| Title : Rapid changes in levels of individual molecular forms of acetylcholinesterase after denervation of mouse sternocleidomastoid muscle - Goudou_1985_Biol.Cell_53_251 |
| Author(s) : Goudou D , Blondet B , Friboulet A , Rieger F |
| Ref : Biology of the cell , 53 :251 , 1985 |
|
Abstract :
Experimental denervation of adult mouse sternocleidomastoid muscle results in a decrease in total AChE. The most rapid change essentially affects the tailed, asymmetric 16 S AChE, since one day after nerve section, "16S" AChE is already significantly decreased to about 70% of its control value. We found that both background and junctional "16S" AChE are affected by this rapid decrease. Later, a sharp fall in "10S" and "4S" AChE occurs about seven days after denervation when muscle atrophy develops with loss of weight and proteins. A gaussian analysis of the sedimentation profiles of AChE extracted from denervated muscle shows that there is not only an early rapid decrease in 16 S AChE but also a decrease in the monomeric 3.3S AChE. This result suggests that there is a very rapid turn-over of two molecular forms of AChE, the supposedly monomeric precursor and the complex asymmetric 16S AChE. |
| PubMedSearch : Goudou_1985_Biol.Cell_53_251 |
| PubMedID: 3160419 |
Goudou D, Blondet B, Friboulet A, Rieger F (1985)
Rapid changes in levels of individual molecular forms of acetylcholinesterase after denervation of mouse sternocleidomastoid muscle
Biology of the cell
53 :251
Goudou D, Blondet B, Friboulet A, Rieger F (1985)
Biology of the cell
53 :251