Proteomic analysis of organ-specific post-translational lysine-acetylation and -methylation in mice by use of anti-acetyllysine and -methyllysine mouse monoclonal antibodies.
Hisako Iwabata, Minoru Yoshida, Yasuhiko Komatsu
文献索引:Proteomics 5(18) , 4653-64, (2005)
全文:HTML全文
摘要
Post-translational lysine-acetylation and -methylation are two major PTMs of lysine residues in proteins. Recently, we established pan-reactive anti-acetyllysine mouse mAbs, which can bind to Nepsilon-acetylated lysine residues in various contexts of amino acid sequences. In the present study, we established pan-reactive anti-methyllysine mouse mAbs comparable to the anti-acetyllysine ones. By using these anti-acetyllysine and -methyllysine antibodies, we found that the pattern of lysine-acetylated and -methylated proteins in mouse organs showed extreme variation from organ to organ. We selected brain and skeletal muscle as model cases to be further analyzed by 2-DE followed by Western blotting. In brain, alpha-tubulin at its basal level was found to be extremely acetylated; and alpha-enolase was shown to be a newly recognized possibly acetylated protein. NF-L protein, Hsc70, alpha-tubulin fragments, beta-actin, and brain-type creatine kinase were identified as putative lysine-methylated proteins in mouse brain. In skeletal muscle, lysine-methylation of alpha-actin and both lysine-acetylation and -methylation of muscle-type creatine kinase were found as novel putative lysine-modified proteins. The approach presented here might be useful to find novel disease markers and/or drug target molecules that would not be noticed by use of the traditional proteomic approach only.
相关化合物
相关文献:
2015-01-01
[Basic Res. Cardiol. 110 , 37, (2015)]
2015-01-01
[Skelet. Muscle 5 , 25, (2015)]
2015-01-01
[J. Transl. Med. 13 , 352, (2015)]
2015-02-01
[Int. Immunopharmacol. 24(2) , 159-65, (2015)]
2007-01-01
[Nat. Chem. Biol. 3 , 44-9, (2007)]