cAMP, tubulin, axonal transport, and regeneration. Liu, Howard H and Brady, Scott T Exp. Neurol., 189: 199-203 (2004)
2004
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Mounting a regenerative response after injury is a multistep process for PNS neurons. The reason for failure of mammalian CNS neurons to regenerate successfully may involve more than one of those steps. Han et al. [Exp. Neurol. 189 (2004) 293] and others show that increasing cAMP levels in neuronal cell bodies elicits a partial regenerative response, altering expression of tubulin isotypes but not expression of other growth-associated genes or rate of axonal transport. This approach allows identification of specific steps in the regenerative response and the roles played by these steps. | 15380472
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Crystallographic structure of tubulin: implications for dynamics and drug binding. Downing, K H and Nogales, E Cell Struct. Funct., 24: 269-75 (1999)
1998
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The structure of tubulin, recently solved by electron crystallography, has given a first look at the molecular basis for some of the properties of tubulin and microtubules that have been observed over the last decades. We discuss how the structure relates to some of these properties, and how inferences about drug binding sites can explain some of the effects of the drugs on tubulin. Microtubules can form a highly dynamic system that requires careful tuning of the stability and properties of tubulin and its interactions with its many ligands. Understanding these interactions can provide fundamental information on the regulation of the microtubule system. | 15216882
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