MilliporeSigma, Reagents, M, UN 3245
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MISSION(R) Lenti microRNA, Human hsa-miR-183-5p
MilliporeSigmaSigma's Mission Lenti-miRs express miRNAs from a common backbone, whose structure meets requirements for accurate Dicer processing and a partially complementary strand is designed to mimic the base pairing pattern in the backbone structure using a proprietary algorithm. Oligos containing the…
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MISSION(R) Lenti microRNA, Human hsa-miR-15a-5p
MilliporeSigmaSigma's Mission Lenti-miRs express miRNAs from a common backbone, whose structure meets requirements for accurate Dicer processing and a partially complementary strand is designed to mimic the base pairing pattern in the backbone structure using a proprietary algorithm. Oligos containing the…
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MISSION(R) Lenti microRNA Inhibitor, Mouse mmu-miR-375-3p
MilliporeSigmaIndividual lenti microRNA inhibitors are designed using a proprietary algorithm, which is based on the work of Haraguchi, T, et al. and in collaboration with Dr. Hideo Iba, University of Tokyo. This algorithm utilizes the tough decoy (TuD) design. miRNA are known to regulate gene expression in a…
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When conducting experiments using MISSION(R) 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…
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MISSION(R) Human Kinase Lentiviral shRNA Pool
MilliporeSigmaSigma shRNA Human Kinase Pooled Lentiviral LibrarySigma-Aldrich has a long-standing expertise in pooled lentiviral screening spanning whole genome and custom pool offerings. Due to the popular demand of the kinase gene panel, we are proud to offer an off-the-shelf, ready-to-use shRNA kinase pool…
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MISSION(R) Lenti microRNA, Human hsa-let-7i-5p
MilliporeSigmaSigma's Mission Lenti-miRs express miRNAs from a common backbone, whose structure meets requirements for accurate Dicer processing and a partially complementary strand is designed to mimic the base pairing pattern in the backbone structure using a proprietary algorithm. Oligos containing the…
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MDR1 Knockout Caco-2 Cells one vial
MilliporeSigmaThe C2BBe1 cells, a subclone of Caco-2 cells, correspond to ATCC CRL-2102. The MDR1 knockout C2BBe1 cells are adenocarcinoma, epithelial cells from a human caucasian male (aged 72 years) with functional knockout of the ABCB1 (MDR1) efflux transporter. Synonyms: C2BBe1 Cells MDR1 (-/-/-/-) …
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When conducting experiments using MISSION(R) 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…
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Sigma(R) is proud to offer IPTG-inducible vectors as the latest development from our continued partnership in TRC.The pLKO vector has been redesigned to contain a LacI (repressor) and a modified human U6 shRNA promoter with LacO (operator) sequences. In the absence of IPTG…
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When conducting experiments using MISSION(R) 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…
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When conducting experiments using MISSION(R) 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…
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Ready to use MS2-P65-HSF1 lentiviral particles enable immediate transduction of a wide range of cell lines. MS2-P65-HSF1 lentiviral particles efficiently and stably integrate MS2-P65-HSF1 and hygromycin resistance cassette linked by a 2A peptide and driven by the EF1 alpha promoter…
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MISSION(R) Lenti microRNA, Human hsa-miR-6126
MilliporeSigmaSigma's Mission Lenti-miRs express miRNAs from a common backbone, whose structure meets requirements for accurate Dicer processing and a partially complementary strand is designed to mimic the base pairing pattern in the backbone structure using a proprietary algorithm. Oligos containing the…
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MISSION(R) Lenti microRNA, Human hsa-miR-342-5p
MilliporeSigmaSigma's Mission Lenti-miRs express miRNAs from a common backbone, whose structure meets requirements for accurate Dicer processing and a partially complementary strand is designed to mimic the base pairing pattern in the backbone structure using a proprietary algorithm. Oligos containing the…
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MISSION(R) Lenti microRNA, Human hsa-miR-95-3p
MilliporeSigmaSigma's Mission Lenti-miRs express miRNAs from a common backbone, whose structure meets requirements for accurate Dicer processing and a partially complementary strand is designed to mimic the base pairing pattern in the backbone structure using a proprietary algorithm. Oligos containing the…
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When conducting experiments using MISSION(R) 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…
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When conducting experiments using MISSION(R) 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…
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MISSION(R) TRC3 ORF GFP Lentivirus Control
MilliporeSigmaThe MISSION TRC3 ORF GFP Lentivirus Control Transduction Particles contain an ORF insert expressing TurboGFP(TM), and is useful as a positive (or negative control) in experiments using the MISSION TRC3 LentiORF Library Collection in arrayed or pooled format, including our latest Whole Genome…
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When conducting experiments using MISSION(R) 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…
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When conducting experiments using MISSION(R) 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…
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When conducting experiments using MISSION(R) 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…
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MISSION(R) TRC3 ORF BFP Lentivirus Control
MilliporeSigmaThe MISSION TRC3 ORF BFP Lentivirus Control Transduction Particles contain an ORF insert expressing BFP, and is useful as a positive (or negative control) in experiments using the MISSION TRC3 LentiORF Library Collection in arrayed or pooled format, including our latest Whole Genome LentiORF…
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When conducting experiments using MISSION(R) 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…
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MISSION(R) TRC3 Human Whole Genome Lentiviral ORF Pool
MilliporeSigmaWe are proud to offer the largest collection of fully sequenced and pre-cloned human open reading frames (ORFs) to-date, available in a pooled lentiviral whole genome format. Developed at the Broad Institute, the MISSION(R) TRC3 human whole genome pooled ORF library consists of over 17,000 unique…
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When conducting experiments using MISSION(R) 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…
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MISSION(R) TRC3 ORF BFP Lentivirus High Titer Control
MilliporeSigmaThe MISSION TRC3 ORF BFP Lentivirus High Titer Control Transduction Particles contain an ORF insert expressing BFP, and is useful as a positive (or negative control) in experiments using the MISSION TRC3 LentiORF Library Collection in arrayed or pooled format, including our latest Whole Genome…
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When conducting experiments using MISSION(R) 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…
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MRP2 Knockout Caco-2 Cells one vial
MilliporeSigmaThe C2BBe1 cells, a subclone of Caco-2 cells, correspond to ATCC CRL-2102. The MRP2 knockout C2BBe1 cells are adenocarcinoma, epithelial cells from a human caucasian male (aged 72 years) with functional knockout of the ABCC2 (MRP2) efflux transporter. Storage: -196C Application: The…
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The transcriptional activator VP64 fused to nuclease-dead SpCas9 (dCas9), forms a ribonucleoprotein complex (RNP) with the CRISPR guide RNA (gRNA). The stem- and tetra-loop sequences in the gRNA scaffold have been modified into minimal hairpin RNA aptamers, which selectively bind dimerized MS2…
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When conducting experiments using MISSION(R) 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…
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MISSION(R) Lenti microRNA Inhibitor, Mouse mmu-miR-210-3p
MilliporeSigmaIndividual lenti microRNA inhibitors are designed using a proprietary algorithm, which is based on the work of Haraguchi, T, et al. and in collaboration with Dr. Hideo Iba, University of Tokyo. This algorithm utilizes the tough decoy (TuD) design. miRNA are known to regulate gene expression in a…
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MISSION(R) Lenti microRNA, Human hsa-miR-146a-5p
MilliporeSigmaSigma's Mission Lenti-miRs express miRNAs from a common backbone, whose structure meets requirements for accurate Dicer processing and a partially complementary strand is designed to mimic the base pairing pattern in the backbone structure using a proprietary algorithm. Oligos containing the…