Prbbbb:fusion assembly v1: Difference between revisions
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[[PrbbBB:Protocols| Back to all protocols]] | [[PrbbBB:Protocols| Back to all protocols]] | ||
[[Image:Prbbbb-assembly_workflow_v1.gif|200px|right|graphical overview]] | |||
==Overview== | ==Overview== | ||
This variant of the [[Synthetic_Biology:BioBricks/3A_assembly|classic 3A assembly]] protocol minimizes pipetting steps and the amount of DNA used. The trick is to start from standard DNA dilutions so that DNA and restriction solutions can be mixed without any further water. Most of this protocol can be performed in a 96-well pcr plate on 12 or 24 assemblies in parallel. | |||
[[Prbbbb-assembly_workflow_v1.pdf|Graphical overview as high resolution PDF]] | |||
The description below uses the RFC 25 (Fusion) standard for assembly but applies equally to the classic assembly. Just replace enzymes and buffers in restriction mix A and B. | |||
==Materials== | ==Materials== | ||
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*enzymes: AgeI, [[EcoRI]], [[PstI]], NgoMIV (=NgoMI), [[T4_DNA_Ligase]] | *enzymes: AgeI, [[EcoRI]], [[PstI]], NgoMIV (=NgoMI), [[T4_DNA_Ligase]] | ||
*[[NEB_buffers]]: NEBuffer EcoRI, NEBuffer 1, NEBuffer 4, T4 DNA Ligase buffer | *[[NEB_buffers]]: NEBuffer EcoRI, NEBuffer 1, NEBuffer 4, T4 DNA Ligase buffer | ||
*NEB BSA 100x concentrated | *NEB BSA (Bovine serum albumin) 100x concentrated | ||
*ddH2O | *ddH2O | ||
*linear vector backbone DNA from [[Prbbbb:vector_pcr]]; concentration: '''25 ng/µl''' | *linear vector backbone DNA from [[Prbbbb:vector_pcr]]; concentration: '''25 ng/µl''' | ||
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Note: | Note: | ||
* The restriction mixes below are calculated for 10 µl final volume for the digest -- 2 µl restriction mix + 8 µl DNA. We do '''not''' add any further water to the reaction but instead use a standard (rather low) concentration of DNA. Especially in case of restriction | * The restriction mixes below are calculated for 10 µl final volume for the digest -- 2 µl restriction mix + 8 µl DNA. We do '''not''' add any further water to the reaction but instead use a standard (rather low) concentration of DNA. Especially in case of restriction C, it is critical that the DNA sample has been eluted in water, and not in Elution buffer (TRIS) which would otherwise interfere with the restriction buffer. | ||
** Test-restrictions using DNA in Tris-HCl (Qiagen elution buffer) failed in case of mix C and were somewhat reduced for mix A | |||
* Complete digestion is critical for a low background -- at least initially, check your digests on a gel! | * Complete digestion is critical for a low background -- at least initially, check your digests on a gel! | ||
* The digest volume can be reduced further to 5 µl (4 µl DNA + 1 µl restriction mix). This leaves no sample for a gel though. | * The digest volume can be reduced further to 5 µl (4 µl DNA + 1 µl restriction mix). This leaves no sample for a gel though. | ||
* The whole protocol can be performed in a 96-well PCR plate | * The whole protocol can be performed in a 96-well PCR plate (see below) | ||
'''restriction mix A (5x concentrated)''' | '''restriction mix A (5x concentrated)''' | ||
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<table frame=box> | <table frame=box> | ||
<tr align=right> | <tr align=right> | ||
<td></td> <th width=100>1 µl, single reaction</th> <th width=100>20 µl</th> <th width=100> | <td></td> <th width=100>1 µl, single reaction</th> <th width=100>20 µl</th> <th width=100>60 µl</th> <th width=100>120 µl</th></tr> | ||
<tr align=right> <td>H2O</td> <td>0.25µl</td> <td>5</td> <td> | <tr align=right> <td>H2O</td> <td>0.25µl</td> <td>5</td> <td>15</td> <td>30</td> </tr> | ||
<tr align=right> <td>10 x NEBuffer 1</td> <td>0.5µl</td> <td>10</td> <td> | <tr align=right> <td>10 x NEBuffer 1</td> <td>0.5µl</td> <td>10</td> <td>30</td> <td>60</td> </tr> | ||
<tr><td></td></tr> | <tr><td></td></tr> | ||
<tr align=right> <td>EcoRI 20U/µl</td> <td>0.05µl</td> <td>1</td> <td> | <tr align=right> <td>EcoRI 20U/µl</td> <td>0.05µl</td> <td>1</td> <td>3</td> <td>6</td> </tr> | ||
<tr align=right> <td>AgeI 5U/µl</td> <td>0.2µl</td> <td>4</td> <td> | <tr align=right> <td>AgeI 5U/µl</td> <td>0.2µl</td> <td>4</td> <td>12</td> <td>24</td> </tr> | ||
</table> | </table> | ||
Thanks to the high Glycerol content, the restriction mix can be stored at -20 for | Thanks to the high Glycerol content, the restriction mix can be stored at -20 for a couple of weeks. | ||
'''restriction mix B (5x concentrated)''' | '''restriction mix B (5x concentrated)''' | ||
| Line 45: | Line 52: | ||
<table frame=box> | <table frame=box> | ||
<tr align=right> | <tr align=right> | ||
<td></td> <th width=100>1 µl, single reaction</th> <th width=100>20 µl</th> <th width=100> | <td></td> <th width=100>1 µl, single reaction</th> <th width=100>20 µl</th> <th width=100>60 µl</th> <th width=100>120 µl</th></tr> | ||
<tr align=right> <td>H2O</td> <td>0.2µl</td> <td>4</td> <td> | <tr align=right> <td>H2O</td> <td>0.2µl</td> <td>4</td> <td>12</td> <td>24</td> </tr> | ||
<tr align=right> <td>10 x NEBuffer 4</td> <td>0.5µl</td> <td>10</td> <td> | <tr align=right> <td>10 x NEBuffer 4</td> <td>0.5µl</td> <td>10</td> <td>30</td> <td>60</td> </tr> | ||
<tr align=right> <td>100 x BSA</td> <td>0.05</td> <td> | <tr align=right> <td>100 x BSA</td> <td>0.05</td> <td>1</td> <td>3</td> <td>6</td> </tr> | ||
<tr><td></td></tr> | <tr><td></td></tr> | ||
<tr align=right> <td>PstI | <tr align=right> <td>PstI 20U/µl</td> <td>0.08µl</td> <td>1.6</td> <td>4.8</td> <td>9.6</td> </tr> | ||
<tr align=right> <td>NgoMI 10U/µl</td> <td>0. | <tr align=right> <td>NgoMI 10U/µl</td> <td>0.17µl</td> <td>3.4</td> <td>10.2</td> <td>20.4</td> </tr> | ||
</table> | </table> | ||
Thanks to the high Glycerol content, the restriction mix can be stored at -20 for | Thanks to the high Glycerol content, the restriction mix can be stored at -20 for a couple of weeks. | ||
'''restriction mix C (5x concentrated)''' | '''restriction mix C (5x concentrated)''' | ||
| Line 62: | Line 69: | ||
<table frame=box> | <table frame=box> | ||
<tr align=right> | <tr align=right> | ||
<td></td> <th width=100>1 µl, single reaction</th> <th width=100>20 µl</th> <th width=100> | <td></td> <th width=100>1 µl, single reaction</th> <th width=100>20 µl</th> <th width=100>60 µl</th> <th width=100>120 µl</th></tr> | ||
<tr align=right> <td>H2O</td> <td>0.2µl</td> <td>4</td> <td> | <tr align=right> <td>H2O</td> <td>0.2µl</td> <td>4</td> <td>12</td> <td>24</td> </tr> | ||
<tr align=right> <td>10 x NEBuffer EcoRI</td> <td>0.5µl</td> <td>10</td> <td> | <tr align=right> <td>10 x NEBuffer EcoRI</td> <td>0.5µl</td> <td>10</td> <td>30</td> <td>60</td> </tr> | ||
<tr align=right> <td>100 x BSA</td> <td>0.05</td> <td> | <tr align=right> <td>100 x BSA</td> <td>0.05</td> <td>1</td> <td>3</td> <td>6</td> </tr> | ||
<tr><td></td></tr> | <tr><td></td></tr> | ||
<tr align=right> <td>EcoRI 20U/µl</td> <td>0. | <tr align=right> <td>EcoRI 20U/µl</td> <td>0.125µl</td> <td>2.5</td> <td>7.5</td> <td>15</td> </tr> | ||
<tr align=right> <td>PstI | <tr align=right> <td>PstI 20U/µl</td> <td>0.125µl</td> <td>2.5</td> <td>7.5</td> <td>15</td> </tr> | ||
</table> | </table> | ||
Thanks to the high Glycerol content, the restriction mix can be stored at -20 for | Thanks to the high Glycerol content, the restriction mix can be stored at -20 for a couple of weeks. | ||
# mix 8 µl part A [50 ng/µl] with 2 µl restriction A | # mix 8 µl part A [50 ng/µl] with 2 µl restriction A | ||
# mix 8 µl part B [50 ng/µl] with 2 µl restriction B | # mix 8 µl part B [50 ng/µl] with 2 µl restriction B | ||
# mix 8 µl vector [25 ng/µl] with 2 µl restriction C ( | # mix 8 µl vector [25 ng/µl] with 2 µl restriction C | ||
#* (better: prepare pre-digested, dephosphorylated stock by [[Prbbbb:vector_pcr | vector PCR]]) | |||
# incubate for 2h @ 37°C | # incubate for 2h @ 37°C | ||
# heat inactivate 20' @ 80°C | # heat inactivate 20' @ 80°C | ||
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<table frame=box> | <table frame=box> | ||
<tr align=right> | <tr align=right> | ||
<td></td> <th width=100>10 µl, single reaction</th> <th width=100>150 µl</th> <th width=100>µl</th> <th width=100>µl</th></tr> | <td></td> <th width=100>10 µl, single reaction</th> <th width=100>150 µl</th> <th width=100>600 µl</th> <th width=100>µl</th></tr> | ||
<tr align=right> <td>H2O</td> <td>7µl</td> <td></td> <td></td> <td></td> </tr> | <tr align=right> <td>H2O</td> <td>7µl</td> <td>105</td> <td>420</td> <td></td> </tr> | ||
<tr align=right> <td> | <tr align=right> <td>10 x T4 buffer</td> <td>2µl</td> <td>30</td> <td>120</td> <td></td> </tr> | ||
<tr align=right> <td>T4 DNA Ligase</td> <td>1</td> <td></td> | <tr align=right> <td>T4 DNA Ligase</td> <td>1</td> <td>15</td> <td>60</td> <td></td> </tr> | ||
</table> | </table> | ||
| Line 101: | Line 108: | ||
# use 2 µl for transformation | # use 2 µl for transformation | ||
=== | ===Performing assemblies on a 96-well plate=== | ||
# | # multi-dispense restriction mix A into row A | ||
# | # multi-dispense restriction mix B into row B | ||
# add 8 µl parts DNA [50ng/µl] to rows A and B | # add 8 µl parts DNA [50ng/µl] to rows A and B | ||
#* Example: you want to couple part 1 to part 2 and, in parallel, part x to part y. Put part 1 into A1, part 2 into B1, part x into A2, part y into B2 | |||
# program & run restriction + heat shock on a PCR device | # program & run restriction + heat shock on a PCR device | ||
# use multi-channel pipette to copy 4 µl from A and B into row D | # use multi-channel pipette to copy 4 µl from A and B into row D | ||
# add 2 µl pre-digested vector backbone into each well of D | # add 2 µl pre-digested vector backbone into each well of D | ||
#* ''except'' if there is an insert-only control -- add water instead | |||
# multi-dispense 10µl ligation mix into D | # multi-dispense 10µl ligation mix into D | ||
# seal plate and run ligation protocol on PCR device | # seal plate and run ligation protocol on PCR device | ||
# put plate on ice | # put plate on ice | ||
# pipette (gently!) | # pipette (gently!) 12 µl competent cells into each well of row F | ||
# copy 2 µl from ligation row D into cell row F | # copy 2 µl from ligation row D into cell row F | ||
# run first half of transformation (20'@4C; 30 | # run first half of transformation (20'@4C; 30"@42C; 10'@4C) on PCR device | ||
# dilute | # dilute 12 µl cells into 200 µl S.O.C. medium in a sterile 96 x 1.5 ml deepwell plate | ||
# seal the deepwell plate and incubate 45 min @ 37°C with vigorous shaking | |||
# plate 200 µl on LB Agar with the appropriate antibiotic (select for target vector) | |||
#* The Knight lab robotic protocol uses serial dilution instead of plating: [[Tk:robot-assembly| robot assembly]] | |||
# incubate over night @ 37°C, and continue with [[PrbbBB:colony_pcr_v1 | colony screening protocol]] | |||
==Notes== | ==Notes== | ||
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#Anecdotal observations that might be of use to others can also be posted here. | #Anecdotal observations that might be of use to others can also be posted here. | ||
<!-- | |||
Please sign your name to your note by adding <font face="courier"><nowiki>'''*~~~~''':</nowiki></font> to the beginning of your tip. | Please sign your name to your note by adding <font face="courier"><nowiki>'''*~~~~''':</nowiki></font> to the beginning of your tip. | ||
--> | |||
==References== | ==References== | ||
'''Example reference''' | <!--'''Example reference''' | ||
If this protocol has papers or books associated with it, list those references here. See the [[OpenWetWare:Biblio]] page for more information. | |||
<biblio> | <biblio> | ||
#Ptashne-Genetic-Switch isbn=0879697164 | #Ptashne-Genetic-Switch isbn=0879697164 | ||
</biblio> | </biblio> | ||
--> | |||
==Contact== | ==Contact== | ||
Latest revision as of 01:48, 4 May 2010
Overview
This variant of the classic 3A assembly protocol minimizes pipetting steps and the amount of DNA used. The trick is to start from standard DNA dilutions so that DNA and restriction solutions can be mixed without any further water. Most of this protocol can be performed in a 96-well pcr plate on 12 or 24 assemblies in parallel.
Graphical overview as high resolution PDF
The description below uses the RFC 25 (Fusion) standard for assembly but applies equally to the classic assembly. Just replace enzymes and buffers in restriction mix A and B.
Materials
- enzymes: AgeI, EcoRI, PstI, NgoMIV (=NgoMI), T4_DNA_Ligase
- NEB_buffers: NEBuffer EcoRI, NEBuffer 1, NEBuffer 4, T4 DNA Ligase buffer
- NEB BSA (Bovine serum albumin) 100x concentrated
- ddH2O
- linear vector backbone DNA from Prbbbb:vector_pcr; concentration: 25 ng/µl
- DNA Biobrick(s) A (first part), Biobrick(s) B (second part); concentration 50 ng/µl
Procedure
Restriction
Note:
- The restriction mixes below are calculated for 10 µl final volume for the digest -- 2 µl restriction mix + 8 µl DNA. We do not add any further water to the reaction but instead use a standard (rather low) concentration of DNA. Especially in case of restriction C, it is critical that the DNA sample has been eluted in water, and not in Elution buffer (TRIS) which would otherwise interfere with the restriction buffer.
- Test-restrictions using DNA in Tris-HCl (Qiagen elution buffer) failed in case of mix C and were somewhat reduced for mix A
- Complete digestion is critical for a low background -- at least initially, check your digests on a gel!
- The digest volume can be reduced further to 5 µl (4 µl DNA + 1 µl restriction mix). This leaves no sample for a gel though.
- The whole protocol can be performed in a 96-well PCR plate (see below)
restriction mix A (5x concentrated)
| 1 µl, single reaction | 20 µl | 60 µl | 120 µl | |
|---|---|---|---|---|
| H2O | 0.25µl | 5 | 15 | 30 |
| 10 x NEBuffer 1 | 0.5µl | 10 | 30 | 60 |
| EcoRI 20U/µl | 0.05µl | 1 | 3 | 6 |
| AgeI 5U/µl | 0.2µl | 4 | 12 | 24 |
Thanks to the high Glycerol content, the restriction mix can be stored at -20 for a couple of weeks.
restriction mix B (5x concentrated)
| 1 µl, single reaction | 20 µl | 60 µl | 120 µl | |
|---|---|---|---|---|
| H2O | 0.2µl | 4 | 12 | 24 |
| 10 x NEBuffer 4 | 0.5µl | 10 | 30 | 60 |
| 100 x BSA | 0.05 | 1 | 3 | 6 |
| PstI 20U/µl | 0.08µl | 1.6 | 4.8 | 9.6 |
| NgoMI 10U/µl | 0.17µl | 3.4 | 10.2 | 20.4 |
Thanks to the high Glycerol content, the restriction mix can be stored at -20 for a couple of weeks.
restriction mix C (5x concentrated)
| 1 µl, single reaction | 20 µl | 60 µl | 120 µl | |
|---|---|---|---|---|
| H2O | 0.2µl | 4 | 12 | 24 |
| 10 x NEBuffer EcoRI | 0.5µl | 10 | 30 | 60 |
| 100 x BSA | 0.05 | 1 | 3 | 6 |
| EcoRI 20U/µl | 0.125µl | 2.5 | 7.5 | 15 |
| PstI 20U/µl | 0.125µl | 2.5 | 7.5 | 15 |
Thanks to the high Glycerol content, the restriction mix can be stored at -20 for a couple of weeks.
- mix 8 µl part A [50 ng/µl] with 2 µl restriction A
- mix 8 µl part B [50 ng/µl] with 2 µl restriction B
- mix 8 µl vector [25 ng/µl] with 2 µl restriction C
- (better: prepare pre-digested, dephosphorylated stock by vector PCR)
- incubate for 2h @ 37°C
- heat inactivate 20' @ 80°C
Ligation
ligation mix (2x concentrated)
| 10 µl, single reaction | 150 µl | 600 µl | µl | |
|---|---|---|---|---|
| H2O | 7µl | 105 | 420 | |
| 10 x T4 buffer | 2µl | 30 | 120 | |
| T4 DNA Ligase | 1 | 15 | 60 |
- mix 4 µl part A digest + 4 µl part B digest + 2 µl vector digest
- add (as last component!) 10 µl ligation mix (2x)
- incubate 1h @ 16°C; 10' @ 65deg;C
- use 2 µl for transformation
Performing assemblies on a 96-well plate
- multi-dispense restriction mix A into row A
- multi-dispense restriction mix B into row B
- add 8 µl parts DNA [50ng/µl] to rows A and B
- Example: you want to couple part 1 to part 2 and, in parallel, part x to part y. Put part 1 into A1, part 2 into B1, part x into A2, part y into B2
- program & run restriction + heat shock on a PCR device
- use multi-channel pipette to copy 4 µl from A and B into row D
- add 2 µl pre-digested vector backbone into each well of D
- except if there is an insert-only control -- add water instead
- multi-dispense 10µl ligation mix into D
- seal plate and run ligation protocol on PCR device
- put plate on ice
- pipette (gently!) 12 µl competent cells into each well of row F
- copy 2 µl from ligation row D into cell row F
- run first half of transformation (20'@4C; 30"@42C; 10'@4C) on PCR device
- dilute 12 µl cells into 200 µl S.O.C. medium in a sterile 96 x 1.5 ml deepwell plate
- seal the deepwell plate and incubate 45 min @ 37°C with vigorous shaking
- plate 200 µl on LB Agar with the appropriate antibiotic (select for target vector)
- The Knight lab robotic protocol uses serial dilution instead of plating: robot assembly
- incubate over night @ 37°C, and continue with colony screening protocol
Notes
Please feel free to post comments, questions, or improvements to this protocol. Happy to have your input!
- List troubleshooting tips here.
- You can also link to FAQs/tips provided by other sources such as the manufacturer or other websites.
- Anecdotal observations that might be of use to others can also be posted here.
References
Contact
or instead, discuss this protocol.
