Glyceraldehyde 3-phosphate dehydrogenase (GAPDH) is a well-known housekeeping gene with functions in glycolysis. Many biologists are familiar with the gene and use GAPDH antibodies for a loading control when performing western blots. However, this primarily cytoplasmic protein is an essential metabolic regulator and has been shown to be involved in a variety of cellular processes like DNA repair, membrane fusion, and cell death (1).
GAPDH is a 146kD tetramer glycolytic pathway metabolic enzyme composed of four 30-40 kDa subunits. It is responsible for reversibly phosphorylating its substrate glyceraldehyde 3-phosphate within the glycolytic pathway. Apart from its role in glycolysis, GAPDH may have other roles such as transcriptional activation. Due to its housekeeping role, GAPDH is highly expressed in almost all tissues, allowing its use as an internal loading control (traditionally for mRNA expression comparisons, but also in protein studies.
GAPDH is a 146 kD tetramer glycolytic pathway metabolic enzyme responsible for reversibly phosphorylating glyceraldehyde 3-phosphate. It may have other possible functions in transcriptional activation. GAPDH is highly expressed due to this housekeeping role, and its prevalent expression has allowed its use as an internal loading control – traditionally for mRNA expression comparisons – but also in protein studies.
GAPDH is a 146 kDa tetramer metabolic enzyme within the glycolytic pathway that reversibly oxidatively phosphorylates glyceraldehyde 3-phosphate. It may have other additional functions in transcriptional activation. It is highly expressed due to its housekeeping functional role, and the prevalent expression of GAPDH has facilitated its use as an internal loading control – traditionally for mRNA expression comparisons – but also in protein studies.
A growing body of data and studies using actin antibodies supports a view of the actin cytoskeleton of smooth muscle cells as a dynamic structure that plays an integral role in regulating the development of mechanical tension and the material properties of smooth muscle tissues.
The loading controls on our antibody database are widely used in gel electrophoresis and Western blotting studies. Products like the GAPDH antibody detect "housekeeping" proteins which are abundantly distributed in cells. This makes them useful for checking the even loading of gel samples, and the even transfer of proteins at the blotting stage. They also serve a purpose in quality control, by verifying reagents are working correctly, and in the standardization of experimental results.
GAPDH antibodies are commonly used as a loading control, due to GAPDH's widespread function as a house-keeping protein. As a leading scientific research antibody supplier, Novus Biologicals offer a wide range of GAPDH antibody reagents and support products.
The glyceraldehyde 3-phosphate dehydrogenase, or GAPDH enzyme plays an important role in the conversion of glucose for energy, catalyzing the sixth step of the glycolytic pathway. A common and widely expressed protein, GAPDH mRNA is often used as a standard in mRNA studies. GAPDH antibody products are also used as a loading control in Western blot assays. We at Novus Biologicals have 55 GAPDH antibody products on our antibody database.