Week 9

From 2007.igem.org

(Difference between revisions)
Line 10: Line 10:
- model;
- model;
-
- LacI cloning under the pTetR ([http://partsregistry.org/Part:BBa_R0040 R0040])promoter control.  
+
- LacI cloning under the pTetR ([http://partsregistry.org/Part:BBa_R0040 R0040]) promoter control.  
*We transform new biobricks: [http://partsregistry.org/Part:BBa_E0020 E0020] and [http://partsregistry.org/Part:BBa_R0040 R0040]
*We transform new biobricks: [http://partsregistry.org/Part:BBa_E0020 E0020] and [http://partsregistry.org/Part:BBa_R0040 R0040]

Revision as of 08:53, 18 September 2007

08/27/07



08/28/07
  • Lab meeting on:

- model;

- LacI cloning under the pTetR (R0040) promoter control.

08/29/07



08/30/07
  • There are colonies in the 07/30/07 plates.
  • We inoculate a E0020 and R0040 colony in 5ml.
  • We perform some tests to set up the fluorescence acquisition with the PMT (photomultiplier tube).


08/31/07
  • Miniprep of :

-I763012 + J06550

-I763012+ S0103 (I763016);

-B0034 + J22101 (missed in the sandbox);

-B0034 + J04631 (I763020);

-E0022 ;

-R0040.

  • Digestion for:

-I763012 + S0103 with Spe/Pst1;

-B0034 + J22101 with Xba/Pst1;

-B0034 + J04631 (I763020) with Xba/Pst1;

-E0022 with Xba/Pst1 ;

-R0040 with Spe/Pst1.

  • Band extraction from gel for:

-I763012+ S0103 ((I763016);

-B0034 + J22101 (missed in the sandbox);

-B0034 + J04631 (I763020);

-E0020 ;

-R0040.

  • Ligations at 15°C for 3h for:

-I763016+I763020;

-R0040+S0100;

-R0040+S03520;

-I763005+I763015;

-J52034+E0022;

  • Transformation of all ligations.
  • We find colonies for all ligations, except for the first one.
  • Photomultiplier adjustements

We decided to go on with our fluorescence measurements using not only the photo camera but also the photomultiplier described in the "Materials and Methods" section on our Homepage.

So, we have to adjust the PMT 814 features. First of all we calibrate this instrument by regulating the output offset to have a 0.00 output in case of photomultiplier in total darkness. Then, we adjust the PMT 814 time constant to 50 ns and its gain to 10^(-3) microA/V.

After that we have to cut the photomultiplier field of view, in order to have it the same size as the microscope's one: we do that by moving the appropiate diaphragms.

Then, we have to adjust the external voltage, a sort of gain which is useful to mantain our output signal below 10 volts as prescribed. As the maximum possible output signal, we take a field of view that contains a fluorescent bacteria population at saturation; then we make it match with a 10.00 volts output by regulating the external gain.


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