'>ISBN</span></sup></a><sup><span
 +
style='font-size:10.0pt;color:#252525'> </span></sup><a
 +
href="http://en.wikipedia.org/wiki/Special:BookSources/0-87893-744-7"><sup><span
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style='font-size:10.0pt;color:#0B0080;text-decoration:none;text-underline:none'>0-87893-744-7</span></sup></a></p>
 +
 +
<h1 style='margin-bottom:2.0pt;line-height:80%'><sup><span style='mso-fareast-font-family:
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"Times New Roman"'>[i]</span></sup><sup><span style='font-size:10.0pt;
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line-height:80%;mso-fareast-font-family:"Times New Roman"'> “</span></sup><sup><span
 +
style='font-size:10.0pt;line-height:80%;font-family:"Arial","sans-serif";
 +
mso-fareast-font-family:"Times New Roman";color:#282828'>Part:BBa_J23100,” last
 +
accessed June 21, 2014, http://parts.igem.org/Part:BBa_J23100</span></sup><span
 +
style='mso-fareast-font-family:"Times New Roman"'><o:p></o:p></span></h1>
 +
 +
<p class=MsoNormal style='line-height:normal'><sup>[i]</sup><sup><span
 +
style='font-size:10.0pt'>&nbsp; J.K. Spiker, D.L. Crawford, E.C. Thiel, Appl.
 +
Environ.</span></sup></p>
 +
 +
<p class=MsoNormal style='line-height:normal'><sup>[i]</sup><sup><span
 +
style='font-size:10.0pt'>Microbiol. 37 (1992) 518–523.</span></sup></p>
 +
 +
<p class=MsoNormal style='line-height:normal'><sup>[i]</sup><sup><span
 +
style='font-size:10.0pt'> M. Tien, T.K. Kirk, Proc. Natl. Acad. Sci. U.S.A. 8
 +
(1984)</span></sup></p>
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<p class=MsoEndnoteText>&nbsp;</p>
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<p class=MsoEndnoteText>&nbsp;</p>
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Latest revision as of 17:35, 26 April 2015

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Overview

The most appropriate scale to deducing the qualitative chance in reporter systems relies on visual data.[i]The reporter system that we designed as an alternative to the current reporter systems uses the change factor in the current reporter systems as the response. Instead of observing change through the synthesis of color, the system is built around the observation of change through breaking down dye; the dye degradation plays a key role in the system, therefore for the system to function there is the requirement of using specific dye in experiments alongside the standard lab equipment. The bacteria will degrade the necessary dye to report the response.

 

Color-Based Reporter System

The dye that was designated and the enzyme that was to show activity in accordance to it was one of our concerns. The enzyme-substrate action in this novel system carried great importance and had to be designed with utmost care.

Peroxidases, which actively take part in the breakdown of lignin-based compounds thus contributing to the maintenance of the continuity of the existence of white rot fungi that we based our bleaching enzymes on ,were enzymes that we took into our prospect. We elected lignin peroxidase, an enzyme actively used by white rot fungi to continue their life , as the enzyme to be implemented into our system. To increase the variance and the richness in future application, we chose a secondary enzyme. The secondary enzyme was the horseradish peroxidase as it had a very strong structure and high activity.

 

Lignin peroxidase: Lignin is highly resistant to biodegradation and only higher fungi are capable of degrading the polymer via an oxidative process.Lignin is found to be degraded by an enzyme lignin peroxidases produced by some fungi like Phanerochaete chrysosporium.The mechanism by which lignin peroxidase (Lip) interacts with the lignin polymer which involves Veratryl alcohol (Valc), a secondary metabolite of white rot fungi, acts as a cofactor for the enzyme.

In enzymology, a lignin peroxidase (EC 1.11.1.14) is an enzyme that catalyzes the chemical reaction

1,2-bis(3,4-dimethoxyphenyl)propane-1,3-diol + H2O2   3,4-dimethoxybenzaldehyde + 1-(3,4-dimethoxyphenyl)ethane-1,2-diol + H2O

Thus, the two substrates of this enzyme are 1,2-bis(3,4-dimethoxyphenyl)propane-1,3-diol and H2O2, whereas its 3 products are 3,4-dimethoxybenzaldehyde, 1-(3,4-dimethoxyphenyl)ethane-1,2-diol, and H2O.

This enzyme belongs to the family of oxidoreductases, specifically those acting on a peroxide as acceptor (peroxidases) and can be included in the broad category of ligninases. The systematic name of this enzyme class is 1,2-bis(3,4-dimethoxyphenyl)propane-1,3-diol:hydrogen-peroxide oxidoreductase. Other names in common use include diarylpropane oxygenase, ligninase I,diarylpropane peroxidase, LiP, diarylpropane:oxygen,hydrogen-peroxide oxidoreductase (C-C-bond-cleaving). It employs one cofactor, heme.

LiP catalyzes the H2O2-dependent oxidation of a variety of lignin model compounds in the following multistep reaction sequence:

LiP(Fe+3)P + H2O2 à LiP-I(Fe+4 – O)P’ + H2O

LiP-I(Fe+4 – O)P’ + R à LiP-II(Fe+4 – O)P + R’

LiP-II(Fe+4 – O)P + R + 2(H+) à LiP(Fe+3)P + R’ + H2O

Horseradish peroxidase: The enzyme horseradish peroxidase (HRP), found in the roots of plant horseradish, is used extensively in biochemistry applications primarily for its ability to amplify a weak signal and increase detectability of a target molecule. It is a metalloenzyme with many isoforms and the most studied type is C.

The structure of the enzyme was first solved by X-ray crystallography in 1997 and has since has been solved several times with various substrates. It is an all alpha-helical protein which binds heme as a cofactor.

Alone, the HRP enzyme, or conjugates thereof, is of little value; its presence must be made visible using a substrate that, when oxidized by HRP using hydrogen peroxide as the oxidizing agent, yields a characteristic change that is detectable by spectrophotometric methods.

Numerous substrates for the horseradish peroxidase enzyme have been described and commercialized to exploit the desirable features of HRP. These substrates fall into several distinct categories. HRP catalyzes the conversion of chromogenic substrates (e.g., TMB, DAB, ABTS) into coloured products, and produces light when acting on chemiluminescentsubstrates (e.g. ECL).

Horseradish peroxidase is a 44,173.9-dalton glycoprotein with 6 lysine residues which can be conjugated to a labeled molecule. It produces a coloured, fluorimetric, or luminescent derivative of the labeled molecule when incubated with a proper substrate, allowing it to be detected and quantified. HRP is often used in conjugates (molecules that have been joined genetically or chemically) to determine the presence of a molecular target. For example, an antibody conjugated to HRP may be used to detect a small amount of a specific protein in a western blot. Here, the antibody provides the specificity to locate the protein of interest, and the HRP enzyme, in the presence of a substrate, produces a detectable signal.Horseradish peroxidase is also commonly used in techniques such as ELISA and Immunohistochemistry due to its monomeric nature and the ease with which it produces coloured products. Peroxidase, a heme-containing oxidoreductase, is a commercially important enzyme which catalyses the reductive cleavage of hydrogen peroxide by an electron donor.

Horseradish peroxidase is ideal in many respects for these applications because it is smaller, more stable, and less expensive than other popular alternatives such as alkaline phosphatase. It also has a high turnover rate that allows generation of strong signals in a relatively short time span.

Moreover, "In recent years the technique of marking neurons with the enzyme horseradish peroxidase has become a major tool. In its brief history, this method has probably been used by more neurobiologists than have used the Golgi stain since its discovery in 1870."

 

Design

In order to verify that the horseradish peroxidase and lignin peroxidase enzymes, which were not transformated and synthesized in bacteria in the past, worked; we decided to use a constitutive promoter. We chose the constitutive promoter as J23100, one of the strongest.  We wanted to be certain that our protein is surely produced due to the J23100 constitutive promoter that is 35 bp and coming after the prefix of 22 base pairs. The exhibition of our results in Western Blotting through the addition of a 6 histidin long his-tag at the end of the horseradish peroxidase C and lignin peroxidase 1 enzyme sequences, which contain BamH-I restriction cites that are followed by our ‘AAAGAGGAGAAA’ sequenced RBS, was added to our lab plans. This would in turn give us the safest experimental procedure to validate the presence of the proteins syntesized.

The accruity of our design was to be tested through getting the dye to react with the culture of bacteria containing enzymes that were to be rapidly synthesized through the constitutive promoter. The changes ranging from the visually observable changes in the color concentration to the shifts in the wavelenght absorbance which can only be detected through Varioskan approve the validity of our project. The degradation of the specified dyes by the lignin peroxidase and horsereadish peroxidase, enzymes we selected to breakdown these dyes, is enough to complete the rudimentary part of our project. The addition of the enzymes as a composite at the end of another part would enable the production of the protein in the sequence as well as the the enzymes enabling the response through an accelerated breakdown process.

Aside of the affirmation of the synthesis of the enzymes with the Western Blott results, to confirm the functionality of the proteins carries great importance. We came to the conclusion that working with several methods to verify the results would be more professional and certain:

-The confirmation of the enzyme activity can be done through collecting the data acquired through the observation of the interaction between the interaction of the specified dyes and DegradEcolor bacteria. For this feat to be accomplished, the selection of a dye that both lignin peroxidase and horseradish peroxidase can degrade in equivalent levels would be more reasonable. We chose Methylene blue as the dye to be used as it was degraded by the two enzymes in similar amounts during trials. The trials were consisting of the observation of the changes in the absorbance and color through the reactions between methylene blue and the two enzymes. The degradation of the dye plays a keyrole in the determination of the enzyme activity..

-HRP activity was assayed using 2,4-dichlorophenol and 4-aminoantipyrine as the substrates, substrates used to assay the activity of enzymes. LiP activity was assayed using veratryl alcohol as the substrate.

-While examining the general properties of the two designated enzymes, we found out that the horseradish peroxidase enzyme had the ability to determine the presence of a molecular target. If we are to recall the Western blott procedure we see the following:

The proteins in the lysate that were planted in the jel first run and transferred to the membrane afterwards. After being left to interact with the primary antibodies causing the immuglobins to bind with the specific binding site located on the protein.In the case of contamination or the absence of protein synthesis, no binding will be observed. After the completion of the binding of the primary antibodies, the secondary antibody binding process begins. While the secondary antibodies bind to the primary antibodies, they bring with them the horseradish peroxidase enzymes that are attached to them. The enhanced chemiluminescence solution does emission under the Western blotting device. The luminol in the enhanced chemiluminescence solution is oxidised by hydrogen peroxide, however this reaction can only occur in the presence of the horseradish peroxidase; as explained, if the proteins are correctly synthesized the horseradish peroxidase will cause oxygenation to take place causing emission. The same effect can be acquired through the horseradish peroxidase that is synthesized by DegradEcolor. In thıs case, the functionality of the enzyme could be proven after seeing emission from the interaction between the enhanced chemiluminescence solution and DegradEcolor or lysate prepared from DegradEcolor. As horseradish peroxidase was able to catalise the reaction of hydrogen peroxide, lignin peroxidase, another peroxidase enzyme, would most likely be able to have the same effect. We are expecting to see emission from the bacteria or lysate prepared from the bacteria that produce lignin peroxidase.

Dye Degradation

Methylene blue, the dye which the horseradish peroxidase and lignin peroxidase exhibited equivalent levels of degradation on, will show that DegradEcolor produced the functional proteins. Addition of the horseradish peroxidase or lignin peroxidase enzyme sequence to the composite part would make the part include a reporter system. If the part is coded and the enzyme is translated, the enzyme will be synthesized and change in methylene blue will be observed. Many deductions can be obtained with the results of the methylene blue degradation including the following:

-The bleeching of the dye color, which can be understood through qualitative observation, allowsus to reach certain conclusions. The bleeching of the color primarily indicates that the enzymes were synthesized. therefore no contamination took place. Apart from the synthesis factor, the conclusion that  the conformational structure is functional can be reached. This will in turn provide insight that the other desired proteins will also be synthesized. The system will also enable the ability to evaluate the efficiency of the system through the gradient of color concentration.

-The changes in absorbance will ease the acquirement of the certain results. The absorbance data can be used to prepare a professional and highly efficient scale for examination and use. The prepared scales can be used for comparison between the future experiments and the current experiments. It would be hard and even erronous to make judgement on strains that do not have high protein synthesis but the comparison between the acquired absorbance values and the scales not only  removes the risk factor but also gives the opportunity of making precise judgement in the absence of visual data.

 https://static.igem.org/mediawiki/2014hs/e/e3/Ekran_Al%C4%B1nt%C4%B1s%C4%B1.PNG

 

 

 

 

 

Advanced System

The main principle of our advanced system that has brought a new dimension to reporter systems lies in the variance in the activity levels of the lignin peroxidase and horseradish peroxidase enzymes. The enzymes to have effect on one specific dye at the same time would not bring us any experimental gain. For this reason, the advanced system contains two different dyes alongside the two enzymes. The system is built around the inability of one enzyme in degrading the one dye while the other can, while the opposite is true for the other dye. Experimental systems containing a complex unison of enzymes and dyes can be constructed.

To further enhance our project, we formed such a complex system. The bacteria were given two parts, one containing horseradish peroxidase while the other contains lignin peroxidase. The dyes that were selected were Methyl green and Azure-b. While methyl green is, as the name implies, green colored, azure-b has a color in between pink and purple. Horseradish peroxidase can effectively degrade methyl green but lacks the ability to effectively degrade azure-b meanwhile lignin peroxidase is active in the degradation of azure-b and lackluster in degrading methyl green.

If parts starting off with different inducible promoters were transformed to the same bacteria, different data from different conditions could be acquired. Think of a system in which the bacteria have inducible promoters that are oxygen sensitive and the other carbon dioxide sensitive. If methyl green and azure-b was to be added to cause interaction with the bacteria, the varying levels of oxygen and carbon dioxide would therefore result in different levels of enzymatic activity. Let’s say that the oxygen inducible bacteria contain genes that code for horseradish peroxidase and the carbon dioxide inducible bacteria contain genes that code for lignin peroxidase. The variation in the level of oxygen and carbon dioxide would change the rate of specific enzyme activity hence leading to a difference in the degradation levels of methyl green and azure-b. This would change the color of the resultant substrate thus allowing the identification of the activity of the inducible promoters. In this way, scales could be prepared for many different types of inducible promoters for countless possibilities.



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[i]  Veitch, Nigel C., Horseradish peroxidase: a modern view of a classic enzyme, Phytochemistry, 65, 2004, 249-259, 23-May-2010

[i] Ann B. Orth,  Daniel J. Royse, Ming Tien “Ubiquity of Lignin-Degrading Peroxidases among Various Wood-Degrading Fungi,” Applied and Environmental Microbiology (1993):4017-4023

[i]Annele Hatakka, “Lignin-modifying enzymes from selected white-rot fungi: production and role from in lignin degradation,” FEMS Microbiology Reviews (1994):125-135

[i] Renganathan V, Miki K, Gold MH (1985). "Multiple molecular forms of diarylpropane oxygenase, an H2O2-requiring, lignin-degrading enzyme from Phanerochaete chrysosporium". Arch. Biochem. Biophys. 241 (1): 304–14. doi:10.1016/0003-9861(85)90387-X. PMID 4026322

[i]Susana Camarero, Sovan Sarkar, Francisco Javier Ruiz-Dueñas,Marı́a Jesús Martı́nez and Ángel T. Martı́nez “Description of a Versatile Peroxidase Involved in the Natural Degradation of Lignin That Has Both Manganese Peroxidase and Lignin Peroxidase Substrate Interaction Sites,” Centro de Investigaciones Biológicas, Consejo Superior de Investigaciones Cientı́ficas, Velázquez 144, E-28006 Madrid, Spain, last accessed 06.21.2014, http://www.jbc.org/content/274/15/10324.short

[i] Jean Luc Wertz and Olivier Bedue, Lignocellulosic Biorefineries (Lausanne: EPFL Press, 2013), 278-286

[i]Wolfgang Blodiga, 1, Andrew T. Smithb, Kaspar Winterhaltera, Klaus Piontek “Evidence from Spin-Trapping for a Transient Radical on Tryptophan Residue 171 of Lignin Peroxidase,” Archives of Biochemistry and Biophysics (1999):86-92

[i] M. Yadav, P. Yadav, K. D. S. Yadav. “Purification, characterization, and coal depolymerizing activity of lignin peroxidase from Gloeophyllum sepiarium,” Biochemistry (Moscow) (2009):1125-1131

[i]  PDB 1GWU; Gajhede M, Schuller DJ, Henriksen A, Smith AT, Poulos TL (December 1997). "Crystal structure of horseradish peroxidase C at 2.15 A resolution". Nat. Struct. Biol. 4(12): 1032–8. doi:10.1038/nsb1297-1032. PMID 9406554

[i]  "Peroxidase C1A Related PDB sequences". UniPDB. European Bioinformatics Institute

[i] Veitch NC (February 2004). "Horseradish peroxidase: a modern view of a classic enzyme". Phytochemistry 65 (3): 249–59. doi:10.1016/j.phytochem.2003.10.022. PMID 14751298

 

[i] Akkara JA, Senecal KJ, Kaplan DL (October 1991). "Synthesis and characterization of polymers produced by horseradish peroxidase in dioxane". Journal of Polymer Science 29 (11): 1561–74. doi:10.1002/pola.1991.080291105

[i] Chau YP, Lu KS (1995). "Investigation of the blood-ganglion barrier properties in rat sympathetic ganglia by using lanthanum ion and horseradish peroxidase as tracers". Acta Anat (Basel) 153 (2): 135–44. doi:10.1159/000313647. PMID 8560966

[i] Lichtman JW, Purves D (1985). "Cell marking with horseradish peroxidase". Principles of neural development. Sunderland, Mass: Sinauer Associates. p. 114. ISBN 0-87893-744-7

[i]Part:BBa_J23100,” last accessed June 21, 2014, http://parts.igem.org/Part:BBa_J23100

[i]  J.K. Spiker, D.L. Crawford, E.C. Thiel, Appl. Environ.

[i]Microbiol. 37 (1992) 518–523.

[i] M. Tien, T.K. Kirk, Proc. Natl. Acad. Sci. U.S.A. 8 (1984)