5' RACE System for Rapid Amplification of cDNA Ends, version 2.0
5' RACE System for Rapid Amplification of cDNA Ends, version 2.0
Citações e referências (25)
Invitrogen™

5' RACE System for Rapid Amplification of cDNA Ends, version 2.0

The 5´ RACE System for Rapid Amplification of cDNA Ends, Version 2.0, is suitable for rapid amplification of cDNA endsLeia mais
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Número do catálogoQuantity
1837405810 Reactions
Número do catálogo 18374058
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-
Quantity:
10 Reactions
The 5´ RACE System for Rapid Amplification of cDNA Ends, Version 2.0, is suitable for rapid amplification of cDNA ends (RACE) between a defined point in the mRNA and the 5´ end. The 5' RACE System provides a set of prequalified reagents intended for synthesis of first-strand cDNA, purification of first-strand products, homopolymeric tailing, and preparation of target cDNA for subsequent amplification by PCR. Control RNA, DNA, and primers are provided for monitoring system performance. The system is useful for the amplification of rare messages for which little sequence information may be available, and for capturing the 5´ end information of mRNA. The 5´ RACE system:

• Uses the advanced capabilities of SuperScript™ II RNase H- RT for greater first-strand cDNA yields and increased cDNA lengths
• Prepares specific cDNA from up to 1 μg of total or poly(A)+ RNA in one reaction
• Offers improved first-strand cDNA purification procedure that yields cDNA suitable for tailing
• Uses recombinant TdT with optimized reaction conditions in a PCR-compatible buffer to provide an efficient primer annealing site for PCR
For Research Use Only. Not for use in diagnostic procedures.
Especificações
For Use With (Application)cDNA Libraries & Library Construction
Product TypecDNA library
Quantity10 Reactions
Unit SizeEach
Conteúdo e armazenamento
The 5´ RACE System is supplied with the components listed in Table 1. Store the reagents at -20°C and the DNA purification components at +4°C.

Frequently asked questions (FAQs)

Can I purchase the 5‘ RACE Abridged Anchor Primer (AAP), Universal Amplification Primer (UAP), and Abridged Universal Amplification Primer (AUAP) from the 5‘ RACE System as stand-alone items?

The 5‘ RACE Abridged Anchor Primer (AAP), Universal Amplification Primer (UAP), and Abridged Universal Amplification Primer (AUAP) have been discontinued as stand-alone items. Their sequences can be found on Page 4 of the manual.

How long can I store the cDNA from my reverse transcription step?

You can store your cDNA at 2-6 degrees C for up to 24 hours. For long-term storage, store the cDNA at -15 to -25 degrees C and add EDTA to a final concentration of 1 mM to prevent degradation.

I'm getting PCR products from my 5' RACE, but they are not full length. What should I do?

The GeneRacer method is designed to ensure that only full-length messages are ligated to the GeneRacer RNA Oligo and PCR amplified after cDNA synthesis. It is highly recommended that you clone your RACE products and analyze at least 10-12 colonies to ensure that you isolate the longest message. Many genes do not have only one set of transcription start sites but rather multiple transcription start sites spanning sometimes just a few or other times a hundred or even more bases. Cloning of the RACE products and analyzing multiple colonies ensues that you detect the diversity of the heterogeneous transcription start sites of your gene. It is also possible that you might obtain PCR products that may not represent the full-length message for your gene. PCR products that do not represent full-length message may be obtained because:

-RNA degradation after the CIP reaction creates new truncated substrates with a 5' phosphate for ligation to the GeneRacer RNA Oligo. Be sure to take precautions to ensure that the RNA is not degraded.
-CIP dephosphorylation was incomplete. Increase the amount of CIP in the reaction or decrease the amount of RNA.
-PCR yielded a PCR artifact and not true ligation product. Optimize your PCR using the suggestions described above.

I'm seeing RACE PCR artifacts in my GeneRacer experiment. What am I doing wrong?

RACE PCR artifacts or nonspecific PCR bands can result from one or more of the following:

-Nonspecific binding of GSPs to other cDNAs resulting in the amplification of unrelated products as well as desired products.
-Nonspecific binding of GeneRacer primers to cDNA resulting in PCR products with GeneRacer primer sequence on both ends of the PCR product.
-RNA degradation.
-Contamination of PCR tubes or reagents.
Note: Artifacts usually result from less than optimal PCR conditions and can be identified in negative control PCR.

I'm getting unexpected bands after electrophoretic analysis of my amplified RT-PCR products. Can you please offer some suggestions?

Please see the following causes and suggestions:
Contamination by genomic DNA or an unexpected splice variant - Pretreat RNA with DNase I, amplification grade (Cat. No 18068015).
Design primers that anneal to sequences in exons on both sides of an intron or at the exon/exon boundary of the mRNA to differentiate between amplified cDNA and potential contaminating genomic DNA.
To test if products were derived from DNA, perform a minus RT control.
Nonspecific annealing of primers - Vary the PCR annealing conditions.
Use a hot-start PCR polymerase.
Optimize magnesium concentration for each template and primer combination.
Primers formed dimers - Design primers without complementary sequences at the 3' ends.

View all 5' RACE System for Rapid Amplification of cDNA Ends, version 2.0 FAQs

Citações e referências (25)

Citações e referências
Abstract
Identification and characterization of RPK118, a novel sphingosine kinase-1-binding protein.
Authors:Hayashi S, Okada T, Igarashi N, Fujita T, Jahangeer S, Nakamura S
Journal:J Biol Chem
PubMed ID:12077123
'Sphingosine kinase (SPHK) is a key enzyme catalyzing the formation of sphingosine 1 phosphate (SPP), a lipid messenger that is implicated in the regulation of a wide variety of important cellular events through intracellular as well as extracellular mechanisms. However, the molecular mechanism of the intracellular actions of SPP remains ... More
Modulation of mouse Paneth cell alpha-defensin secretion by mIKCa1, a Ca2+-activated, intermediate conductance potassium channel.
Authors: Ayabe Tokiyoshi; Wulff Heike; Darmoul Dalila; Cahalan Michael D; Chandy K George; Ouellette Andre J;
Journal:J Biol Chem
PubMed ID:11724775
'Paneth cells in small intestinal crypts secrete microbicidal alpha-defensins in response to bacteria and bacterial antigens (Ayabe, T., Satchell, D. P., Wilson, C. L., Parks, W. C., Selsted, M. E., and Ouellette, A. J. (2000) Nat. Immunol. 1, 113- 38). We now report that the Ca(2+)-activated K(+) channel mIKCa1 modulates ... More
The cathepsin B of Toxoplasma gondii, toxopain-1, is critical for parasite invasion and rhoptry protein processing.
Authors: Que Xuchu; Ngo Huân; Lawton Jeffrey; Gray Mary; Liu Qing; Engel Juan; Brinen Linda; Ghosh Partho; Joiner Keith A; Reed Sharon L;
Journal:J Biol Chem
PubMed ID:12000756
'Cysteine proteinases play a major role in invasion and intracellular survival of a number of pathogenic parasites. We cloned a single copy gene, tgcp1, from Toxoplasma gondii and refolded recombinant enzyme to yield active proteinase. Substrate specificity of the enzyme and homology modeling identified the proteinase as a cathepsin B. ... More
Misexpression of the eyes absent family triggers the apoptotic program.
Authors: Clark S Wesley; Fee Brian E; Cleveland John L;
Journal:J Biol Chem
PubMed ID:11700312
'Genetic studies in Drosophila and mice have shown that eyes absent (eya) is an important and conserved transcriptional regulator of development. Along with eyeless/Pax6, sine oculis, and dachshund, eya genes function as master regulators in eye development and can induce ectopic eye formation. Furthermore, the loss-of-function mutants of these genes ... More
A novel zinc finger transcription factor with two isoforms that are differentially repressed by estrogen receptor-alpha.
Authors: Conroy Andrew T; Sharma Manju; Holtz Ann E; Wu Chengbiao; Sun Zijie; Weigel Ronald J;
Journal:J Biol Chem
PubMed ID:11779858
'Estrogen receptor-alpha (ERalpha) can induce the expression of genes in response to estrogen by binding to estrogen response elements in the promoters of target genes. There is growing evidence that ERalpha can alter patterns of gene expression in response to ligand by regulating the activity of other factors through a ... More
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