"[404815CD290B]" . "Adamakis, Ioannis-Dimosthenis" . "Members of the MAP65 family, colocalizing with microtubule arrays, have been identified in Vigna sinensis root cells by Western blotting and immunofluorescence. MAP65 proteins were also found in tubulin/colchicine-induced paracrystals. During recovery from colchicine, MAP65 signal was depleted from disintegrating paracrystals appearing in the reinstating microtubule arrays. MAP65-free perinuclear tubulin/colchicine aggregates were observed in plasmolyzed colchicine-treated cells. Deplasmolysis of the above cells resulted in the formation of MAP65-decorated paracrystals. MAP65 proteins underwent phosphorylation during plasmolysis, which was reversible by deplasmolysis. It seems likely that apart from binding to microtubules, MAP65 proteins may act as %22tubulin associated proteins%22 in a broader manner, promoting the polymerization and/or stabilization of atypical polymers such as tubulin/colchicine paracrystals."@en . . . "5"^^ . . "RIV/61989592:15310/10:10212486" . "9"^^ . . "1949-3592" . "P(ED0007/01/01)" . . . "269666" . "RIV/61989592:15310/10:10212486!RIV11-MSM-15310___" . "Komis, George" . "3" . "1"^^ . . . . "Cytoskeleton (online)" . "MAP65 in tubulin/colchicine paracrystals of Vigna sinensis root cells: Possible role in the assembly and stabilization of atypical tubulin polymers" . . "MAP65 in tubulin/colchicine paracrystals of Vigna sinensis root cells: Possible role in the assembly and stabilization of atypical tubulin polymers"@en . "000276458100003" . . . . . "Bosabalidis, Artemios" . "Members of the MAP65 family, colocalizing with microtubule arrays, have been identified in Vigna sinensis root cells by Western blotting and immunofluorescence. MAP65 proteins were also found in tubulin/colchicine-induced paracrystals. During recovery from colchicine, MAP65 signal was depleted from disintegrating paracrystals appearing in the reinstating microtubule arrays. MAP65-free perinuclear tubulin/colchicine aggregates were observed in plasmolyzed colchicine-treated cells. Deplasmolysis of the above cells resulted in the formation of MAP65-decorated paracrystals. MAP65 proteins underwent phosphorylation during plasmolysis, which was reversible by deplasmolysis. It seems likely that apart from binding to microtubules, MAP65 proteins may act as %22tubulin associated proteins%22 in a broader manner, promoting the polymerization and/or stabilization of atypical polymers such as tubulin/colchicine paracrystals." . . "MAP65 in tubulin/colchicine paracrystals of Vigna sinensis root cells: Possible role in the assembly and stabilization of atypical tubulin polymers" . "67" . "Panteris, Emmanuel" . "MAP65 in tubulin/colchicine paracrystals of Vigna sinensis root cells: Possible role in the assembly and stabilization of atypical tubulin polymers"@en . . "\u0160amaj, Jozef" . "phosphorylation; protein; Phos-tag; microtubules; MAP65"@en . "15310" . . "US - Spojen\u00E9 st\u00E1ty americk\u00E9" .