A biopolymer transistor: Electrical amplification by microtubules

Microtubules (MTs) are important cytoskeletal structures engaged in a number of specific cellular activities, including vesicular traffic, cell cyto-architecture and motility, cell division, and information processing within neuronal processes. MTs have also been implicated in higher neuronal functions, including memory and the emergence of "consciousness''. How MTs handle and process electrical information, however, is heretofore unknown. Here we show new electrodynamic properties of MTs. Isolated, taxol-stabilized MTs behave as biomolecular transistors capable of amplifying electrical information. Electrical amplication by MTs can lead to the enhancement of dynamic information, and processivity in neurons can be conceptualized as an "ionic-based'' transistor, which may affect, among other known functions, neuronal computational capabilities.