Reference Genes and Controls
Reference genes and controls for gene expression analysis
Housekeeping genes
Housekeeping genes are essential for maintaining basic cellular functions and are generally expressed at constant levels across different tissues and conditions. For relative quantification of gene expression, it is crucial to select an appropriate housekeeping gene as a reference.
For relative quantification of gene expression, it is essential to choose a suitable gene to use as a reference (see table Housekeeping genes commonly used as endogenous references). The expression level of the reference gene must not vary under experimental conditions or in different states of the same tissue or cell line (e.g., “disease” versus “normal” samples). The expression level of the reference RNA should also be approximately the same as the RNA under study. Reference RNA commonly used for relative quantification includes b-actin, b-2-microglobulin, peptidylprolyl isomerase A, and GAPDH mRNAs, and also 18S rRNA. b-actin mRNA is ubiquitously expressed and was one of the first RNAs used as a reference sequence. However, its transcription levels may vary, and the presence of pseudogenes may mean that genomic DNA is detected during real-time PCR, leading to inaccuracies in quantification. GAPDH is a housekeeping gene commonly used as a reference for quantifying gene expression. GAPDH mRNA levels may vary between individuals, at different cell cycle stages, and following treatment with different drugs, making GAPDH unsuitable as a reference in some systems. As 18S rRNA is not an mRNA, its expression levels in the cell may not accurately reflect the cellular mRNA population. Therefore, combining genes may provide the most reliable reference for quantification studies.
Endogenous gene
Endogenous gene is naturally occurring within an organism and is involved in various cellular functions and processes. This serves as a critical internal control or reference point in genetic studies, particularly when assessing gene expression under different experimental conditions.
Housekeeping genes commonly used as endogenous references:
Gene | Human gene symbol | Mouse gene symbol | Relative expression level in humans* |
Relative expression level in mice* |
---|---|---|---|---|
18S ribosomal RNA | RRN18S | Rn18s | ++++ | ++++ |
Actin, beta | ACTB | Actb | +++ | +++ |
Glyceraldehyde-3-phosphate dehydrogenase |
GAPDH | Gapdh | +++ | +++ |
Phosphoglycerate kinase 1 | PGK1 | Pgk1 | +++ | +++ |
Peptidylprolyl isomerase A | PPIA | Ppia | +++ | +++ |
Ribosomal protein L13a | RPL13A | Rpl13a | +++ | +++ |
Ribosomal protein, large, P0 | RPLP0 | – | +++ | – |
Acidic ribosomal phosphoprotein PO |
– | Arbp | – | +++ |
Beta-2-microglobulin | B2M | B2m | ++ to +++ | ++ to +++ |
Tyrosine 3-monooxygenase/ tryptophan5-monooxygenase activation protein, zeta polypeptide |
YWHAZ | Ywhaz | ++ to +++ | + |
Succinate dehydrogenase complex, subunit A, flavoprotein (Fp) |
SDHA | Sdha | ++ | + |
Transferrin receptor | TFRC | Tfrc | ++ | + |
Aminolevulinate, delta-, synthase 1 |
ALAS1 | Alas1 | + | + |
Glucuronidase, beta | GUSB | Gusb | + | + |
Hydroxymethylbilane synthase |
HMBS | Hmbs | + | ++ to +++ |
Hypoxanthine phosphoribosyltransferase 1 |
HPRT1 | Hrpt1 | + | + |
TATA box binding protein | TBP | Tbp | + | + |
Tubulin, beta | TUBB | – | + | – |
Tubulin, beta 4 | – | Tubb4 | – | + |