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Capped RNA that Gives Higher
Protein Yields
mMESSAGE mMACHINE™ T7 Ultra
• Synthesize
more protein from in vitro transcribed RNA
• Express
RNA transcripts more efficiently both in vitro and in vivo
• Stablize
transcripts in vivo with reagents for poly(A) tailing (included)
The mMESSAGE
mMACHINE T7 Ultra Kit produces high quality, efficiently
capped in vitro transcribed mRNA that translates with much
greater efficiency than RNA synthesized with conventional cap
analog. Ensuring that cap is added to RNA transcripts only
in the correct orientation increases translation efficiency
during both in vitro and in vivo translation experiments. Ambion's
Poly(A) Tailing Kit is incorporated into the mMESSAGE mMACHINE
T7 Ultra Kit for production of stable RNA specifically for
microinjection and transfection.
ARCA-capped RNA is Translationally
More Active
Incorporating a new cap analog, Anti-Reverse
Cap Analog (ARCA) (Figure 1), into RNA transcripts has a strong
stimulatory effect on subsequent translation (Figures 2 and 3).
A base modification in this cap analog generates RNAs with ARCA
incorporated only in the functional, translatable orientation;
conventional cap analog is incorporated in both a functional
and nonfunctional orientation (see "Proper Capping of in Vitro
Transcribed RNA" at right). Substitution of conventional cap
analog with ARCA yields capped RNAs that are 100% translatable.
The level of Translation is further enhanced by adding a poly(A)
tail to the transcript. Figures 2 and 3 present protein synthesis
data comparing ARCA and ARCA/poly(A) tailed transcripts to conventional
cap analog and cap analog/poly(A) tailed transcripts in both
transfection and microinjection experiments, respectively. All
of the experiments indicated higher levels of protein synthesis
with ARCA capped RNA.
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Figure 1. Schematic
of ARCA Molecule.
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Figure 2. Transcripts
Containing ARCA Are More Highly Translated In Transfected
Cells. Comparison of
protein expression from standard and ARCA capped luciferase
RNAs, plus and minus poly(A) tail, at different time points
after transfection.
A. Either standard cap analog-capped or ARCA-capped
luciferase in vitro transcribed RNA (1 µg) was transfected
into HeLa cells. Cells were harvested and lysed at 8
hr, 10 hr, 12 hr, 24 hr and 48 hr post-transfection.
Luciferase activity was measured and plotted against
transfection time. B. Poly(A)-tailed luciferase
RNA (1 µg) prepared in either a standard mMESSAGE
mMACHINE™ or a mMESSAGE mMACHINE Ultra reaction
was transfected as above. Luciferase activity was measured
and plotted against time following transfection. |
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| Figure 3. Transcripts
Containing ARCA Are More Highly Translated In Microinjected
Embryos. Comparison
of protein expression, from standard Cap Analog and ARCA
capped luciferase RNA at different time points after microinjection.
Either standard cap analog-capped or ARCA-capped luciferase
RNA (100 pg) was microinjected into Xenopus embryos.
Embryos were harvested and lysed at 8 hr, 24 hr, 50 hr, and
70 hr post injection. Luciferase activity was measured and
plotted against time since microinjection. |
The mMESSAGE mMACHINE T7 Ultra
Kit combines ARCA and reagents for poly(A) tailing with Ambion's
patented high yield transcription technology. The incorporation
of ARCA into RNA transcripts is efficient and does not compromise
RNA yield (see below). In addition, RNA transcribed with the mMESSAGE
mMACHINE T7 Ultra Kit is more stable and more efficiently translated
than RNA synthesized by traditional transcription kits. mMESSAGE
mMACHINE T7 Ultra transcripts are ideal for both in vitro and in
vivo translation experiments.
Capping RNA Transcripts with
ARCA
ARCA was incorporated in an in vitro transcription
system using short (6 nt) and long (1.8 kb) transcripts, each beginning
with a G residue. Cap analogs such as ARCA compete with GTP for
incorporation into the first nucleotide position. As the ratio
of the cap analog to GTP increases in the reaction, the ratio of
capped RNA to uncapped RNA increases proportionally. The 6 nt transcripts
were trace labeled during synthesis and analyzed by denaturing
polyacrylamide gel electrophoresis (Figure 4). Capped RNA migrated
more slowly than uncapped RNA. These data confirm that ARCA is
efficiently incorporated into in vitro transcripts and that the
yield of synthetic RNA in the presence of ARCA is comparable to
the yield in the presence of m7GpppG.
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| Figure 4. Ratio
of Cap Analog:GTP to Maximize Yield of ARCA Capped Transcripts. ARCA
was incorporated along with GTP during in vitro transcription
system using short (6 nt) and long (1.8 kb) transcripts containing
a "G" as the first nucleotide. Cap analogs such as ARCA compete
with GTP for incorporation into the first nucleotide position.
As the ratio of the cap analog to GTP increases in the reaction,
the ratio of capped RNA to uncapped RNA increases proportionally.
The short RNA transcripts were resolved on a 20% denaturing
polyacrylamide/8 M urea gel and synthesized products were
detected by autoradiography. |
Complete Kit Including Poly(A)
Tailing Reagents
The mMessage mMachine T7 Ultra Kit produces
high quality, ARCA capped RNA that translates with much greater
efficiency than RNA synthesized with conventional cap analog.
The kit provides sufficient reagents to perform ten 20 µl
transcription reactions. Also included are reagents for poly(A)
tailing for the production of poly(A) tailed RNA specifically
for microinjections and transfections.
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Ordering Information
For prices and availability, please contact our Customer Service Department.
| Cat# |
Product Name |
Size |
| AM1345 |
mMESSAGE mMACHINE® T7 ULTRA Kit |
10 rxns |
| AM1350 |
Poly(A) Tailing Kit |
25 rxns |
| AM8045 |
ARCA (Anti Reverse Cap Analog) |
10 U |
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In Vitro Transcription: The Basics
[read]
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Practical Tips for In Vitro Transcription
[read]
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Proper capping of RNA promotes correct initiation
of protein synthesis, as well as stability and processing of mRNA in
vivo. Uncapped RNA is rapidly degraded by cellular RNases after microinjection
or transfection into cells. Capped RNA is also typically translated more
efficiently in reticulocyte lysate and wheat germ in vitro translation
systems. While "cap", or N7-methylguanosine, is present on the 5' end
of most naturally occurring eukaryotic mRNAs and many viral RNAs, the
dinucleotide, m7G(5')ppp(5')G, or 'standard' cap analog, is routinely
added onto synthetic transcripts generated during in vitro transcription.
However, cap analog is incorporated into the RNA in both the forward
[m7G(5')pppG(pg)] and reverse orientation [G(5')pppm7G(pN)] leading to
the synthesis of two isomeric populations of RNA of approximately equal
proportion (Pasquinelli et al., (1995) RNA 1:957-967).
RNA capped with reverse 5' caps cannot be translated, resulting in a
50% reduction in expected yield of protein. One way to prevent incorporation
of cap analog in the reverse orientation and to maximize translation
efficiency is to use the recently described Anti-Reverse Cap Analog (ARCA)
(Stepinski J, et al. (2001) RNA 7:14861495, Peng,
Z-H, et al. (2002) Organic Letters 4:161164). In
ARCA, one of the 3' OH groups (closer to 7mG) is replaced with OCH3 (Figure
1). This modification restricts transcription initiation to
the remaining OH group, generating RNAs with cap analog incorporated
only in the functional orientation. Therefore, substitution of traditional
cap analog with ARCA results in the synthesis of capped RNAs that are
100% translatable.
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