“This
opens up possibilities for future sustainable production of renewable fuels
that at first could complement, and thereafter replace fossil fuels like
diesel, petrol, natural gas and jet fuel,”
Dr Patrik Jones of
Imperial College London on the use of Genetically Modified Escherichia Coli
Bacteria to make Propane
Since
its genome was decoded, genetically Modified Escherichia Coli Bacteria can be used to make all
kinds of things.
The
coolest use that I know is to make Spider Silk, pioneered by Dr. My Hedhammar of the Swedish
University of Agricultural Sciences and Director of R&D at Spiber
Technologies in Uppsala as described in my blog article
entitled “USTAR
produces Spider Silk From Transgenic Silkworms and Japanese Spiber from
Transgenic Escherichia Coli Bacteria - Spider Silk's big trend in Fabrics which
means I’m Out Ciara and Nikki Minaj Style”.
But I’ve found yet another more
practical use; making Propane Fuel as stated in the article “Biofuels:
E Coli Modified To Make Engine-Ready Propane”, published 9/05/2014 @ 2:14PM
by Paul Rodgers, Forbes Magazine.
This is the result of collaboration
between the Imperial University College London and University of Turku led by
Dr Patrik Jones of the Imperial University College London achieved this feat by
modifying how the Escherichia Coli
converts Fatty Acids into cellular membranes as reported in “Bacteria
May Provide the Key to Sustainable Energy”, published 02 September 2014 by
Dr. Patrik R. Jones et al, University of Turku.
The full team that worked on this
groundbreaking project is as follows:
1. Dr Patrik Jones of the Imperial
University College
2. Dr. Pauli Kallio of the University
of Turku’s Department of Biochemistry
3. Dr. Andras Pasztor of the University
of Turku’s Department of Biochemistry
4. Dr. Kati Thiel of the University of
Turku’s Department of Biochemistry
5. Dr. Kalim Akhtar of University
College London
With that many PhD this discovery
better be good and is certainly appears to be, based on their work published in
the Journal Nature Communications as stated in “An
engineered pathway for the biosynthesis of renewable propane”, published
02 September 2014 by Dr. Patrik R. Jones et al, NATURE
COMMUNICATIONS has huge implications as to how Propane Fuel can be
produced.
Potentially this could be used to
break down Oils form any Organic Source, such as dead animals or even Recycled
Cooking Oil and convert it into Propane for Generators and even cooking. It's
groundbreaking on the same level as the EU (European Union)-backed SOLAR-JET
Project.
Back in May 2014 they'd discovered a
way to convert Carbon Dioxide (CO2) into SynGas and then Kerosene
via the Fischer–Tropsch Process as explained in my blog article
entitled “SOLAR-JET
Project create Kerosene from Syngas - How Fresnel Lens in SynGas for
Fischer–Tropsch Process means Fossil Fuel a Renewable Resource by 2017”.
So how does it work? It’s really as
simple as 1-2-3!
Escherichia Coli makes Propane - Waste Cooking Oil can be
used to Cook more Food
The Researchers genetically modified
the Escherichia Coli with three (3)
new enzymes:
1.
Thioesterase
that breaks down fatty Acids to butyric acid, an organic acid with a very bad
odour.
2.
CAR
(carboxylic acid reductase) turned this butyric acid into butyraldehyde
3.
ADO
(aldehyde-deformylating oxygenase) turns butyraldehyde into Propane
Because the Escherichia Coli Bacteria needs energy to do its work, feeding it
with the very fatty acids it was to convert to fuel wasn't an option. Thus they
had to artificially stimulate it using electricity, effectively adding that
Frankenstein touch to this project.
The output of Propane Gas from the
Genetically modified Escherichia Coli
is miniscule and being an organic reactor, takes awhile to build up significant
volume, making this definitely not ready for prime time, possibly achievable in
the next 10 years, to quote Lead Researcher on the Project Dr Patrik Jones of
the Imperial University College: “We don’t have a full grasp of exactly how the
fuel molecules are made, so we are now trying to find out exactly how this
process unfolds. I hope that over the next five to ten years we will be able to
achieve commercially viable processes”.
One way of doing that is using genetically
modified Cyanobacteria, which can process Sunlight in a photosynthetic process.
This would eliminate the need for electrical stimulation as it can use the
Sunlight as an energy source.
Renewable Cooking Oil– How Waste Cooking Oil is recycled
into Propane ad infinitum
This Genetically modified Escherichia Coli could convert this
Waste Cooking Oil to Propane for direct use in the kitchen for cooking without
the need to build a biodigester and use methanobacter Bacteria to anaerobically
decompose this Waste Cooking Oil into Propane.
It's effectively a biochemistry
solution to the same problem that University of the West indies Lecturer, Dr.
Michael Coley in collaboration with a NGO (Non-Governmental Organization) YCWJ
(Youth Crime Watch Jamaica) is working on, which is to convert Waste Cooking
Oil into BioDiesel as described in my blog article
entitled “UWI
and YCWJ team up to Recycle Waste Cooking Oil - Yendi Phillipps on How to make
National Bio-Diesel Production from Waste Cooking Oil Insidious Chapter 2”.
Like Dr. Michael Coley's Project in
the Department of Chemistry, practicality is part of the reason why Dr Patrik
Jones of the Imperial University College chose to do his research into making
Genetically modified Escherichia Coli
do this, quote: “We chose Propane because it can be separated from the natural
process with minimal energy and it will be compatible with the existing
infrastructure for easy use”.
That’s right folks!
When this becomes commercial, you
can literally use Waste Cooking Oil to make the very same BioDiesel to drive
your vehicle and Propane Gas to cook the very same food, generating more Waste
Cooking Oil and thus make the process self-sustaining. Something tells me the
makers of Propane Gas may not like where this may be heading in the next few
years.
Still, like the SOLAR-JET Project to
create fuel literally out of thin air, this holds out the potential of solving
the problem of what to do with Waste Cooking Oil. Hundred of Gallons of this
stuff is also produced in London, England from various eateries and it can't be
poured down the drain as it decomposes slowly, clogging waterways and killing
soil bacteria.
Akin to Dr. Michael Coley's Project,
it can turn Waste into Fuel for immediate use with the very Waste Cooking Oil
continuing the process sustainably.
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