Changes in the composition of labeled protein transported in motor axons during their regeneration

A previous study revealed a characteristic alteration in the ratio of labeling of two fast axonally transported polypeptides identified as S1 (22,000 daltons) and S: ! (18,000 daltons) and their ratio (Sz/S1) in rat motoneuron axons following axonal injury and subsequent regeneration. In this study

The effect of age upon the axoplasmic transport of glycerophospholipids has been studied using as a model the regenerating sciatic nerve of young (2-month-old), young adult (6-month-old), middle-aged (16-month-old), and aged (20-month-old) male rats. The right sciatic nerve was crushed 0.5 mm down t

## Abstract After the initial primary projection, axons undergo various structural and functional changes to establish mature neural circuits. The changes in protein expression associated with this maturation were investigated in lateral olfactory tract axons using two‐dimensional gel electrophores

## Abstract Previously, we identified calcium/calmodulin‐dependent protein kinase IIβ (CaMKIIβ) mRNA in spinal motor neurons with 372 bp inserted in what corresponds to the “association” domain of the protein. This was interesting because known additions and deletions to CaMKIIβ mRNA are usually le