Team:HokkaidoU Japan/WetLab

From 2011.igem.org

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=Experimental Procedures=
=Experimental Procedures=
==General Protocols==
==General Protocols==
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----
 
===Bacterial Transformations===
===Bacterial Transformations===
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----
 
===Mini-prep (Alkaline SDS Method)===
===Mini-prep (Alkaline SDS Method)===
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----
 
===PCR===
===PCR===
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* 30-40 cycles
* 30-40 cycles
-
 
-
----
 
-
===Electroporation===
 
-
 
-
'''Preparation of electro-competent cells'''
 
-
# Cell culture in 400 mL of SOB or LB and grow to ΔOD<sub>600</sub> = 0.5~0.6
 
-
# Dispense the medium into 8 Falcon 50 mL tube
 
-
# Centrifuge at 3500 rpm for 5 min at 4C and discard sup
 
-
# Add 5 mL of DW and suspend the ppt, mix 8 suspensions into single Falcon tube
 
-
# Centrifuge at 3500 rpm for 5 min at 4C and discard sup
 
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# Add 40 mL of DW and suspend the ppt
 
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# Centrifuge at 3500 rpm for 5 min at 4C and discard sup
 
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# Add 10 mL of 10% Glycerol and suspend the ppt
 
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# Centrifuge at 3500 rpm for 5 min at 4C and discard sup
 
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# Add 10 mL of 10% Glycerol and suspend the ppt
 
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# Centrifuge at 3500 rpm for 5 min at 4C and discard sup
 
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# Add 5 mL of 10% Glycerol and suspend the ppt
 
-
# Dispense 100 uL of the suspensions into 0.5 mL Eppendorf tube, respectively 
 
-
# Store at -80C freezer
 
-
 
-
'''Electroporation'''
 
-
 
-
 
-
 
-
 
-
 
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----
 
===PCIAA and CIAA extraction===
===PCIAA and CIAA extraction===
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----
 
===Ethanol presipitation===
===Ethanol presipitation===
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-
----
 
===Mini-prep (QIAprep Spin Miniprep Kit)===
===Mini-prep (QIAprep Spin Miniprep Kit)===
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-
----
 
===Gel Extraction (Wizard® SV Gel and PCR Clean-Up System)===
===Gel Extraction (Wizard® SV Gel and PCR Clean-Up System)===
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----
 
==Infection assay==
==Infection assay==
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HeLa cell lysates were subjected to SDS-PAGE, and separated proteins were transferred to an Immobilon-P membranes (Millipore). The membranes were blocked with Blocking buffer (20 mM Tris, 150 mM NaCl, 0.05% Tween 20, 5% nonfat milk) for 1 h at room temperature. The blots were probed with Phospho-GSK-3β (Ser9) antibody (Cell Signaling Technology #9336) or GSK-3β antibody (Cell Signaling Technology #9315) diluted 1/1000 in Blocking buffer and incubated overnight at room temperature. Blots were washed three times with TTBS (20 mM Tris, 150 mM NaCl, 0.05% Tween 20) for 15 min each time. Secondary antibody (alkaline phosphatase-conjugated anti-rabbit immunoglobulin G) was diluted 1/1000 in Blocking buffer and incubated with the blots for 1.5 h at 37C. Blots were washed as described above and developed with BCIP/NBT.
HeLa cell lysates were subjected to SDS-PAGE, and separated proteins were transferred to an Immobilon-P membranes (Millipore). The membranes were blocked with Blocking buffer (20 mM Tris, 150 mM NaCl, 0.05% Tween 20, 5% nonfat milk) for 1 h at room temperature. The blots were probed with Phospho-GSK-3β (Ser9) antibody (Cell Signaling Technology #9336) or GSK-3β antibody (Cell Signaling Technology #9315) diluted 1/1000 in Blocking buffer and incubated overnight at room temperature. Blots were washed three times with TTBS (20 mM Tris, 150 mM NaCl, 0.05% Tween 20) for 15 min each time. Secondary antibody (alkaline phosphatase-conjugated anti-rabbit immunoglobulin G) was diluted 1/1000 in Blocking buffer and incubated with the blots for 1.5 h at 37C. Blots were washed as described above and developed with BCIP/NBT.
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=Notebook=
 
=Primers=
=Primers=
-
<html>
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===Note===
 +
{|class="primer" style="text-align:center;"
 +
|-
 +
!rowspan="2"|Primer Name
 +
|colspan="4" style="text-align:left;"|Whole Sequence
 +
|-
 +
|style="width:61px;"|F/R||style="width:306px; text-align:left;"|Annealing Sequence||style="width:51px;"|Tm||style="width:306px; text-align:left;"|Adding Sequence
 +
|}
-
<p><h3>General Primers</h3>
 
-
<table cols="2" border="1">
 
-
<tr>
 
-
<th rowspan="2">EX_F</th>
 
-
<td>GCAGAATTCGCGGCCGCTTCTAGAG</td>
 
-
</tr>
 
-
<tr>
 
-
<td>Forward primer which is annealed to the Biobrick Prefix sequence.</td>
 
-
</tr>
 
-
<tr>
 
-
<th rowspan="2">PS_R</th>
 
-
<td>AGCCTGCAGCGGCCGCTACTAGTA</td>
 
-
</tr>
 
-
<tr>
 
-
<td>Reverse primer which is annealed to the Biobrick Suffix sequence.</td>
 
-
</tr>
 
-
<tr>
 
-
<td colspan="2" align="right">This pair of primers synthesis Biobrick parts when they are used at the same time.</td>
 
-
</tr>
 
-
 
-
<tr>
 
-
<th rowspan="2">suffix_F</th>
 
-
<td></td>
 
-
</tr>
 
-
<tr>
 
-
<td>Forward primer which is annealed to the Biobrick Suffix sequence.</td>
 
-
</tr>
 
-
<tr>
 
-
<th rowspan="2">prefix_R</th>
 
-
<td></td>
 
-
</tr>
 
-
<tr>
 
-
<td>Reverse primer which is annealed to the Biobrick Prefix sequence.</td>
 
-
</tr>
 
-
<tr>
 
-
<td colspan="2" align="right">This pair of primers synthesis Biobrick parts when they are used at the same time.</td>
 
-
</tr>
 
-
 
-
<tr>
 
-
<th rowspan="2">100up_EX_F</th>
 
-
<td></td>
 
-
</tr>
 
-
<tr>
 
-
<td>Forward primer which is annealed to the sequence where is 100bp upper to the Biobrick Prefix sequence.</td>
 
-
</tr>
 
-
<tr>
 
-
<th rowspan="2">200dn_PS_R</th>
 
-
<td></td>
 
-
</tr>
 
-
<tr>
 
-
<td>Reverse primer which is annealed to the sequence where is 200bp lower to the Biobrick Suffix sequence.</td>
 
-
</tr>
 
-
<tr>
 
-
<td colspan="2"></td>
 
-
</tr>
 
-
</table></p>
+
===General Primers===
 +
{|class="primer" style="text-align:center;"
 +
|-
 +
!rowspan="2"|EX_F
 +
|colspan="4" style="text-align:left;"|gcagaattcgcggccgcttctagag
 +
|-
 +
|style="width:61px;"|Forward||style="width:306px; text-align:left"|Biobrick Prefix||style="width:51px;"|74.5 C||style="width:306px; text-align:left;"|None
 +
|-
 +
!rowspan="2"|PS_R
 +
|colspan="4" style="text-align:left;"|agcctgcagcggccgctactagta
 +
|-
 +
|Reverse||style="text-align:left;"|Biobrick Suffix||74.6 C||style="text-align:left;"|None
 +
|-
 +
!rowspan="2"|suffix_F
 +
|colspan="4" style="text-align:left;"|tactagtagcggccgctgcaggct
 +
|-
 +
|Forward||style="text-align:left;"|Biobrick Suffix||74.6 C||style="text-align:left;"|None
 +
|-
 +
!rowspan="2"|prefix_R
 +
|colspan="4" style="text-align:left;"|ctctagaagcggccgcgaattctgc
 +
|-
 +
|Reverse||style="text-align:left;"|Biobrick Prefix||74.5 C||style="text-align:left;"|None
 +
|-
 +
!rowspan="2"|100up_EX_F
 +
|colspan="4" style="text-align:left;"|aacctataaaaataccgcatacac
 +
|-
 +
|Forward||style="text-align:left;"|100bp upstream from Biobrick prefix||62.7 C||style="text-align:left;"|None
 +
|-
 +
!rowspan="2"|200dn_PS_R
 +
|colspan="4" style="text-align:left;"|tcccctgattctgtggataaccgt
 +
|-
 +
|Reverse||style="text-align:left;"|200bp downstream from Biobrick suffix||66.6 C||style="text-align:left;"|None
 +
|}
-
<p><h3>Primers used for Backbone Construction</h3>
+
*[http://partsregistry.org/wiki/index.php?title=Part:BBa_K496000 See details of 100up_EX_F/200dn_PS_R] (partsregistry)
-
<table cols="2" border="2">
+
-
<tr>
 
-
<th rowspan="2">EX_RBS_SlrP_F</th>
 
-
<td></td>
 
-
</tr>
 
-
<tr>
 
-
<td></td>
 
-
</tr>
 
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<tr>
 
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<th rowspan="2">PS_SlrP_R</th>
 
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<td></td>
 
-
</tr>
 
-
<tr>
 
-
<td></td>
 
-
</tr>
 
-
<tr>
 
-
<td colspan="2" align="right"></td>
 
-
</tr>
 
-
<tr>
+
===Primers Used for Backbone Construction===
-
<th rowspan="2">Bsa1_SlrP_R</th>
+
{|class="primer" style="text-align:center;"
-
<td></td>
+
|-
-
</tr>
+
!rowspan="2"|EX_RBS_SlrP_F
-
<tr>
+
|colspan="4" style="text-align:left;"|GCAGAATTCGCGGCCGCTTCTAGAaaagaggagaaaatatgtttaatattactaatatacaatctacggc
-
<td></td>
+
|-
-
</tr>
+
|style="width:61px;"|Forward||style="width:306px; text-align:left"|RBS sequence, 5' terminal of SlrP coding sequence||style="width:51px"|69.7 C||style="width:306px; text-align:left;"|Biobrick Prefix
-
<tr>
+
|-
-
<th rowspan="2">Bsa1_GSK_R</th>
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!rowspan="2"|PS_SlrP_R
-
<td></td>
+
|colspan="4" style="text-align:left;"|AGCCTGCAGCGGCCGCTACTAGTggtaagtcctaatattttcagacgaag
-
</tr>
+
|-
-
<tr>
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|Reverse||style="text-align:left;"|3'terminal of SlrP coding sequence||64.5 C||style="text-align:left;"|Biofusion Suffix
-
<td></td>
+
|-
-
</tr>
+
!rowspan="2"|Bsa1_dt_F
-
<tr>
+
|colspan="4" style="text-align:left;"|GGCGACTAGAGAGACCccaggcatcaaataaaacgaaag
-
<th rowspan="2">Bsa1_dt_F</th>
+
|-
-
<td></td>
+
|Forward||style="text-align:left;"|5'terminal of double terminator sequence||63.6 C||style="text-align:left;"|BsaI recognition site and its cleavage site
-
</tr>
+
|-
-
<tr>
+
!rowspan="2"|Bsa1_SlrP_R
-
<td></td>
+
|colspan="4" style="text-align:left;"|GGCCTGGCCTGAGACCCCggtaagtcctaatattttcagacga
-
</tr>
+
|-
-
<tr>
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|Reverse||style="text-align:left;"|3'terminal of SlrP coding Sequence||63.0 C||style="text-align:left;"|BsaI recognition site and its cleavage site
-
<td colspan="2" align="right"></td>
+
|-
-
</tr>
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!rowspan="2"|Bsa1_GSK_SlrP_R
-
</table></p>
+
|colspan="4" style="text-align:left;"|GGCCTGGCCTGAGACCCCACTTTCAGCGAAACTTGTAGTGCGAGGGCGACCACTCATggtaagtcctaatattttcagacga
 +
|-
 +
|Reverse||style="text-align:left;"|3'terminal of SlrP coding Sequence||63.6 C||style="text-align:left;"|GSK Tag, BsaI recognition site and its cleavage site
 +
|}
-
</html>
+
*[https://2011.igem.org/Team:HokkaidoU_Japan/Project/Backbone See details of BsaI Backbone] (Project Page)
 +
 
 +
 
 +
===Sequencing Primer===
 +
{|class="primer" style="text-align:center;"
 +
|-
 +
!rowspan="2"|SlrP_373_to_394_F
 +
|colspan="4" style="text-align:left;"|gaaagtcagtcacctatacccg
 +
|-
 +
|style="width:61px;"|Forward||style="width:306px; text-align:left;"|SlrP coding sequence, from 373bp to 394 bp||style="width:51px;"|63.4 C||style="width:306px; text-align:left;"|None
 +
|}
-
{{:Team:HokkaidoU_Japan/footer}}
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{{Team:HokkaidoU_Japan/footer}}

Latest revision as of 22:46, 3 October 2011

Contents

Experimental Procedures

General Protocols

Preparation of Competent cells (E. coli DH5a)

Reagents

TB (Transformation Buffer)(at 4C, filtration)

reagents amount Final concentration
1 M CaCl2 (at RT, autoclaved) 0.75 mL 15 mM
4 M KCl (at RT, autoclaved) 3.125 mL 250 mM
1 M MnCl2 (at 4C, autoclaved) 2.75 mL 55 mM
1 M PIPES (pH 6.7 by NaOH, at 4C, filtration) 0.5 mL 10 mM
Total 50 mL

Procedure

  1. Single colony isolation on LB plate
  2. Incubate the plate for 15-19 hrs at 37C
  3. Lift a colony into 2 mL of LB
  4. Culture cells at 37C for 12-16 hrs at 180-200 rpm
  5. Transfer 30 uL, 100 uL, 300 uL of the culture into 100 mL SOB medium, respectively
  6. Culture cells at 20C (for 24 hrs over) at 180-200 rpm (to ΔOD550nm = 0.5~0.6)
  7. Leave the 300 mL flask for 10 min on ice
  8. Transfer the culture into two 50 mL Falcon tube
  9. Centrifuge 7500 rpm at 4C for 20 min (TOMY TA-22 rotor), and discard sup
  10. Suspend the pellet in ice-cold 15 mL of TB (Transformation Buffer)(7.5 mL/tube)
  11. Centrifuge 7500 rpm at 4C for 2 min (TOMY TA-22 rotor), and discard sup
  12. Suspend the pellet in ice-cold 3.2 mL of TB
  13. Add 0.24 mL of DMSO (stirring, bit by bit)
  14. Leave the 50 mL Falcon tube for 10 min on ice
  15. Dispense 50 uL into 0.5 mL tube
  16. Freeze the suspension in liquid nitrogen
  17. Store at -80C


Bacterial Transformations

  1. Add DNA solution to thawed competent cells
  2. Incubate the cells on ice for 30 min
  3. Heat shock the cells by immersion in a pre-heated water bath at 42C for 60 sec
  4. Incubate the cells on ice for 5 min
  5. Add 200 uL of SOB broth
  6. Incubate the cells at 37C for 2 hrs while the tubes are shaking
  7. Plate 200 uL of the transformation onto the dish
  8. Incubate the plate at 37C for 12-14 hrs


Mini-prep (Alkaline SDS Method)

Reagents Solution I (at RT, filtration 0.2 um, 50 mL)

reagents amount Final concentration
Glucose (at RT) 0.45 g 50 mM
1 M Tris-HCl (pH8.0, at RT, autoclaved) 1.25 mL 25 mM
0.5 M EDTA (pH8.0, at RT, autoclaved) 1 mL 10 mM
Total 50 mL


Solution II (at RT, filtration 0.2 um, 20 mL)

reagents amount Final concentration
10 N NaOH (at RT) 0.4 mL 0.2 N
10% SDS (at RT, filtration) 2 mL 1%
Total 20 mL


Solution III (at RT, filtration 0.2 um, 50 mL)

reagents amount Final concentration
5 M CH3COOK 30 mL 3 M
CH3COOH 5.75 mL
H2O 14.25 mL
Total 50 mL

Procedure

  1. Lift colony E. coli into 2 mL LB contained antibiotics
  2. Culture cells at 37C for 16-20 hrs at 180-200 rpm
  3. Transfer 1.2-1.5 mL of culture into 1.5 mL tube
  4. Centrifuge the culture at 15,000 rpm for 1 min at 4C and discard sup
  5. Suspend the pellet in ice-cold 100 uL of Solution I
  6. Add 200 uL of Solution II to the suspension
  7. Mix by inverting the tube 10-20 times
  8. Add ice-cold 150 uL of Solution III to the suspension
  9. Mix by inverting the tube 10-20 times
  10. Leave the tube for 5 min on ice
  11. Add 10 uL of Chloroform
  12. Mix by inverting the tube 5-10 times
  13. Centrifuge the suspension at 15,000 rpm for 5 min at 4C
  14. Transfer the supernatant into new 1.5 mL tube↓
  15. Add equal volume of isopropanol and mix by voltexing
  16. Leave the tube for 5 min at RT
  17. Centrifuge the suspension at 15,000 rpm for 10 min at 4C and discard sup
  18. Rinse the ppt by 70% EtOH and mix by voltexing
  19. Centrifuge the suspension at 15,000 rpm for 2 min at 4C and discard sup
  20. Dry up the ppt
  21. Dissolve the ppt in 50 uL of TE (pH 8.0)
  22. Add 1 uL of 10 mg/mL RNase A (4C and stock at –20C)
  23. Incubate for 30 min at 37C
  24. PCIAA and CIAA extraction
  25. Ethanol precipitation
  26. Dry up the ppt
  27. Dissolve the ppt in 50 uL of TE (pH 8.0)



PCR

Vector Standard reaction setup

Component Volume
10x PCR Buffer 5 uL
2mM dNTPs 5 uL
25mM MgSO4 3 uL
Suffix-F primer 1 uL
Prefix-R primer 1 uL
Template DNA 1 uL
KOD -Plus- Neo 1 uL
DW X uL
Total 50 uL

Cycling conditions (2-step cycle)

Stage Temperature and Time
Predenature 94C 2 min
Denature 98C 10 sec
Extension 68C X sec (30 sec/kb)
Hold 4C
  • 30-40 cycles

Insert Standard reaction setup

Component Volume
10x PCR Buffer 5 uL
2mM dNTPs 5 uL
25mM MgSO4 3 uL
EX-F primer 1 uL
PS-R primer 1 uL
Template DNA 1 uL
KOD -Plus- Neo 1 uL
DW X uL
Total 50 uL

Cycling conditions (2-step cycle)

Stage Temperature and Time
Predenature 94C 2 min
Denature 98C 10 sec
Extension 68C X sec (30 sec/kb)
Hold 4C
  • 30-40 cycles

Colony PCR

  • resuspend a colony into 10 uL of DW (template suspension)

Standard reaction setup

Component Volume
template suspension 4.8 uL
Quick Taq 5 uL
Forward primer 0.1 uL
Reverse primer 0.1 uL
Total 10 uL

Cycling conditions (2-step cycle)

Stage Temperature and Time
Predenature 94C 2 min
Denature 94C 10 sec
Extension 68C X sec (60 sec/kb)
Hold 4C
  • 30-40 cycles


PCIAA and CIAA extraction

Reagent

  • PCIAA = Phenol : CIAA = 1 : 1
  • CIAA = Chloroform : IsoAmyl Alcohol = 24 : 1

Procedure

  1. Add equal volume of PCIAA and vortex vigorously
  2. Centrifuge at 15,000 rpm for 2 min at RT
  3. Transfer the aqueous phase to a new tube, being careful not to transfer the phase interface
  4. Add equal volume of CIAA and vortex vigorously
  5. Transfer the aqueous phase to a new tube
  6. Ethanol precipitation



Ethanol presipitation

  1. Add 1/10 volume of 3M CH3COONa
  2. Add 2.5 volume of 100% ethanol (EtOH)
  3. Incubate on ice for few min
  4. Centrifuge at 15,000 rpm for 10 min at 4C and discard sup
  5. Wash precipitation with 100 uL of 70% EtOH (EtOH has to be cold)
  6. Centrifuge at 15,000 rpm for 5 min at 4C and discard sup
  7. Dry up the ppt (no EtOH should be left)
  8. Resuspend ppt in wanted volume of TE


Mini-prep (QIAprep Spin Miniprep Kit)

  1. Resuspend pelleted bacterial cells in 250 µl Buffer P1 and transfer to a micro-centrifuge tube
  2. Add 250 µl Buffer P2 and mix thoroughly by inverting the tube 4–6 times
  3. Add 350 µl Buffer N3 and mix immediately and thoroughly by inverting the tube 4–6 times
  4. Centrifuge for 10 min at 13,000 rpm (~17,900 x g) in a table-top microcentrifuge
  5. Apply the supernatants from step 4 to the QIAprep spin column by decanting or pipetting
  6. Centrifuge for 30–60 s. Discard the flow-through
  7. Recommended: Wash the QIAprep spin column by adding 0.5 ml Buffer PB and centrifuging for 30–60 s. Discard the flow-through
  8. Wash QIAprep spin column by adding 0.75 ml Buffer PE and centrifuging for 30–60 s
  9. Discard the flow-through, and centrifuge for an additional 1 min to remove residual wash buffer
  10. Place the QIAprep column in a clean 1.5 ml microcentrifuge tube. To elute DNA, add 50 µl Buffer EB (10 mM Tris·Cl, pH 8.5) or water to the center of each QIAprep spin column, let stand for 1 min, and centrifuge for 1 min
  • [http://www.qiagen.com/products/plasmid/qiaprepminiprepsystem/qiaprepspinminiprepkit.aspx see details (Official website)]


Gel Extraction (Wizard® SV Gel and PCR Clean-Up System)

  1. Following electrophoresis, excise DNA band from gel and place gel slice in a 1.5 mL microcentrifuge tube
  2. Add 10 uL Membrane Binding Solution per 10 mg of gel slice
  3. Vortex and incubate at 50–65C until gel slice is completely dissolved
  4. Insert SV Minicolumn into Collection Tube
  5. Transfer dissolved gel mixture or prepared PCR product to the Minicolumn assembly
  6. Incubate at room temperature for 1 min
  7. Centrifuge at 16,000 g for 1 min
  8. Discard flowthrough and reinsert Minicolumn into Collection Tube
  9. Add 700 uL Membrane Wash Solution (ethanol added)
  10. Centrifuge at 16,000 g for 1 min
  11. Discard flowthrough and reinsert Minicolumn into Collection Tube
  12. Repeat Step 4 with 500 uL Membrane Wash Solution
  13. Centrifuge at 16,000 g for 5 min
  14. Empty the Collection Tube and recentrifuge the column assembly for 1 min with the microcentrifuge lid open (or off) to allow evaporation of any residual ethanol
  15. Carefully transfer Minicolumn to a clean 1.5 mL microcentrifuge tube
  16. Add 50 uL of Nuclease-Free Water to the Minicolumn
  17. Incubate at room temperature for 1 min
  18. Centrifuge at 16,000 g for 1 min
  19. Discard Minicolumn and store DNA at 4C or –20C
  • [http://www.promega.com/applications/pcr/featuresandbenefits/Wizard_SV_Gel_PCR_Clean-Up_System.htm see details (Official website)]


Infection assay

Preparation of T3SS E. coli

Infection assay using onion cells

Infection assay using HeLa cells

Detection of injected protein using GSK tag

Protein extraction from infected HeLa cells

SDS-PAGE and Western Blot analysis

HeLa cell lysates were subjected to SDS-PAGE, and separated proteins were transferred to an Immobilon-P membranes (Millipore). The membranes were blocked with Blocking buffer (20 mM Tris, 150 mM NaCl, 0.05% Tween 20, 5% nonfat milk) for 1 h at room temperature. The blots were probed with Phospho-GSK-3β (Ser9) antibody (Cell Signaling Technology #9336) or GSK-3β antibody (Cell Signaling Technology #9315) diluted 1/1000 in Blocking buffer and incubated overnight at room temperature. Blots were washed three times with TTBS (20 mM Tris, 150 mM NaCl, 0.05% Tween 20) for 15 min each time. Secondary antibody (alkaline phosphatase-conjugated anti-rabbit immunoglobulin G) was diluted 1/1000 in Blocking buffer and incubated with the blots for 1.5 h at 37C. Blots were washed as described above and developed with BCIP/NBT.


Primers

Note

Primer Name Whole Sequence
F/RAnnealing SequenceTmAdding Sequence


General Primers

EX_F gcagaattcgcggccgcttctagag
ForwardBiobrick Prefix74.5 CNone
PS_R agcctgcagcggccgctactagta
ReverseBiobrick Suffix74.6 CNone
suffix_F tactagtagcggccgctgcaggct
ForwardBiobrick Suffix74.6 CNone
prefix_R ctctagaagcggccgcgaattctgc
ReverseBiobrick Prefix74.5 CNone
100up_EX_F aacctataaaaataccgcatacac
Forward100bp upstream from Biobrick prefix62.7 CNone
200dn_PS_R tcccctgattctgtggataaccgt
Reverse200bp downstream from Biobrick suffix66.6 CNone
  • [http://partsregistry.org/wiki/index.php?title=Part:BBa_K496000 See details of 100up_EX_F/200dn_PS_R] (partsregistry)


Primers Used for Backbone Construction

EX_RBS_SlrP_F GCAGAATTCGCGGCCGCTTCTAGAaaagaggagaaaatatgtttaatattactaatatacaatctacggc
ForwardRBS sequence, 5' terminal of SlrP coding sequence69.7 CBiobrick Prefix
PS_SlrP_R AGCCTGCAGCGGCCGCTACTAGTggtaagtcctaatattttcagacgaag
Reverse3'terminal of SlrP coding sequence64.5 CBiofusion Suffix
Bsa1_dt_F GGCGACTAGAGAGACCccaggcatcaaataaaacgaaag
Forward5'terminal of double terminator sequence63.6 CBsaI recognition site and its cleavage site
Bsa1_SlrP_R GGCCTGGCCTGAGACCCCggtaagtcctaatattttcagacga
Reverse3'terminal of SlrP coding Sequence63.0 CBsaI recognition site and its cleavage site
Bsa1_GSK_SlrP_R GGCCTGGCCTGAGACCCCACTTTCAGCGAAACTTGTAGTGCGAGGGCGACCACTCATggtaagtcctaatattttcagacga
Reverse3'terminal of SlrP coding Sequence63.6 CGSK Tag, BsaI recognition site and its cleavage site


Sequencing Primer

SlrP_373_to_394_F gaaagtcagtcacctatacccg
ForwardSlrP coding sequence, from 373bp to 394 bp63.4 CNone


Retrieved from "http://2011.igem.org/Team:HokkaidoU_Japan/WetLab"