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Key Documents

SHC202V

Sigma-Aldrich

MISSION® TRC2 pLKO.5-puro Non-Mammalian shRNA Control Transduction Particles

Targets no known mammalian genes

Synonyme(s) :

MISSION®, MISSION® Control Transduction Particles

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About This Item

Code UNSPSC :
41106609
Nomenclature NACRES :
NA.51

Gamme de produits

MISSION®

Concentration

≥1x106 VP/ml (via p24 assay)

Conditions d'expédition

dry ice

Température de stockage

−70°C

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Description générale

This shRNA non-mammalian control was designed using our Turbo GFP sequence and may cause some knockdown of tGFP. For maximum knockdown of tGFP, please refer to SHC004, SHC004V, SHC004H, SHC204, or SHC204V.

The MISSION TRC2 pLKO-puro Non-Target shRNA Control Transduction Particles are produced from the sequence-verified lentiviral plasmid, TRC2 pLKO-puro Non-Target shRNA (SHC202). This vector is in the TRC2 pLKO-puro plasmid backbone, which contains the WPRE. The vector contains an shRNA insert that does not target human or mouse genes, making it useful as a negative control in experiments using the MISSION TRC2 shRNA library clones.

Unlike murine-based MMLV or MSCV retroviral systems, lentiviral-based particles permit efficient infection and integration of the construct into differentiated and non-dividing cells, such as neurons and dendritic cells, overcoming low transfection and integration difficulties when using these cell lines. Self-inactivating replication incompetent viral particles are produced in packaging cells (HEK293T) by co-transfection with compatible packaging plasmids.

In addition, the lentiviral transduction particles are pseudotyped with an envelope G glycoprotein from Vesicular Stomatitis Virus (VSV-G), allowing transduction of a wide variety of mammalian cells. 200 μl of 106 TU/ml (via p24 titering assay) lentiviral particles are provided as frozen stock.

When conducting experiments using MISSION shRNA clones, the proper controls should be a key element of your experimental design to allow for accurate interpretation of knockdown results.
When conducting experiments using MISSION® shRNA clones, the proper controls should be a key element of your experimental design to allow for accurate interpretation of knockdown results. The MISSION Control Transduction Particles are a critical positive control to monitor transduction efficiency.
To see more application data, protocols, vector maps visit sigma.com/shrna.

Application

Small interfering RNAs (siRNAs) expressed from short hairpin RNAs (shRNAs) are a powerful way to mediate gene specific RNA interference (RNAi) in mammalian cells. The MISSION product line is based on a viral vector-based RNAi library against annotated mouse and human genes. shRNAs that generate siRNAs intracellularly are expressed from amphotropic lentivirus viral particles, allowing screening in a wide range of mammalian cell lines. In these cell lines, MISSION shRNA clones permit rapid, cost efficient loss-of-function and genetic interaction screens.
To see more application data, protocols, vector maps visit sigma.com/shrna.

Informations légales

MISSION is a registered trademark of Merck KGaA, Darmstadt, Germany

Code de la classe de stockage

12 - Non Combustible Liquids

Classe de danger pour l'eau (WGK)

WGK 3

Point d'éclair (°F)

Not applicable

Point d'éclair (°C)

Not applicable


Certificats d'analyse (COA)

Recherchez un Certificats d'analyse (COA) en saisissant le numéro de lot du produit. Les numéros de lot figurent sur l'étiquette du produit après les mots "Lot" ou "Batch".

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Retrouvez la documentation relative aux produits que vous avez récemment achetés dans la Bibliothèque de documents.

Consulter la Bibliothèque de documents

Anaïs Pujals et al.
Autophagy, 11(12), 2275-2287 (2015-11-14)
The Epstein-Barr virus (EBV) is associated with various lymphoproliferative disorders and lymphomas. We have previously demonstrated that treating wild-type TP53-expressing B cell lines with the TP53 pathway activator nutlin-3 induced apoptosis in EBV-negative and EBV-positive latency I cells whereas EBV-positive
Mariano J Alvarez et al.
Nature genetics, 50(7), 979-989 (2018-06-20)
We introduce and validate a new precision oncology framework for the systematic prioritization of drugs targeting mechanistic tumor dependencies in individual patients. Compounds are prioritized on the basis of their ability to invert the concerted activity of master regulator proteins
R Zufferey et al.
Journal of virology, 73(4), 2886-2892 (1999-03-12)
The expression of genes delivered by retroviral vectors is often inefficient, a potential obstacle for their widespread use in human gene therapy. Here, we explored the possibility that the posttranscriptional regulatory element of woodchuck hepatitis virus (WPRE) might help resolve
Claire Deligne et al.
Cancer immunology research, 8(3), 368-382 (2020-01-17)
The interplay between cancer cells and immune cells is a key determinant of tumor survival. Here, we uncovered how tumors exploit the immunomodulatory properties of the extracellular matrix to create a microenvironment that enables their escape from immune surveillance. Using
Caroline Spenlé et al.
Cancer immunology research, 8(9), 1122-1138 (2020-07-16)
Inherent immune suppression represents a major challenge in the treatment of human cancer. The extracellular matrix molecule tenascin-C promotes cancer by multiple mechanisms, yet the roles of tenascin-C in tumor immunity are incompletely understood. Using a 4NQO-induced oral squamous cell

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