SDU-Denmark/5 July 2010

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Phototaxis
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Progress report:<br><br>
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'''Phototaxis'''
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''BioBrick Design:'' We designed and ordered the following primers:<br>
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''Progress report:''<br><br> Today we've designed primers and worked out how we plan to characterize our light sensor. The experiment has to determine how much our protein stimulates the kinase activity of CheA, and in turn the phosphorylation of CheY. We plan to measure directly on CheY.
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// Melting points calculated: http://www.basic.northwestern.edu/biotools/oligocalc.html (Oligocalc)<br><br>
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NpSRII-HtrII-EcTsr primers:<br>
 
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''Eksperiment:''
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- first we create a suspension of cells in water, keeping them in the dark until the experiment.
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- Then we take  small microcapillary tubes, and use them to draw a specific amounts of fluid and bacteria from the suspension, as to ensure equal amounts of protein in our gels, more on which later.
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- We will then ad radio labeled ATP to our cells. (This step might be done earlier)
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- We now shine a colored light into our tube, varying wavelength and intensity in separate experiments.
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- After an equal length of time for each tube, we lyse the cells, and run the proteins through a gell.
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- We might need to tag our CheY with antibodies to show them, but in theory the only proteins that should increase in phosphorylation states would be CheY and CheA, and therefore the remaining bands should stay unchanged.
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We hope to show how the kinase activity of CheA on CheY is stimulated by our blue light, which wavelengths are optimal, and whether varying intensity of light has an effect on activity.
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''BioBrick Design:'' We designed and ordered the following primers:<br>
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// Melting points calculated with Oligocalc [http://www.basic.northwestern.edu/biotools/oligocalc.html]<br>
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''NpSRII-HtrII-EcTsr primers'':<br>
Upstream primer:<br>
Upstream primer:<br>
5' - GTTTCTTCGAATTCGCGGCCGCTTCTAGATGGTGGGACTTACG - 3' (Melting point basic: 71°C)<br><br>
5' - GTTTCTTCGAATTCGCGGCCGCTTCTAGATGGTGGGACTTACG - 3' (Melting point basic: 71°C)<br><br>
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5' - GTTTCTTCCTGCAGCGGCCGCTACTAGTATTATTATTAAAATGTTTCCCAGTTCTCCTCG - 3' (Melting point basic: 71°C)<br><br>                   
5' - GTTTCTTCCTGCAGCGGCCGCTACTAGTATTATTATTAAAATGTTTCCCAGTTCTCCTCG - 3' (Melting point basic: 71°C)<br><br>                   
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''ninaB primers (Retinal enzym)'':<br>
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ninaB primers (Retinal enzym):<br>
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Upstream primer:<br>
Upstream primer:<br>
5' - GTTTCTTCGAATTCGCGGCCGCTTCTAGATGGCAGCCGGTGTCTTCAA - 3' (Melting point basic: 73°C)<br><br>
5' - GTTTCTTCGAATTCGCGGCCGCTTCTAGATGGCAGCCGGTGTCTTCAA - 3' (Melting point basic: 73°C)<br><br>
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References:<br><br>
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References:<br> OligoCalc: http://www.basic.northwestern.edu/biotools/oligocalc.html
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Flagella<br><br>
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'''Flagella'''<br><br> Today we have designed mutation primers, to remove a Pst1 site inside our operon. We have planned a silent mutation, so if we get it right it shouldn't affect our final protein.
''Biobrick design:'' <br>
''Biobrick design:'' <br>
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FlhDC mutationsprimers:<br>
FlhDC mutationsprimers:<br>
Passer til komplimentærstrengen:<br>
Passer til komplimentærstrengen:<br>
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5' - GACATAAGCTGCGGGCAAAGCTGCC - 3' (Melting point basic: 63°C)<br><br>
5' - GACATAAGCTGCGGGCAAAGCTGCC - 3' (Melting point basic: 63°C)<br><br>
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--[[User:CKurtzhals|CKurtzhals]] 20:04, 5 July 2010 (UTC)
'''Modelling:'''
'''Modelling:'''

Latest revision as of 12:28, 16 July 2010