[S16] Goat Anti-MDA (Malondialdehyde) Antiserum - AcademyBiomed

[S16] Goat Anti-MDA (Malondialdehyde) Antiserum


Academy Bio-Medical Company, Inc.

  • $513.00

Host Species: Goat
Antigen: MDA-KLH

Specifically binds to MDA-LDL and other MDA modified proteins. Dilution for immunoblot and ELISA range: 1,000 to 80,000.

Use: The antibody can be used for detection of MDA in plasma, lipoproteins and other MDA modified proteins, immunoassays, immunoblots, enzyme conjugation, or biotinylation.

Freeze-dried product should be stored refrigerated until opened. After opening, restore to suggested ml volume with distilled water. If it is not completely clear after standing for 1-2 hours at room temperature, centrifuge the product. It is stable for several weeks at 4°C as an undiluted liquid. Do not use for more than one day after dilution. For extended storage after reconstitution, we suggest aliquot to avoid repeated freezing and thawing; or the addition of an equal volume of glycerol to make a final glycerol concentration of 50%, followed by storage at -20°C. The concentration of protein and buffer salts will decrease to one-half of the original after the addition of glycerol.


*These products are for research or manufacturing use only, not for use in human therapeutic or diagnostic applications.



Oxidative damage includes oxidative modification of cellular macromolecules, induction of cell death by apoptosis or necrosis, as well as structural tissue damage. Of the many biological targets of oxidative stress, lipids are the most involved class of biomolecules. Lipid oxidation gives rise to a number of secondary products of polyunsaturated fatty acid peroxidation. Malondialdehyde (MDA) is the principal and most studied product. Consistent evidence reveals the reaction between MDA and cellular macromolecules such as proteins, RNA and DNA (Valenzuela, 1991).

Numerous experiments have shown that MDA readily modifies proteins (Nair, 1986). MDA reacts with DNA to form adducts to deoxyguanosine and deoxyadenosine which may be mutagenic and these can be quantified in several human tissues (Marnett, 1999).This aldehyde is a highly toxic molecule and should be considered as a marker of lipid peroxidation. The interaction with DNA and proteins has often been referred to as potentially mutagenic and atherogenic (Rio et al., 2005).

L.J. Marnett, Lipid peroxidation‐DNA damage by malondialdehyde, Mutat Res, 424 (1999), pp. 83–95

V. Nair, C.S. Cooper, D.E. Vietti, G.A. Turner, The chemistry of lipid peroxidation metabolites: crosslinking reactions of malondialdehyde, Lipids, 21 (1986), pp. 6–10

Rio, Daniele Del, Amanda J. Stewart, and Nicoletta Pellegrini. "A Review of Recent Studies on Malondialdehyde as Toxic Molecule and Biological Marker of Oxidative Stress." Nutrition, Metabolism and Cardiovascular Diseases 15.4 (2005): 316-28.

A. Valenzuela, The biological significance of malondialdehyde determination in the assessment of tissue oxidative stress, Life Sci, 48 (1991), pp. 301–309


We Also Recommend