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Optimal Probe Concentrations
for Ambion's Ribonuclease Protection Assay Kits
Ribonuclease Protection Assays
Ribonuclease protection assays (RPAs) are
used to measure discrete mRNA transcription levels from tissues
or cell culture. Ambion provides a range of kits to meet this
need: RPA II™, RPA III™, and HybSpeed™ RPA.
Each involves the use of an easily detectable antisense probe,
which is complementary to part of a specific RNA species. After
probe:RNA sample hybridization is allowed to occur, the sample
is degraded with a single-strand specific nuclease to leave only
the double-stranded "protected" fragments. The results
are usually visualized on a polyacrylamide gel to resolve the
size shift of the original probe and its digestion product.
Consequences of Too Much Probe
One of the most common mistakes in designing
a ribonuclease protection experiment is the addition of too much
probe. Those who have performed Northern blotting protocols understand
the need for large amounts of probe. On the other hand, RPAs
require just enough to be in molar excess of the target mRNA
since the hybridization is done in such a small volume (e.g.
20 µl). It is true that adding more probe will enhance
the hybridization kinetics and give a stronger signal. In other
words, more probe gives a better protected fragment signal in
the same amount of time than a sample with a lesser amount of
probe. However, if the problem is examined from an enzyme kinetics
view, as more and more probe is added, the substrate concentration
will eventually rise above the Vmax of the nuclease.
This will result in a failure of the enzyme's ability to destroy
all unprotected probe within the standard digestion incubation
period. In order to prevent this, the probe concentration must
be kept below the Vmax of the nuclease. Empirically,
this is approximately no more than 1-2 fmol of probe per sample
tube. This is acceptable, as at these concentrations the probe
is still saturating in relation to target (except when detecting
ribosomal RNA) for amounts of up to 80 µg of total RNA
sample. In addition, most of the RNA found in a total RNA extract
is ribosomal and transfer RNA, which does not serve as substrate
for the nuclease and does not compete against mRNA for hydrolysis.
Adding more nuclease is not a fix, because it tends to either
overdigest the protected fragment during digestion or before
loading a gel, and thus only contributes to higher background.
How Much Probe to Add
- When synthesizing internally labeled
RNA probe (using the MAXIscript™ Kit) with [alpha-32P]
NTP (800 Ci/mmol, 10mCi/ml) as the limiting nucleotide, it
is sufficient to use 1 x 104 cpm/10 µg total
RNA. The upper limit is roughly 1 x 105 cpm/sample.
If the specific activity of the probe is deliberately lowered
by supplementing with "cold" NTP, proportionally
less cpm are needed.
- When using nonisotopically modified
RNA probe (e.g. using nonisotopically modified probes made
with the MAXIscript Kit according to the guidelines in Technical
Bulletin 173 ), 100 pg/10 µg
total RNA is sufficient. The upper limit is 800 pg.
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