Protein carbonylation explained

See also: Carbonylation.

In biochemistry, protein carbonylation refers to oxidation of the side chains of proteins to introduce ketone and aldehyde groups in a protein. The following amino acid residues are affected:

Carbonylation is typically assumed to be the result of reactive oxygen species (ROS) attacking the protein side chain. ROS species include hydroperoxide or lipic hydroperoxides. Protein carbonylation is of interest because of its association with various diseases.[1] Oxidative stress, often metal catalyzed, leads to protein carbonylation.

References

  1. 10.1111/j.1582-4934.2006.tb00407.x. Protein carbonylation, cellular dysfunction, and disease progression. 2006. Dalle-Donne. Isabella. Aldini. Giancarlo. Carini. Marina. Colombo. Roberto. Rossi. Ranieri. Milzani. Aldo. Journal of Cellular and Molecular Medicine. 10. 2. 389–406. 16796807. 3933129. 10.1074/jbc.R700019200. Oxidative Stress and Covalent Modification of Protein with Bioactive Aldehydes. 2008. Grimsrud. P. A.. Xie. H.. Griffin. T. J.. Bernlohr. D. A.. Journal of Biological Chemistry. 283. 32. 21837–41. 18445586. 2494933. free.