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| | <b><u>Light Sensor Protocols</u></b> | | <b><u>Light Sensor Protocols</u></b> |
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| - | To carry out a typical Green light inducible GFP experiment:
| + | <b>Light Testing Media:</b> |
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| - | 1. Transform plasmids containing pLPCB and pJT119B operon to a competent cell. Our lab uses JT2 (Tabor, J. J. et al., Multichromatic Control of Gene Expression in Escherichia coli, J. Mol. Biol. (2010), doi:10.1016/j.jmb.2010.10.03) cells for gfp output testing.
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| - | 2. Plate cells on LB agar plates with XXX and XXX antibiotics. See table below for list of systems and plasmids with their required antibiotics.
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| - | 3. After incubation at 37 oC overnight, pick a single colony, and inoculate 5 mL of LB medium in a 50 mL Falcon tube.
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| - | 4. Grow cultures to saturation overnight at 37 oC with shaking.
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| - | 5. Determine cell density (O.D.600 measurement), and dilute overnight cultures to a final O.D.600 of 1x10-4 in M9 minimal medium supplemented with casamino acids
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| - | (link: http://openwetware.org/wiki/M9_salts 5x m9salts)
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| - | (link: http://openwetware.org/wiki/Endy:M9_media/supplemented m9 supplemented)and appropriate antibiotics.
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| - | For 96 well plates:
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| - | 1. Pipette 260 ul of the inoculated M9 + Casamino acid media
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| - | (link: http://openwetware.org/wiki/M9_salts 5x m9salts)
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| - | (link: http://openwetware.org/wiki/Endy:M9_media/supplemented into each well of interest in a clear bottomed black 96 well plate (Supplier information -- maybe even the name).
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| - | 2. Cover the plate with breathable tape.
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| - | 3. Orient the 96 well plate on the tablet such that the wells line up with the appropriate light source on the the tablet.
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| - | 4. Secure the 96 well plate on top of the tablet with tape.
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| - | 5. Incubate tablet and 96 well plate on an orbital shaker (RPM?) for 8 hours at 37 oC.
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| - | 6. Remove 200 ul of culture from each well, and pipette them to 96 well plates for analysis (Highlight analysis and link to pertinent protocol).
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| - | 96 well analysis (GFP expression):
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| - | 1. GFP expression levels are analyzed on a spectramax m5e plate reader (bottom read) with an excitation of 480 nm, and emission at 520nm. Set the plate reader to automix the samples for 5 seconds prior to analysis.
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| - | 2. GFP expression levels were normalized against cell density by dividing the relative fluorescence unit values by O.D.600 data.
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| - | For 60mm mini petridish:
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| - | 1. Add 7.5ml of the inoculatted M9+cassamino acid media into the plate which is labelled for green light testing.
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| - | 2. Add another 7.5ml of the inoculated media and a put it into another plate which is labelled as dark for the dark condition test.
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| - | 3. Foil the mini petri dish for the dark ones.
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| - | 4. Get another clear 60mm mini petri dish and then use it as a spacer plate from the tablet to the testing petri dish which will sit on top of the green light. This will prevent overheating of the culture. (refer to supplemental image)
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| - | 5. Tape both spacer and testing petri dish ontop of the testing tablet securely and put them on top of the orbital shaker in the 37C incubator.
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| - | 6. After eight hours, take 200ul of the culture which has been growing on top of the shaker and pipette them to 96well plates for RFU plate reading
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| - | 7. We took the Optical density of the cells with lambda 600nm
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| - | 8. Also took endpoint fluorescence which is excitation= 480nm, emission= 520nm, autocutoff= 515nm. Automixed 5seconds before reading.
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| - | 9. Then we normalized RFU(relative fluorescence unit) with the optical density by dividing the RFU with the OD.
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