Technical
Sheet
Oligonucleotide
Purification
Automated chemical
synthesis of DNA has improved rapidly, with substantial gains made in the
chemistry enabling routine coupling yields in excess of 99% and very reliable automation
with each synthesis cycle of less than 3 min. The final oligonucleotide product
obtained in the 20-30mer range is substantially pure with very low truncated
sequences thus requiring no further purification for most routine applications
involving Polymerase Chain Reaction (PCR*) and DNA sequencing. Purification may
be required for other applications and is recommended for cloning, site
directed mutagenesis, ligation etc.
Purification of
oligonucleotides can be accomplished by various methods, the selection based on
the particular requirement. The common techniques available and used frequently
are polyacrylamide gel purification (PAGE), HPLC and Reverse Phase Cartridge
(RPC). The table below summarizes the purification range of each of the above techniques.
|
PAGE |
HPLC |
RPC |
8-40mer |
Yes |
Yes |
Yes |
41-200mer |
Yes |
No |
No |
Polyacrylamide Gel
Purification
Purification by this method
is considered the Gold Standard for oligonucleotide purification. PAGE
purification can be used for any length of oligonucleotide (as compared to HPLC
and RPC cartridges which are limited to oligonucleotides preferably below
35mer). This technique is also the most labor intensive method. Appropriate
percentage of polyacrylamide gel (10-20%) is prepared and the oligonucleotide
electrophoresed. The major product is the slowest migrating band which is
identified by UV shadowing and excised out. The gel slice is then processed for
oligo elution commonly by crush and soak method.
HPLC
HPLC purification is
usually based on reverse phase utilizing hydrophobic matrices. The
oligonucleotide is synthesized with Trityl ON (the triphenylmethyl group at the
5’ OH of the last base of the synthetic oligonucleotide) and the elution
profile first elutes all non-tritylated truncated sequences followed by elution
of the hydrophobically bound full length oligonucleotide. This method yields
greater than 95% purity depending upon the sequence and length of the
oligonucleotide. Reverse phase based HPLC fails above 35-40mer oligonucleotide
as longer oligos are inherently hydrophobic and binds non-specifically.
Reverse Phase Cartridge
This is an inexpensive
alternate to HPLC reverse phase purification. The cartridge for reverse phase
purification usually contains a hydrophobic matrix e.g. C18 silica, the
principle of purification being the same as HPLC as well as the purification
achieved of ~95% purity depending upon the sequence and length of the
oligonucleotide. Reverse phase cartridge based purification also fails above
35-40mer oligonucleotide as longer oligos are inherently hydrophobic and binds
non-specifically.
Recommendation
All Gene Link oligos
shorter than 40mer usually does not require any further purification if the
application is for PCR or sequencing. Gel purification is strongly advised for
all applications involving cloning of the product, example mutagenesis, cloning
or gene construction application. Reverse Phase Cartridge or HPLC purification
is NOT advised.
Price List
Purification |
|||||
|
50 nmol |
200 nmol |
1m mol |
10 m mol |
15 m mol |
Gel Purification |
$75.00 |
$75.00 |
$150.00 |
$1500.00 |
$1500.00 |
Reverse Phase Cartridge
(RPC) |
$30.00 |
$30.00 |
$90.00 |
$750.00 |
$750.00 |
**The polymerase chain
reaction (PCR) process is covered by patents owned by
Hoffmann-La Roche. A license
to perform is automatically granted by the use of authorized reagents.
Prices subject to change without notice
All Gene Link products are for research use only.
Please direct all pricing inquiries
to our Orders
department.
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