GeneRacer™ Kit with SuperScript™ III RT and TOPO TA Cloning™ Kit for Sequencing
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GeneRacer™ Kit with SuperScript™ III RT and TOPO TA Cloning™ Kit for Sequencing
인용 및 참조 문헌 (16)
Invitrogen™

GeneRacer™ Kit with SuperScript™ III RT and TOPO TA Cloning™ Kit for Sequencing

GeneRacer™는 첨단 RACE (rapid amplification of cDNA ends) 기술로 full-length 5´ 및 3´ cDNA end의 증폭 효율을 높입니다. GeneRacer™ Kit의자세히 알아보기
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카탈로그 번호수량
L1502011 Kit
카탈로그 번호 L150201
제품 가격(KRW)
1,168,000
Online offer
Ends: 31-Dec-2025
1,374,000
할인액 206,000 (15%)
Each
카트에 추가하기
수량:
1 Kit
제품 가격(KRW)
1,168,000
Online offer
Ends: 31-Dec-2025
1,374,000
할인액 206,000 (15%)
Each
카트에 추가하기
GeneRacer™는 첨단 RACE (rapid amplification of cDNA ends) 기술로 full-length 5´ 및 3´ cDNA end의 증폭 효율을 높입니다. GeneRacer™ Kit의 장점:

• 10 kb 이상의 transcript에서 cDNA 생성

• 세포당 30 copy 미만의 드문 transcript의full-length 5´ end 확보

• full-length 5´ 및 3´ ends를 클로닝하여 완전한 cDNA sequence 수립

GeneRacer™ Kit는 SuperScript™ III Reverse Transcriptase (RT)와 함께 사용해 복잡한 mRNA에서 full-length 5´ end 증폭을 개선할 수 있습니다. RNase H portion of SuperScript™ III RT는 cDNA 합성 중 mRNA 절단을 방지하도록 변형되었습니다. 이는 cDNA의 크기와 수율을 높입니다. SuperScript™ III RT는 야생형 RT보다 열안정성이 높습니다. 이로 고온에서 역전사가 가능하고 복잡한 template의 이차 구조를 느슨하게 하며 cDNA 합성이 완전하게 이루어지게 합니다.

GeneRacer™의 작동기전

GeneRacer™ Kit는 full-length cDNA end를 포함한 transcript만 증폭시킵니다(1,2). 그림 1에 GeneRacer™ Kit의 작동기전이 도식되어 있습니다. 이 고급 프로토콜은 5´ capped mRNA만 특이적으로 표적하여 RNA 수준에서 시작합니다. 다음 단계에서 이 cap이 제거되고 GeneRacer™ RNA Oligo로 대체됩니다. 역전사 중 GeneRacer™ RNA Oligo 시퀀스가 cDNA에 통합됩니다. 완전히 역전사된 cDNA만 알려진 이 시퀀스를 포함합니다. 그러면 5´ RACE PCR가 GeneRacer™ RNA Oligo 시퀀스에 특이적인 GeneRacer™ 5´ Primer와 유전자 특이적 primer에서 시행됩니다. 그 결과 full-length 5´ cDNA 시퀀스를 담은 증폭 DNA를 얻게 됩니다.

민감도 및 길이

To demonstrate the ability of the GeneRacer™ Kit의 full-length 5fi cDNA end 확보 성능을 입증하기 위해 알고 있는 transcription 시작 영역에 유전자 5fi end를 증폭시켰습니다. 총 RNA를 시작 물질로 하여 GeneRacer™ 프로토콜을 실시하였을 때 long transcripts (10 kb)와 0.01%의 드문 메시지(세포 당 30 copy)가 증폭되었습니다(그림 2).
For Research Use Only. Not for use in diagnostic procedures.
사양
박테리아 또는 효모 균주TOP10
클로닝 방법TOPO TA
용도(애플리케이션)Reverse Transcription
포함GeneRacer Module: 2 x 1.5mL Sterile Water, 24μL RNaseOut, 6μL each Calf Intestinal Phosphatase (CIP), CIP Buffer, Tobacco Acid Pyrophosphatase (TAP), 10X TAP Buffer, T4 RNA Ligase, 10X T4 RNA Ligase Buffer, and 10mM ATP, 6 x 250ng GeneRacer RNA Oligo, 2 x 1mL Phenol/Chloroform, 36μL Mussel Glycogen, 200μL Sodium Acetate (3M), 225μL each GeneRacer 5' Primer, 5' Nested Primer, 3' Primer, and 3' Nested Primer, 20μL Control HeLa Total RNA (500ng/μL), 15μL each Control Primer A and Control Primer B.1; SuperScript III RT Module: 6μL SuperScript III Reverse Transcriptase (200U/μL), 24μL 5X First Strand Buffer, 15μL DTT (0.1M), 6μL RNaseH (2U/μL), 6μL Random Primers (100ng/μL), 6μL GeneRacer Oligo dT Primer (900ng/μL), 6μL dNTP Mix (10mM each), 10 S.N.A.P. Columns, TOPO TA Cloning Kit for Sequencing (-20°C), Sufficient reagents and One Shot TOP10 Chemically Competent E. coli
제품라인GeneRacer, SuperScript, TA Cloning, TOPO
제품 유형Cloning Kit
수량1 Kit
벡터pCR4-TOPO TA
형식Kit
Unit SizeEach
구성 및 보관
Store each module as indicated:

GeneRacer™ Module (-20°C):

• 2 × 1.5 ml Sterile Water

• 24 μl RNaseOut™

• 6 μl each Calf Intestinal Phosphatase (CIP), CIP Buffer, Tobacco Acid Pyrophosphatase (TAP), 10X TAP Buffer, T4 RNA Ligase, 10X T4 RNA Ligase Buffer, and 10 mM ATP

• 6 × 250 ng GeneRacer™ RNA Oligo

• 2 × 1 ml Phenol/Chloroform

• 36 μl Mussel Glycogen

• 200 μl Sodium Acetate (3 M)

• 225 μl each GeneRacer™ 5′ Primer, 5′ Nested Primer, 3′ Primer, and 3′ Nested Primer

• 20 μl Control HeLa Total RNA (500 ng/μl)

• 15 μl each Control Primer A and Control Primer B.1

SuperScript™ III RT Module (-20°C)

• 6 μl SuperScript™ III Reverse Transcriptase (200 U/μl)

• 24 μl 5X First Strand Buffer

• 15 μl DTT (0.1 M)

• 6 μl RNaseH (2 U/μl)

• 6 μl Random Primers (100 ng/μl)

• 6 μl GeneRacer™ Oligo dT Primer (900 ng/μl)

• 6 μl dNTP Mix (10 mM each)

10 S.N.A.P.™ Columns (room temperature)

TOPO TA Cloning™ Kit for Sequencing (-20°C)

• Sufficient reagents and One Shot™ TOP10 Chemically Competent E. coli (store at -80°C) to clone 10 GeneRacer™ PCR products; GeneRacer Module (-20°C), SuperScript III RT Module (-20°C), Competent E. coli (store at -80°C), S.N.A.P. Columns (room temperature), TOPO TA Cloning Kit for Sequencing (-20°C)

자주 묻는 질문(FAQ)

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.

I'm getting no bands after electrophoretic analysis of my amplified RT-PCR products. Can you please offer some tips?

Please see the following causes and suggestions:

Procedural error in first-strand cDNA synthesis - Use high-quality RNA as a control to verify the efficiency of the first-strand reaction.
RNase contamination - Add control RNA to sample to determine if RNase is present in the first-strand reaction. Use an RNase inhibitor in the first-strand reaction.
Polysaccharide co-precipitation of RNA - Precipitate RNA with lithium chloride to remove polysaccharides, as described in Sambrook et al.
Target mRNA contains strong transcriptional pauses - Use random hexamers instead of oligo(dT) in the first-strand reaction, increase the temperature, and use PCR primers closer to the 3' terminus of the target cDNA.
Too little first-strand product was used in PCR - Use up to 10% of first-strand reaction per 50 mL PCR.
Gene-specific primer was used for first-strand synthesis - Try another set of GSP or switch to oligo(dT). Make sure the GSP is the antisense of the sequence.
Inhibitors of RT present - Remove inhibitors by ethanol precipitation of mRNA preparation before the first-strand reaction. Include a 70% (v/v) ethanol wash of the mRNA pellet. Note: inhibitors of RT include SDS, EDTA, guanidinium salts, formamide, sodium pyrophosphate, and spermidine.
RNA has been damaged or degraded - Ensure that high-quality, intact RNA is being used.
Annealing temperature is too high - Decrease temperature as necessary and/or use touchdown PCR.

View all GeneRacer™ Kit with SuperScript™ III RT and TOPO TA Cloning™ Kit for Sequencing FAQs

인용 및 참조 문헌 (16)

인용 및 참조 문헌
Abstract
A novel notch protein, N2N, targeted by neutrophil elastase and implicated in hereditary neutropenia.
Authors:Duan Z, Li FQ, Wechsler J, Meade-White K, Williams K, Benson KF, Horwitz M,
Journal:Mol Cell Biol
PubMed ID:14673143
Mutations in ELA2, encoding the human serine protease neutrophil elastase, cause cyclic and severe congenital neutropenia, and recent evidence indicates that the mutations alter the membrane trafficking of neutrophil elastase. These disorders feature impaired bone marrow production of neutrophils along with excess monocytes-terminally differentiated lineages corresponding to the two alternative ... More
A gene encoding a protein modified by the phytohormone indoleacetic acid.
Authors: Walz Alexander; Park Seijin; Slovin Janet P; Ludwig-Müller Jutta; Momonoki Yoshie S; Cohen Jerry D;
Journal:Proc Natl Acad Sci U S A
PubMed ID:11830675
'We show that the expression of an indole-3-acetic acid (IAA)-modified protein from bean seed, IAP1, is correlated to the developmental period of rapid growth during seed development. Moreover, this protein undergoes rapid degradation during germination. The gene for IAP1, the most abundant protein covalently modified by IAA (iap1, GenBank accession ... More
Gata factor translation is the final downstream step in the amino acid/tor-mediated vitellogenin gene expression in the anautogenous mosquito aedes aegypti.
Authors:Park JH, Attardo GM, Hansen IA, Raikhel AS,
Journal:J Biol Chem
PubMed ID:16490782
'Ingestion of blood is required for vector mosquitoes to initiate reproductive cycles determining their role as vectors of devastating human diseases. Nutritional signaling plays a pivotal role in regulating mosquito reproduction. Transcription of yolk protein precursor genes is repressed until mosquitoes take blood. Previously, we have shown that to signal ... More
Alternative promoters regulate transcription of the gene that encodes stem cell surface protein AC133.
Authors:Shmelkov SV, Jun L, St Clair R, McGarrigle D, Derderian CA, Usenko JK, Costa C, Zhang F, Guo X, Rafii S,
Journal:Blood
PubMed ID:14630820
'AC133 is a member of a novel family of cell surface proteins with 5 transmembrane domains. The function of AC133 is unknown. Although AC133 mRNA is detected in different tissues, its expression in the hematopoietic system is restricted to CD34+ stem cells. AC133 is also expressed on stem cells of ... More
Mouse glucocorticoid-induced tumor necrosis factor receptor ligand is costimulatory for T cells.
Authors:Tone M, Tone Y, Adams E, Yates SF, Frewin MR, Cobbold SP, Waldmann H,
Journal:Proc Natl Acad Sci U S A
PubMed ID:14608036
'Recently, agonist antibodies to glucocorticoid-induced tumor necrosis factor receptor (GITR) (tumor necrosis factor receptor superfamily 18) have been shown to neutralize the suppressive activity of CD4+CD25+ regulatory T cells. It was anticipated that this would be the role of the physiological ligand. We have identified and expressed the gene for ... More
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