ChIP acH4 Bovine Mouse

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miRNA is the inherent gene silencing machinery which can have more than one mRNA target, whereas siRNA can be designed to target a particular mRNA target. By design, both siRNA and miRNA are 20-25 nucleotides in length. The target sequence for siRNAs is usually located within the open reading frame, between 50 and 100 nucleotides downstream of the start codon. There are two ways in which cells can be transfected with desired RNAi: 1. Direct transfection (with calcium phosphate co-precipitation or cationic lipid mediated transfection using lipofectamine or oligofectamine), and 2. Making RNAi lentiviral constructs (followed by transformation and transduction). Lentiviral constructs are time consuming, but provide a more permanent expression of RNAi in the cells, and consistent gene silencing. Direct transfection of oligonucleotides provides temporary genetic suppression. Traditional methods like calcium phosphate co-precipitation have challenges like low efficiency, poor reproducibility and cell toxicity. Whereas, cationic lipid-based transfection reagents are able to overcome these challenges, along with applicability to a large variety of eukaryotic cell lines. When using oligos, the ideal concentration lies between 10-50nM for effective transfection.

RNA siRNA / miRNA gene silencing Mouse MLO‐Y4 Atg5

miRNA is the inherent gene silencing machinery which can have more than one mRNA target, whereas siRNA can be designed to target a particular mRNA target. By design, both siRNA and miRNA are 20-25 nucleotides in length. The target sequence for siRNAs is usually located within the open reading frame, between 50 and 100 nucleotides downstream of the start codon. There are two ways in which cells can be transfected with desired RNAi: 1. Direct transfection (with calcium phosphate co-precipitation or cationic lipid mediated transfection using lipofectamine or oligofectamine), and 2. Making RNAi lentiviral constructs (followed by transformation and transduction). Lentiviral constructs are time consuming, but provide a more permanent expression of RNAi in the cells, and consistent gene silencing. Direct transfection of oligonucleotides provides temporary genetic suppression. Traditional methods like calcium phosphate co-precipitation have challenges like low efficiency, poor reproducibility and cell toxicity. Whereas, cationic lipid-based transfection reagents are able to overcome these challenges, along with applicability to a large variety of eukaryotic cell lines. When using oligos, the ideal concentration lies between 10-50nM for effective transfection.

RNA siRNA / miRNA gene silencing Mouse FL83B Elk3/Net

miRNA is the inherent gene silencing machinery which can have more than one mRNA target, whereas siRNA can be designed to target a particular mRNA target. By design, both siRNA and miRNA are 20-25 nucleotides in length. The target sequence for siRNAs is usually located within the open reading frame, between 50 and 100 nucleotides downstream of the start codon. There are two ways in which cells can be transfected with desired RNAi: 1. Direct transfection (with calcium phosphate co-precipitation or cationic lipid mediated transfection using lipofectamine or oligofectamine), and 2. Making RNAi lentiviral constructs (followed by transformation and transduction). Lentiviral constructs are time consuming, but provide a more permanent expression of RNAi in the cells, and consistent gene silencing. Direct transfection of oligonucleotides provides temporary genetic suppression. Traditional methods like calcium phosphate co-precipitation have challenges like low efficiency, poor reproducibility and cell toxicity. Whereas, cationic lipid-based transfection reagents are able to overcome these challenges, along with applicability to a large variety of eukaryotic cell lines. When using oligos, the ideal concentration lies between 10-50nM for effective transfection.

RNA siRNA / miRNA gene silencing Mouse MC3T3-E1 SphK1

An alternative to culture-based cell death detection is an assessment of other cell viability indicators using fluorescent dyes, including membrane potential and membrane integrity. Live/Dead assays differentiates live and dead cells using membrane integrity as a proxy for cell viability and are based on a fluorescent staining procedure followed by detection using flow cytometry. However, samples preparation for such flow cytometry-based techniques could be challenging. Cell harvesting by trypsinization, mechanical or enzymatic cell disaggregation from tissues, extensive centrifugation steps, may all lead to preferential loss of apoptotic cells. To overcome this strictly follow manufacturers instruction of the detection kit.

Cellular assays Live / Dead assay mammalian cells mouse bone marrow-derived macrophages

Get tips on using Monoclonal Mouse Anti-Human p53 Protein (Dako Omnis) Clone DO-7 to perform Immunohistochemistry Human - p53

Products Agilent Technologies Monoclonal Mouse Anti-Human p53 Protein (Dako Omnis) Clone DO-7

Get tips on using Monoclonal Mouse Anti-Human E-Cadherin (Dako Omnis) Clone NCH-38 to perform Immunohistochemistry Human - E-Cadherin

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Get tips on using Monoclonal Mouse Anti-Human Ki-67 Antigen (Concentrate) Clone MIB-1 to perform Immunohistochemistry Human - Ki-67

Products Agilent Technologies Monoclonal Mouse Anti-Human Ki-67 Antigen (Concentrate) Clone MIB-1

Get tips on using Purified Mouse Anti-Human ZO-1 Clone 1/ZO-1 (RUO) to perform Western blotting ZO-1

Products BD Biosciences Purified Mouse Anti-Human ZO-1 Clone 1/ZO-1 (RUO)

Get tips on using BRCA2 rtu elisa kit :: Mouse Breast Cancer Susceptibility Protein 2 (BRCA2) RTU ELISA Kit to perform ELISA Mouse - BRCA2

Products MyBioSource.com BRCA2 rtu elisa kit :: Mouse Breast Cancer Susceptibility Protein 2 (BRCA2) RTU ELISA Kit

Get tips on using Mre11 Antibody #4895 to perform ChIP Anti-bodies MRE11

Products Cell Signaling Technology Mre11 Antibody #4895

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