| Range |
seconds to months
|
| Organism |
Unspecified |
| Reference |
Doherty MK, Hammond DE, Clague MJ, Gaskell SJ, Beynon RJ. Turnover of the human proteome: determination of protein intracellular stability by dynamic SILAC. J Proteome Res. 2009 Jan8(1):104-12. doi: 10.1021/pr800641v. p.104 left column top paragraphPubMed ID18954100
|
| Primary Source |
Ohsumi, Y. Protein turnover. IUBMB Life 2006, 58 (5-6), 363–9.PubMed ID16754332
|
| Comments |
P.104 left column top paragraph: "The ability of a cell to replenish and adjust the constituent protein pool is a vital component of the modulation of response, but the continuous turnover of proteins in the cell is also a feature of an unstressed steady-state condition. Even when a cell is not undergoing a period of growth, the protein pool is dynamic, and considerable energy is expended in the continuous synthesis and degradation of most cellular proteins.(refs 1, 2) Different proteins turn over at distinctly different rates, ranging from seconds to months.(primary source) Proteins with a high turnover rate can be regulated by manipulation of the amount of protein in the cell, while low turnover proteins are either nonregulatory or are regulated through post-translational processes such as phosphorylation." See BNID 112046 |
| Entered by |
Uri M |
| ID |
112251 |