Difference between revisions of "Team:Newcastle/Results/Endophyte1"

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        <h3 class="h2">Week Beginning 06/08</h3>
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<p><font size="3"> Using seedlings inoculated with wild type <i>Pseudomonas sp.</i>, DAPI staining and bright field microscopy were used to visualise the relationship between plant and bacteria. This revealed a biofilm was present on the surface of the root however it was unclear if the bacteria was inside the root, so seedlings were washed in distilled water. Examination of the cleaned seedlings revealed clear signs of colonisation and <i>Pseudomonas sp.</i> was present in intercellular spaces along both the root and hypocotyl. The bacteria were still motile and we could see them moving in real time.</p>
  
                  <p><font size="3">Pure cultures were obtained following plating out of the sample that arrived from DSMZ.</font></p>
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<img src="https://static.igem.org/mediawiki/2018/4/47/T--Newcastle--Pseudomonas.WT.Micro.jpg">
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<p><font size="2">Figure 14. Bright field microscopy of a DAPI stained <i>Arabidopsis thaliana</i> root at 40x magnification. Wild type <I>Pseudomonas sp.</i> is visible in the intercellular spaces.</p>
  
 
    
 
    

Revision as of 11:57, 15 October 2018

Alternative Roots/Results

Alternative Roots

Endophytic Chassis Results

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RESULTS

Developing Pseudomonas as a new endophytic chassis

Using seedlings inoculated with wild type Pseudomonas sp., DAPI staining and bright field microscopy were used to visualise the relationship between plant and bacteria. This revealed a biofilm was present on the surface of the root however it was unclear if the bacteria was inside the root, so seedlings were washed in distilled water. Examination of the cleaned seedlings revealed clear signs of colonisation and Pseudomonas sp. was present in intercellular spaces along both the root and hypocotyl. The bacteria were still motile and we could see them moving in real time.

Figure 14. Bright field microscopy of a DAPI stained Arabidopsis thaliana root at 40x magnification. Wild type Pseudomonas sp. is visible in the intercellular spaces.





REFERENCES & Attributions

Attributions: Frank Eardley and Lewis Tomlinson