Difference between revisions of "Team:Uppsala/Worm Culturing/Experiment"

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<br><img src="https://static.igem.org/mediawiki/2018/8/80/T--Uppsala--separator.png" height="70%" width="70%"> <p>
 
<br><img src="https://static.igem.org/mediawiki/2018/8/80/T--Uppsala--separator.png" height="70%" width="70%"> <p>
<p><b>Figure 4:</b> shows the result from a sterilization test. The aliquote that was put into the rightmost flask proved to be sterile<br>
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<b>Figure 5:</b> microfluidics chip<br>
<p>The chip presented a single channel that splits in 2. The solution containing both types of nematodes, and any kind of contaminant, can be pumped inside the single channel. 2 valves, connected to the 2 split channels, can be used to redirect the flow from the main channel to one of the 2. Positioning this chip under a microscope, and analysing a strongyle when reaching the bifurcation allows the determination of the nature of the nematode. The flow is then directed towards the collection tubes. <p>
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<p>This system, even though it doesn’t allow an immediate separation of all the large strongyles from the sample, leads to a quicker separation compared to hand picking. A low flow pump, such as a pressure or a syringe pump, is required. These details are described in the protocol we developed.<br>
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<p>The chip presented a single channel that splits in 2. The solution containing both types of nematodes, and any kind of contaminant, can be pumped inside the single channel. 2 valves, connected to the 2 split channels, can be used to redirect the flow from the main channel to one of the 2. Positioning this chip under a microscope, and analysing a strongyle when reaching the bifurcation allows the determination of the nature of the nematode. The flow is then directed towards the collection tubes. </p>
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<p>This system, even though it doesn’t allow an immediate separation of all the large strongyles from the sample, leads to a quicker separation compared to hand picking. A low flow pump, such as a pressure or a syringe pump, is required. These details are described in the protocol we developed.</p><br>
  
 
<h2>Co-culturing</h2>
 
<h2>Co-culturing</h2>
<p>So, having achieved sterilisation of the small strongyles, the question is what do we do with them? The next step was the co-culturing. In this process we grew bacteria in media containing the newly sterilised nematodes. The bacteria are cultured with the nematodes for around 4 h, enough time to allow the bacteria to develop a genetic response to the presence of the strongyles in the media, in order to detect the response on the transcriptomic level. We chose to work with MG1665 as our E. coli strain as it closely resembles the K-12 wild-type, which is the strain closest to the E. coli that is naturally found in the gut of horses, having a higher probability of possessing a response system for the presence of nematodes. As growth media we chose M9, a minimal media, in order to minimise the noise from the expression of common metabolism related proteins. <p>
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<p>So, having achieved sterilisation of the small strongyles, the question is what do we do with them? The next step was the co-culturing. In this process we grew bacteria in media containing the newly sterilised nematodes. The bacteria are cultured with the nematodes for around 4 h, enough time to allow the bacteria to develop a genetic response to the presence of the strongyles in the media, in order to detect the response on the transcriptomic level. We chose to work with MG1665 as our E. coli strain as it closely resembles the K-12 wild-type, which is the strain closest to the E. coli that is naturally found in the gut of horses, having a higher probability of possessing a response system for the presence of nematodes. As growth media we chose M9, a minimal media, in order to minimise the noise from the expression of common metabolism related proteins. </p>
  
 
<p>The co-culture was started from an OD of around 0.05, and was allowed to grow until an OD of 0.8. Once the bacteria were done growing, the strongyles had to be removed, which was achieved by vacuum filtration through a Whatman n°1 filter, which allows the passage of bacteria but not of the nematodes. The filtration done, the bacteria were ready to be handed over to the transcriptomics group for further study.<p>
 
<p>The co-culture was started from an OD of around 0.05, and was allowed to grow until an OD of 0.8. Once the bacteria were done growing, the strongyles had to be removed, which was achieved by vacuum filtration through a Whatman n°1 filter, which allows the passage of bacteria but not of the nematodes. The filtration done, the bacteria were ready to be handed over to the transcriptomics group for further study.<p>

Revision as of 15:49, 15 October 2018