Team:Brown-Stanford/REGObricks/Balloon

From 2011.igem.org

(Difference between revisions)
(Balloon Flights)
(Balloon Flights)
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===='''Survival in Extremophile conditions- Balloon Launches'''====
===='''Survival in Extremophile conditions- Balloon Launches'''====
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[[File:Brown-Stanford-Lynnpic.JPG|400px||center| thumb|Flight Summary]]
Working at NASA Ames, we had the good fortune of meeting Jack Cackler, who was trying to prototype small balloon launches to the stratosphere. Located at 10 to 50 kilometers above the ground, the stratosphere has conditions that are out of this world: a temperature range of -56 to -3°C (it actually increases as you ascend), and atmosphere 0.001 percent of that of earth’s sea level.   
Working at NASA Ames, we had the good fortune of meeting Jack Cackler, who was trying to prototype small balloon launches to the stratosphere. Located at 10 to 50 kilometers above the ground, the stratosphere has conditions that are out of this world: a temperature range of -56 to -3°C (it actually increases as you ascend), and atmosphere 0.001 percent of that of earth’s sea level.   
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Our first balloon went up to 80,000 ft (24 kilometers), from which the curvature of the earth was visible.  
Our first balloon went up to 80,000 ft (24 kilometers), from which the curvature of the earth was visible.  
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[[File:Brown-Stanford-bacteriaafterflight.JPG|300px|thumb|Qualitative Survival Analysis after Balloon Flight]]
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[[File:Brown-Stanford-bacteriaafterflight.JPG|300px||center| thumb|Qualitative Survival Analysis after Balloon Flight]]
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[[File:Brown-Stanford-bacteriaafterflight2.JPG|300px|thumb|Qualitative Survival Analysis after Balloon Flight]]
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[[File:Brown-Stanford-bacteriaafterflight2.JPG|300px||center| thumb|Survival Summary Analysis after Balloon Flight]]
Unfortunately, our ''S. pasteurii'' cargo, as well as all other cargo, did not survive the first flight.  
Unfortunately, our ''S. pasteurii'' cargo, as well as all other cargo, did not survive the first flight.  
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During our second flight (accompanied by the '''[https://2011.igem.org/Team:Brown-Stanford/BBC BBC]''' ), we prepared the ''S. pasteurii'' inside [http://www.enasco.com/c/whirlpak/Whirl-Pak%26%23174%3B+Bags/ Whirlpak bags]. Surprisingly enough, upon retrieval, the the samples inside the Whirlpak bags exhibited urease activity! The ones outside the bags did not, though mysteriously enough both samples grew back on Bang media plates in seemingly equal quantities. Further experimentation must be done to ascertain the exact nature of the survival.
During our second flight (accompanied by the '''[https://2011.igem.org/Team:Brown-Stanford/BBC BBC]''' ), we prepared the ''S. pasteurii'' inside [http://www.enasco.com/c/whirlpak/Whirl-Pak%26%23174%3B+Bags/ Whirlpak bags]. Surprisingly enough, upon retrieval, the the samples inside the Whirlpak bags exhibited urease activity! The ones outside the bags did not, though mysteriously enough both samples grew back on Bang media plates in seemingly equal quantities. Further experimentation must be done to ascertain the exact nature of the survival.
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[[File:Brown-Stanford-Flight Trajectory.JPG|300px||center| thumb|Flight Trajectory]]
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Our original grand plan was to have one final balloon flight, after our transformation of ''S. pasteurii'' with Newcastle 2009’s sporulation regulation gene, to see if induced sporulation could have increase the percentage of survivors. Unfortunately, difficulties in transforming ''S. pasteurii'' put this this plan on hold.
Our original grand plan was to have one final balloon flight, after our transformation of ''S. pasteurii'' with Newcastle 2009’s sporulation regulation gene, to see if induced sporulation could have increase the percentage of survivors. Unfortunately, difficulties in transforming ''S. pasteurii'' put this this plan on hold.

Revision as of 16:32, 28 September 2011

Brown-Stanford
iGEM

Balloon Flights

Survival in Extremophile conditions- Balloon Launches

Flight Summary

Working at NASA Ames, we had the good fortune of meeting Jack Cackler, who was trying to prototype small balloon launches to the stratosphere. Located at 10 to 50 kilometers above the ground, the stratosphere has conditions that are out of this world: a temperature range of -56 to -3°C (it actually increases as you ascend), and atmosphere 0.001 percent of that of earth’s sea level. To take advantage of this rare opportunity, we prepared two dried samples of S. pasteurii to be sent up in the balloon, to test the ability of the bacteria to withstand the extremes in temperature, depressurization and radiation bombardment. Note that the microbes we flew were not genetically altered.

Materials for the Stratospheric Balloon Flight

Thorough Protocols for the preparation can be found here

Our first balloon went up to 80,000 ft (24 kilometers), from which the curvature of the earth was visible.

Qualitative Survival Analysis after Balloon Flight
Survival Summary Analysis after Balloon Flight

Unfortunately, our S. pasteurii cargo, as well as all other cargo, did not survive the first flight. first

Our second balloon went up to 110,000 ft (33.5 kilometers), where the atmosphere was slightly below that of Mars.

During our second flight (accompanied by the BBC ), we prepared the S. pasteurii inside [http://www.enasco.com/c/whirlpak/Whirl-Pak%26%23174%3B+Bags/ Whirlpak bags]. Surprisingly enough, upon retrieval, the the samples inside the Whirlpak bags exhibited urease activity! The ones outside the bags did not, though mysteriously enough both samples grew back on Bang media plates in seemingly equal quantities. Further experimentation must be done to ascertain the exact nature of the survival.

Flight Trajectory


Our original grand plan was to have one final balloon flight, after our transformation of S. pasteurii with Newcastle 2009’s sporulation regulation gene, to see if induced sporulation could have increase the percentage of survivors. Unfortunately, difficulties in transforming S. pasteurii put this this plan on hold.