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 electrophoresis. The most prominent group upregulated during the period consisted of calcium-dependent membrane-binding proteins including VILIP1, neurocalcin delta, copine 6, and annexin A6 from three structurally different families. During maturation of primary cultured neurons, annexin A6 gradually became concentrated on the axon initial segment, and its overexpression significantly enhanced axon branching. On the other hand, overexpression of VILIP1 and neurocalcin delta reduced axon outgrowth and branching. The second group upregulated during axon maturation comprised tubulin- and microtubule-binding proteins including CRMP2, guanine deaminase, MAP1B, and fibronectin type3 SPRY domain-containing protein. Because the maturation of lateral olfactory axons involves massive extension of secondary collateral branches, the augmentation of these proteins during these stages may underlie the drastic restructuring of the axon cytoskeleton.
cis-Aconitic acid decarboxylase (CAD) was assumed to be a key enzyme in the production of itaconic acid by comparing the activity of CAD from Aspergillus terreus TN484-M1 with that of CAD from the low-itaconate yielding strain Aspergillus terreus CM85J. The constitutive CAD was purified to homogeneity from A. terreus TN484-M1 by ammonium sulfate fractionation, and column chromatography on DEAE-toyopearl, Butyl-toyopearl, and Sephacryl S200HR, and then characterized. A molecular mass of 55 kDa for the native enzyme was determined by SDS-PAGE. The enzymic activity was optimal at a pH of 6.2 and temperature of 45 degrees C. The K(m) value for cis-aconitic acid was determined as 2.45 mM (pH 6.2, 37 degrees C). The enzyme was completely inactivated by Hg+, Cu2+, Zn2+, p-chloromercuribenzoate, and 5,5'-dithio-bis(2-nitrobenzoate).
The arrangement of axons in a tract can have a specific effect on the organization of functional neuronal circuits. Here we describe olfactory bulb axons chronologically arranged in the lateral olfactory tract. Newly differentiated projection neurons over the whole olfactory bulb are similarly marked with transient expression of c-kit protein. Their axons are assembled together and project into the ventral superficial part of the tract, displacing the older axons. This special assembly of the axons explains the nontopographic relationships between the olfactory bulb and the lateral olfactory tract axons that have been described in previous studies and could possibly influence the subsequent selection of the olfactory target areas by these axons.
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