Silencer™ Negative Control No. 1 siRNA
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Invitrogen™

Silencer™ Negative Control No. 1 siRNA

Ambion™ Silencer™ Negative Control #1 siRNA는 mouse, rat 또는 사람 유전자 염기서열과 유의한 유사성은 없습니다. 이 대조물질은 세포 기반 스크린에서자세히 알아보기
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카탈로그 번호수량
AM463540 nmol
AM46115 nmol
AM46365 x 40 nmol
카탈로그 번호 AM4635
제품 가격(KRW)
983,000
Each
카트에 추가하기
수량:
40 nmol
제품 가격(KRW)
983,000
Each
카트에 추가하기
Ambion™ Silencer™ Negative Control #1 siRNA는 mouse, rat 또는 사람 유전자 염기서열과 유의한 유사성은 없습니다. 이 대조물질은 세포 기반 스크린에서 시험하여 세포 증식, 생활성, 형태에 큰 영향을 미치지 않는 것으로 입증되었습니다. 5 nmol로 제공됩니다.

• 알려진 유전자와 염기서열의 유사성이 제한적이어서 표적이 되지 않습니다.
• 사람, mouse, rat 세포에서의 사용에 대해 검증되었습니다.
• 세포 증식과 생활성에 미치는 영향이 최소인 것으로 기능적으로 입증되었습니다.
• HPLC로 정제되어 듀플렉스되었으며 즉시 사용할 수 있습니다.

Negative control siRNA는 transfection의 효율성(efficiency)을 측정하고 siRNA 전달 효과를 통제하는데 필수적입니다. siRNA 스크리닝 어플리케이션에서 negative control siRNAs는 siRNA가 특정 분석에 갖는 영향이 양성, 음성, 중성인지를 판단하는 “hit” 역치 설정에도 중요합니다.

악세서리: Silencer™ siRNA Screening Control Panel (SKU#AM4640)
The Silencer™ siRNA Screening Control Panel에는 negative control siRNAs 7개가 포함되어 연구자들이 실험 당 수 백, 수천 개의 siRNA를 탐색하는 siRNA 스크리닝을 수행할 수 있게 합니다. Negative control siRNAs는 특정 분석에서 의도하지 않은 영향이 있을 수 있기 때문에 신중하게 선택해야 합니다. Silencer™ siRNA Screening Control Panel이 이 과정을 간편하게 합니다. 부가적인 이점으로 사람, mouse, rat, KIF11 (Eg5)에 대한 positive control siRNA가 이 패널에 포함되어 있습니다. kinesin 계 모터(motor) 단백질을 인코딩하는 KIF11 Knockdown으로 유사분열이 정지됩니다. Silencer™ control siRNA는 unmodified 21-mers이며 Silencer™ siRNAs, BLOCK-iT™ siRNAs, 및 다른 unmodified 21mer siRNAs와 함께 사용하도록 만들어졌습니다. Ambion™ Silencer™ Select siRNAs 또는 STEALTH RNAi™ siRNAs 등의 다른 siRNA 제품을 이용한다면 실험 결과의 신뢰도(reliability)를 높이기 위해 이들 siRNA에 사용하도록 만들어진 control siRNA를 사용할 것이 권장됩니다.
For Research Use Only. Not for use in diagnostic procedures.
사양
용도(애플리케이션)Transfection, RNAi
라벨 또는 염료Unconjugated
제품라인Silencer, Ambion
제품 유형siRNA
순도HPLC
수량40 nmol
배송 조건Room Temperature
제어 유형Negative Control
RNAi TypesiRNA
Human, Mouse, Rat
Unit SizeEach
구성 및 보관
The siRNA is provided dried down in a single tube, along with Nuclease-free Water for resuspension, and should be stored at –20°C.

자주 묻는 질문(FAQ)

What are the benefits of using a vector to deliver RNAi?

Vector technologies allow you to:

Achieve transient or stable target knockdown
Perform RNAi in any cell type, even hard-to-transfect, primary, and non-dividing cells
Regulate gene inhibition with inducible siRNA expression
Select for a pure population of cells stably expressing an siRNA sequence
Control gene expression in vivo with tissue-specific promoters

Find additional tips, troubleshooting help, and resources within our RNAi Support Center.

Why are my cells dying after transfection?

We would suggest running a transfection reagent control only to determine if your cells are sensitive to the transfection reagent. Additionally, you can try using different cell densities and siRNA concentrations to diminish any toxic effects from the transfection itself.

Find additional tips, troubleshooting help, and resources within our RNAi Support Center.

I transfected my siRNA and the mRNA levels are down, but the protein is not. Why is that?

In some cases, knockdown of a protein can be affected by other variables such as protein turnover rate, even though the RNA is knocked down. Additionally, a longer time course may be needed to see an effect on protein compared to mRNA.

Find additional tips, troubleshooting help, and resources within our RNAi Support Center.

I am not getting my target knockdown. What could be the cause of this?

Please see the following possibilities and suggestions:

- How many siRNA did you test? Is there any knockdown? If there is no knockdown (<10%) in any of the siRNA, then the assay is likely the problem. Try using a different qRT-PCR assay to assess knockdown.
- What was the positioning of the qRT-PCR assay target site relative to the cut site for the siRNA? If greater than 3,000 bases away, the problem could be alternative splice transcripts.
- What are the Cts for the experiment? They should be below 35 in a 40-cycle qRT-PCR experiment.
- Did you confirm the siRNA got into the cell? We recommend using a validated positive control siRNA to check the transfection efficiency.

Find additional tips, troubleshooting help, and resources within our RNAi Support Center.

I am not getting any knockdown with my siRNA. What do you suggest I try?

Please see the following possibilities and suggestions:

- Were the mRNA levels checked? The most reliable method is real-time PCR. In some cases, knockdown of a protein can be affected by other variables, such as protein turnover rate, even though the RNA is knocked down.
- How is the RNA being isolated? Has the quality of the isolated RNA been checked? Ensure that the RNA has not been degraded.
- Was a positive control used? This can help to determine whether the reagents are working and whether the siRNA was delivered correctly to the cell. Run your experiment in parallel with the positive control siRNA.
- Was a transfection control used? What is the percentage of transfected cells?
- Was a time course used? Generally, gene silencing can be assessed as early as 24 hours posttransfection. However, the duration and level of knockdown are dependent on cell type and concentration of siRNA.
- Was optimization of transfection conditions performed? You can try using different cell densities and siRNA concentrations.
- Which concentration of siRNA did you use? We recommend testing multiple concentrations between 5 nM and 100 nM.

Find additional tips, troubleshooting help, and resources within our RNAi Support Center.

View all Silencer™ Negative Control No. 1 siRNA FAQs