Microtubules were reconstituted from homogeneous brain tubulin and homogeneous preparations of two different microtubule associated proteins, the high molecular weight MAP 2 proteins or the tau proteins. The resulting microtubules were characterized by three electron microscopical procedures: Thin sectional analysis of embeded material, negative staining analysis using a STEM microscope and high resolution metal-shadowing analysis. By all three procedures MAP 2 microtubules have a much rougher surface morphology than tau microtubules, in agreement with the much higher molecular weight of the MAP 2 proteins. Tau microtubules, however, do not show the very smooth surface of microtubules assembled from pure tubulin in the absence of any microtubule associated proteins. In the case of MAP 2 microtubules thin sectional analysis as well as metal shadowing reveals that the globular protrusions seen in negative staining analysis appear as linear side arms which may extend by as much as 30 nm on both sides from the microtubular wall proper, giving rise to an overall structure with a diameter close to 100 nm. The possible implication of such structures for in vivo situations is briefly discussed as is the possibility that the "halo-effect" around microtubules seen in vivo may be due to a structural organization similar to that of MAP 2 tubules in vitro.