Site Directed Mutagenesis (SDM) Mouse Deletion C2C12

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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

Products Agilent Technologies Monoclonal Mouse Anti-Human E-Cadherin (Dako Omnis) Clone NCH-38

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

DNA microarrays enable researchers to monitor the expression of thousands of genes simultaneously. However, the sensitivity, accuracy, specificity, and reproducibility are major challenges for this technology. Cross-hybridization, combination with splice variants, is a prime source for the discrepancies in differential gene expression calls among various microarray platforms. Removing (either from production or downstream bioinformatic analysis) and/or redesigning the microarray probes prone to cross-hybridization is a reasonable strategy to increase the hybridization specificity and hence, the accuracy of the microarray measurements.

DNA Microarray Gene expression arrays Mouse liver tissue Cyanine-3-CTP

Get tips on using GeneArt™ CRISPR Nuclease Vector with OFP Reporter Kit to perform CRISPR Human - Deletion DJ-1

Products Thermo Fisher Scientific GeneArt™ CRISPR Nuclease Vector with OFP Reporter Kit

Reporter gene assays enable high sensitivity measurement of gene expression and cell signaling through the addition of bioluminescent genes into target cells. One of the major challenges is to make a specific construct that has no responses other than those related to the signaling pathway of interest. This can be achieved by selecting highly specific reporter constructs containing only defined responsive elements and a minimal promoter linked to reporter enzymes such as luciferase

Cellular assays Reporter gene assay β-galactosidase substrates mouse embryo tissue

Reporter gene assays enable high sensitivity measurement of gene expression and cell signaling through the addition of bioluminescent genes into target cells. One of the major challenges is to make a specific construct that has no responses other than those related to the signaling pathway of interest. This can be achieved by selecting highly specific reporter constructs containing only defined responsive elements and a minimal promoter linked to reporter enzymes such as luciferase

Cellular assays Reporter gene assay β-galactosidase substrates mouse embryonic fibroblasts

Reporter gene assays enable high sensitivity measurement of gene expression and cell signaling through the addition of bioluminescent genes into target cells. One of the major challenges is to make a specific construct that has no responses other than those related to the signaling pathway of interest. This can be achieved by selecting highly specific reporter constructs containing only defined responsive elements and a minimal promoter linked to reporter enzymes such as luciferase

Cellular assays Reporter gene assay β-galactosidase substrates mouse cardiac fibroblasts

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