| Range |
5 - 9 aa/sec
|
| Organism |
Fungus Mucor racemosus |
| Reference |
Wang F, Durfee LA, Huibregtse JM. A cotranslational ubiquitination pathway for quality control of misfolded proteins. Mol Cell. 2013 May 9 50(3):368-78. doi: 10.1016/j.molcel.2013.03.009. p.373 left column bottom paragraphPubMed ID23583076
|
| Primary Source |
M. Orlowski, J.F. Ross, Relationship of internal cyclic AMP levels, rates of protein synthesis and mucor dimorphism Arch. Microbiol., 129 (1981), pp. 353–356 AND J.F. Ross, M. Orlowski, Growth-rate-dependent adjustment of ribosome function in chemostat-grown cells of the fungus Mucor racemosus, J. Bacteriol., 149 (1982), pp. 650–653PubMed ID6269512, 6799491
|
| Method |
1st primary source abstract: "Changes in the intracellular pools of cyclic AMP and specific rates of protein synthesis have been described as correlates of the yeast-to-hypha conversion in Mucor racemosis. A further examination of the relationship between these physiological parameters and the cellular morphogenesis was conducted in the present study." 2nd primary source abstract: "The dimorphic fungus Mucor racemosus was grown as a yeast in a chemostat. Cellular growth rates were varied over a fourfold range under an atmosphere of N2 and over an eightfold range under CO2." |
| Comments |
P.373 left column bottom paragraph: "At an estimated translation rate of 5–9 amino acids/s (primary sources), 5 min of pactamycin treatment is sufficient to allow completion of translation of all but the longest proteins." |
| Entered by |
Uri M |
| ID |
113359 |