| First Author | Kraemer N | Year | 2012 |
| Journal | Neurol Res | Volume | 34 |
| Issue | 7 | Pages | 664-8 |
| PubMed ID | 22735032 | Mgi Jnum | J:190424 |
| Mgi Id | MGI:5448815 | Doi | 10.1179/1743132812Y.0000000060 |
| Citation | Kraemer N, et al. (2012) Reference genes in the developing murine brain and in differentiating embryonic stem cells. Neurol Res 34(7):664-8 |
| abstractText | OBJECTIVES: Gene expression analysis via quantitative real-time PCR (qPCR) is a key approach in biological and medical research. Here, variations between runs and samples are compensated for by in-parallel analysis of reference genes, which require a most stable expression throughout all samples and experimental procedures to function as internal standards. In reality, there is no universal reference gene; but rather, assumed reference genes vary widely among various cell types. This demands an evaluation of reference genes for each specific experimental purpose, especially in the case of developmental studies. The aim of the present study was to identify suitable reference genes for gene expression analysis in the developing murine brain neocortex in vivo and in mouse embryonic stem cells (mESC) throughout differentiation in vitro. METHODS: The five candidate genes Actb, 18s, Gapdh, Hprt, and RpII were analyzed throughout development in vivo and in vitro using the quartiles of C(q) values, fold change, coefficient of variation (CV) and the difference between maximum minus twofold standard deviation and mean as the criteria to evaluate their expression stability. RESULTS: We found that RpII was the most stable expressed gene in mESC throughout differentiation, while in the developing murine neocortex Gapdh showed the highest expression stability. CONCLUSIONS: Based on our results, we suggest for gene expression analysis in the context of neurodevelopment the usage of RpII as a reference gene for mESC and Gapdh or Hprt for the murine neocortex. |
