Ligation
by A. Untergasser (contact address and download at
www.untergasser.de/lab)
Version: 1.0 - Print
Version (.PDF)
ATTENTION: This is a low priced protocol. Use it preferably!
The ligation buffer contains ATP and should NOT be freeze/thawed several times. Aliquot it into 20-30 µl aliquots in PCR tubes!
- Digest the two vectors you like to use for 3 hours
As a rule of the thumb I use 2 µg of plasmid and 1.5-2.0 µl of each enzyme in a 50 µl reaction. If I use SAP (to remove the phosphates) on the vector, I add 1 µl after 2 hours and another 1 µl after 2.5 hours and inactivate it by heat shock (65 °C for 15 min) after 3 hours. - Allways purify all fragments by gel purification
Do NOT make pictures of the gel before you cut out the bands! If you cut out the bands, be fast and expose the DNA to as few UV light as possible! - Measure DNA concentration by gel or nanodrop
- Calculate the amount in ng needed of each
fragment
We use a vector : insert ratio of 1:3
For the vector you need 50 fmol:
ng needed = (length of the plasmid in bp) x 0.033
For the insert you need 150 fmol:
ng needed = (length of the plasmid in bp) x 0.099 - Calculate the amount in µl needed of
each fragment
µl needed = ng needed / (concentration in ng/µl) - Prepare the ligation mix
We prepare two reactions, one with insert (B) and one without (A):A B Vector 50 fmol 50 fmol Insert --- 150 fmol Buffer 3 µl 3 µl Ligase 1 µl 1 µl Water add to 30 µl add to 30 µl - Incubate at room temperature for 3 hours
- Transform competent cells.
Use 1 µl for electro competent cells and 10 µl for chemical competent cells. Plate on plates using the apropriate antibiotic. Incubate over night.
Useful Formula:
Desired amount in ng =
= amount in fmol x length of plasmid in bp
( 660 fg / 1 fmol ) x ( 1 ng / 1000000 fg )
Which is equal to:
Desired amount in ng = amount in fmol
x length of plasmid in bp
x 0.00066 x (ng / fmol )
Materials needed:
T4 DNA Ligase (# 716 359) by Roche
Commented Protocol:
1. Digest the two vectors you like to use for 3 hours
As a rule of the thumb I use 2 µg of
plasmid and 1.5-2.0 µl of each enzyme in a 50 µl
reaction. If I use SAP (to remove the phosphates) on the vector,
I add 1 µl after 2 hours and another 1 µl after
2.5 hours and inactivate it by heat shock (65 °C for 15 min)
after 3 hours.
Usually one hour is sufficient, but I prefer to
have an extended time to allow complete digestion. Use not
more than 10% of the digest volume for enzymes, the concentration
of glycerol could cause problems.
I only use shrimp alkaline phosphatase (SAP) and not calf
intestinal alkaline phosphatase (CIP), because SAP can be heat
inactivated and CIP not. Always heat inactivate SAP, even if you
purify later on a gel. If you want to clone undigested PCR
products, do not use phosphatase because the primers do not have
phosphates on their 5' end and ligation will not work.
If you want to clone PCR products with restriction sites
introduced on the 5' end of the primers, take care that there
are 4-6 extra nucleotides between the restriction site and
the end of the primer, otherwise the digestion may not work
efficiently.
2. Allways purify all fragments by gel purification
Do NOT make pictures of the gel before you
cut out the bands! If you cut out the bands, be fast and expose
the DNA to as few UV light as possible!
Load the digest mix on a suitable gel, don't forget
the marker, cut out the band you need and make a picture of the
gel if you like. Use a kit to purify the DNA from the gel, but
don't use too much elution buffer.
This step is important to clean of the undigested plasmids.
3. Measure DNA concentration by gel or nanodrop
Usually the concentration is quite low, but a nanodrop can measure it quite well. The better and more time consuming method is to load 10% of the fragment solution on a gel and compare the band densities to the known band densities of the marker.
4. Calculate the amount in ng needed of each fragment
We use a vector : insert ratio of 1:3
For the vector you need 50 fmol:
ng needed = (length of the plasmid in bp)
x 0.033
For the insert you need 150 fmol:
ng needed = (length of the plasmid in bp)
x 0.099
If you use two inserts for a three point ligation,
use all three fragments in 100 fmol. The vector : insert : insert
ratio is then 1:1:1.
ng needed = (length of the plasmid in bp)
x 0.066
5. Calculate the amount in µl needed of each fragment
µl needed
= ng needed / (concentration in
ng/µl)
This should be easy.
6. Prepare the ligation mix
We prepare two reactions, one with insert (B) and one without (A):
| A | B | |
| Vector | 50 fmol | 50 fmol |
| Insert | --- | 150 fmol |
| Buffer | 3 µl | 3 µl |
| Ligase | 1 µl | 1 µl |
| Water | add to 30 µl | add to 30 µl |
This allows to check the ligation. You should get 100x more colonies from B than from A. If A has many colonies, the digestion did not work well and using SAP on the vector or to digest longer could help. If you get hardly any colonies, check if the competent cells are still good.
7. Incubate at room temperature for 3 hours
Some people also incubate at 16 °C over night, but I get better results with the 3 hours at room temperature.
8. Transform competent cells.
Use 1 µl for electro competent cells
and 10 µl for chemical competent cells. Plate on plates
using the apropriate antibiotic. Incubate over night.
The ligation mix is quite salt rich and will make
electro competent cells bang if you use too much.
Known Issues:
- If ligation does not work, most of the times the ligation buffer is spoiled (ATP degraded). Buy a new batch!
- Another reason might be the exposure to UV light. Especially with lights which are to strong or with the wrong wavelength, the DNA might be damaged so much that no colonies are obtained after ligation.
- If you don't get any colonies, check your competent cells. Recheck that there are no restriction sites in vector or insert which you overlooked and mess up your strategy.
References and Comments:
This is a collection of all my experiences with ligations in the last eight years. If you follow this protocol, it should work.
How to cite this page in publications:
This document can be cited like this:
Untergasser A. “Ligation”
Untergasser's Lab. Summer 2008. (include here
the date when you accessed these page).
<http://www.untergasser.de/lab/protocols/ligation_v1_0.htm>.
Please Do Not Reprint This Article:
This article is copyrighted. Please do not reproduce this article in whole or part, in any form, without obtaining my written permission.