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University of Sheffield/18 July 2008
From 2008.igem.org
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| style="background-color: green;" | <span style="color: white;">It is seen from the cascading pathway (''above'') how the gene A-E is not synthesized as repressor gene attaches with the promoter. The pathway starts from autoinducer receptor. </span> | | style="background-color: green;" | <span style="color: white;">It is seen from the cascading pathway (''above'') how the gene A-E is not synthesized as repressor gene attaches with the promoter. The pathway starts from autoinducer receptor. </span> | ||
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| + | {| border="5" cellspacing="5" cellpadding="2" | ||
| + | | style="text-align: center;" | [[Image:Meeting_Shef1.png | 500px]] | ||
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| + | ! Low cell density (''V.Cholera'') | ||
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| + | | style="background-color: green;" | <span style="color: white;">The cascading pathway(''above'') is similiar to the one of ''V.harveyi'' but with a slight difference. In ''V.Cholera'' HapR i.e. the promoter site is not intact with the repressor gene thus transcription of virulence takes place. </span> | ||
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Revision as of 00:31, 19 July 2008
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| Low cell density (V.harveyi) |
|---|
| It is seen from the cascading pathway (above) how the gene A-E is not synthesized as repressor gene attaches with the promoter. The pathway starts from autoinducer receptor. |
|
| Low cell density (V.Cholera) |
|---|
| The cascading pathway(above) is similiar to the one of V.harveyi but with a slight difference. In V.Cholera HapR i.e. the promoter site is not intact with the repressor gene thus transcription of virulence takes place. |
