Team:Tokyo Tech/Projects/PHAs/index.htm

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(PHB production by E.coli & Confirmation of PHB)
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=Perspective=
=Perspective=
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[[File:tokyotech PHA perspective.png|200px|thumb|right|fig6,]]
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[[File:tokyotech PHA perspective.png|200px|thumb|right|fig6,Cross-diffusion and pattern formation in reaction–diffusion systems
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Vladimir K. Vanag*w and Irving R. Epstein*
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Received 12th August 2008, Accepted 2nd October 2008
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First published as an Advance Article on the web 11th December 2008
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DOI: 10.1039/b813825g]]
The achievement of our project “Organic synthesis of PHA” is that we registered available PHA synthetic gene in Biobrick parts.
The achievement of our project “Organic synthesis of PHA” is that we registered available PHA synthetic gene in Biobrick parts.
We can control the expression of the PHA synthetic gene spatially by using combination of Biobrick parts. What we want to claim as an example of the spatial manipulation of gene expression is water-repellent. A stronger water-repellent requires hydrophobicity as well as the increase in real surface area that can be achieved as ruggedness of PHA adsorbed on particular surface. If we can control the expression of the PHA synthetic gene spatially by using genetic parts which are registered in Biobrick parts, the application of a super water-repellent sheet will become available. We note this as to the future prospects of our project.
We can control the expression of the PHA synthetic gene spatially by using combination of Biobrick parts. What we want to claim as an example of the spatial manipulation of gene expression is water-repellent. A stronger water-repellent requires hydrophobicity as well as the increase in real surface area that can be achieved as ruggedness of PHA adsorbed on particular surface. If we can control the expression of the PHA synthetic gene spatially by using genetic parts which are registered in Biobrick parts, the application of a super water-repellent sheet will become available. We note this as to the future prospects of our project.

Revision as of 11:45, 23 September 2012

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PHAs Production

Contents

Achivement

We made a new biobrick part and succeeded synthesizing Polyhydroixyalkanoates(PHAs). In our project, we designed rose silhouette to enhance the balcony scene of “Romeo and Juliet” by the synthesis of PHAs.

What is PHA?

Polyhydroixyalkanoates(PHAs) are biological polyester synthesized by a wide range of bacteria, and can be produced by fermentation from renewable carbon sources such as sugars and vegetable oils. These polyesters are biodegradable thermoplastics and elastomers, which exhibit interesting material properties. Bacteria produce PHAs for the storage of carbon and energy. When the bacteria can’t get enough nutrients from outside, these PHAs will be degraded and used as energy source. This function is quite similar to the one of lipid in human body. PHAs are also a kind of bio plastics, which can be biodegraded a lot faster than fossil-fuel plastics in the environment. Poly-3-hydroxybutyrate, P(3HB) is the most common type of PHAs. P(3HB) is synthesized by the enzymes coded in the gene of PHA synthesis (phaC1-A-B1) from Ralstonia eutropha H16.


Poly-3-hydroxybutyrate, P(3HB) is synthesized by three enzymes.

fig1
fig2

The A gene encodes for the 393 amino acids protein, 3-ketothiolase (PhaA)

The B gene encodes for the 246 amino acids protein, acetoacetyl-CoA reductase (PhaB)

The C gene encodes for the 589 amino acids protein, PHA Synthase (PhaC)




The pathway and regulation of P(3HB) synthesis in Ralstonia eutropha H16 is shown in Fig2. Acetyl CoA is metabolized from glucose by glycolysis and Pyruvate dehydrogenase complex (PDC). At first, two molecules of acetyl-CoA are ligated to one molecule acetoacetyl-CoA by the action of 3-ketothiolase (coded in phaA). Acetoacetyl-CoA is transformed into (R)-3-hydroxybutyl-CoA by NADPH dependent acetoacetyl-CoA reductase(coded in phaB). P(3HB) polymers are then synthesized by the polymerization of (R)-3-hydroxybutyryl-CoA by the action of PHA synthase (PhaC). In most of the cases, PHA synthase determines the characteristic of PHA being synthesized in microorganism.

Other teams

In this study, we constructed a part containing pha-C1-A-B1 in Biobrick format. We introduce some attempts in the past iGEM to show how great our work is in iGEM. There is no Biobrick part which worked as expected though some teams had tried to synthesize PHA in the past.[see more]

iGEM10_Caltech
iGEM10_INSA-Lyon
iGEM09_Duke
iGEM08_UtahState
iGEM08_tsinghua
iGEM08_Hawaii
iGEM08_Virginia


iGEM10_Caltech

Part number Description States experience
[http://partsregistry.org/wiki/index.php?title=Part:BBa_K338003 BBa_K338003]PHA Synthase Composite, Part 1/2planning
[http://partsregistry.org/wiki/index.php?title=Part:BBa_K338004 BBa_K338004]PHA Synthase Composite, Part 1/2Available

They couldn’t prove that their engineered bacteria produced PHB according to the team wiki.

Production of PHAs by E.coli

Construction of pha-C1-A-B1 in Biobrick format

fig3,

To construct a part that meets Biobrick format, we have modified the pha-C1-A-B1 operon not to contain forbidden restriction enzyme sites. First, we cloned the wild type gene pha-C1-A-B1 from R.eutropha H16 by using PCR and inserted the gene into pSB1C3. However, wild type pha-C1-A-B1 gene sequence contains one NotI and three PstI recognition sites that are not allowed in Biobrick format. To get pha-C1-A-B1 sequence without these recognition sites, we ordered the chemically synthesized DNA from IDT/MBL. In this chemically synthesized DNA, coding is optimized for E.coli. That is to say, we got PHB synthesizing gene in Biobrick format([http://partsregistry.org/wiki/index.php?title=Part:BBa_K934001 BBa_K934001]).


PHB production by E.coli & Confirmation of PHB

To synthesize PHB by E.coli, we transformed E.coli JM109 with the constructed phaC1AB1 parts on PSB1C1([http://partsregistry.org/wiki/index.php?title=Part:BBa_K934001 BBa_K934001]). JM109 is used to synthesize PHB, because it tends to have a high density accumulation of PHB.As a negative control, we transformed E.coli JM109 with plasI-gfp on PSB1C1 . [see more]

Perspective

fig6,Cross-diffusion and pattern formation in reaction–diffusion systems Vladimir K. Vanag*w and Irving R. Epstein* Received 12th August 2008, Accepted 2nd October 2008 First published as an Advance Article on the web 11th December 2008 DOI: 10.1039/b813825g

The achievement of our project “Organic synthesis of PHA” is that we registered available PHA synthetic gene in Biobrick parts. We can control the expression of the PHA synthetic gene spatially by using combination of Biobrick parts. What we want to claim as an example of the spatial manipulation of gene expression is water-repellent. A stronger water-repellent requires hydrophobicity as well as the increase in real surface area that can be achieved as ruggedness of PHA adsorbed on particular surface. If we can control the expression of the PHA synthetic gene spatially by using genetic parts which are registered in Biobrick parts, the application of a super water-repellent sheet will become available. We note this as to the future prospects of our project.

Reference

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