Berkeley LBL/Mimi-SchlD

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(Difference between revisions)
('''Construction of ''pET3A-(S)-chlHID'':''')
('''Construction of ''pET3A-(S)-chlHID'':''')
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Plate onto LB Agar + Carb plate
Plate onto LB Agar + Carb plate
 +
'''October 09, 2007'''
'''October 09, 2007'''

Revision as of 07:10, 26 October 2007

Construction of pET3A-(S)-chlHID:

October 01, 2007

1. Amplify Synechocystis-Cyanobacteria gene S-chlD by PCR (Using Phusion Polymerase) using the following conditions:

           PCR:
           1 ul Schl-D
           10 ul HF Buffer 5x
           1 ul dNTP
           5 ul primer mix
           0.5 ul Phusion
           32.5 ul H2O
           --------------
           50 ul total
           Conditions:
           98°C        30s
           98°C        8s
           61°C        30s
           72°C        1:10m
           Go to 2 for additional 29 cycles
           72°C        10m
           4°C         ---  


Amplification introduces sites SpeI-rbs and NotI-BglII into the gene.

2. Amplification is followed by DNA Gel Electrophoresis is used to confirm that the length of the PCR fragment is the same as the corresponding gene (~2kb).

3. PCR Clean Up/Purification

4. Restriction Digestion of gene S-chlD with SpeI and NotI using the following conditions:

Schl-D Sequential Restriction Digestion:

           Digestion #1
           43 ul Schl-D
           5 ul NEB 2 (10x)
           0.5 ul BSA (100x)
           1.5 ul SpeI

2 hour digestion in 37°C

Add 0.5 ul SpeI

30 min digestion in 37°C

Clean Up/Purification

           Digestion #2
           43 ul Schl-D
           5 ul NEB 3 (10x)
           0.5 ul BSA (100x)
           1.5 ul NotI

2 hour digestion in 37°C

Add 0.5 ul NotI

30 min digestion in 37°C


October 07, 2007

5. Add a scrape of pET3A-(S)-HI glycerol stock to 4 mL LB + 4 mL Carb and let grow overnight in 30°C shaker

6. Miniprep cultures and prepare for digestion.

7. Restriction Digestion of plasmid pET3A-(S)-schlHI with SpeI and NotI using the following conditions:

Sequential Restriction Digestion for pEt3A-(S)-HI:

           Digestion #1:
           43 ul pEt3A-(S)-HI
           5 ul NEB 2 (10x)
           0.5 ul BSA (100x)
           1.5 ul SpeI

2 hour digestion in 37°C

Add 0.5 ul SpeI

30 min digestion in 37°C

Clean Up/Purification

           Digestion #2:
           43 ul pEt3A-(S)-HI
           5 ul NEB 3 (10x)
           0.5 ul BSA (100x)
           1.5 ul NotI

2 hour digestion in 37°C

Add 0.5 ul NotI

30 min digestion in 37°C

8. Gel Extraction is performed to isolate the correct bands for both digestions (~2kb and ~10kb).

9. Ligate S-chlD to plasmid pET3A-(S)-chlHI", yielding plasmid "pET3A-(S)-chlHID" using the following conditions:

          12 ul pET3A-(S)-HI
          4 ul Schl-D
          2 ul Ligase Buffer
          1 ul Ligase Enzyme
          1 ul H2O        
          -------------------
          20 ul total


October 08, 2007

10. Transformation into Novablue cells using KCM Competent Cell Transformation using the following conditions:

          7 ul pET3A-(S)-HID ligation
          73 ul H2O
          20 ul KCM solution
          100 ul Chemical Competent Novablue cells
          -----------------------------------------
          200 ul total

Plate onto LB Agar + Carb plate


October 09, 2007

9. Innoculate single colonies into separate 4mL LB + 4mL Carb culture tubes and let grow overnight in 30°C.


October 10, 2007

10. Miniprep cultures

11. Analytic Digestion using the following conditions:

          20 ul DNA
          3 ul NEB 2 (10x)
          1.8 ul NotI
          1 ul SpeI
          3 ul BSA (10x)
          1.2 ul H2O  
          -------------
          30 ul total

Run gel – look for ~2kb and ~9kb band

Save glycerol stocks


October 21, 2007

12. Transformation of pET3A-(S)-chlHID into BL21 cells via KCM Competent Cell Transformation:

          10 ul pET3A-(S)-HID-Novablue
          100 ul BL21 cells
          20 ul KCM (5x)
          70 ul H2O
          ----------------------------
          200 ul total

13. Protein Expression

14. Protein Analysis

15. Assay Analysis