The microtubule-binding domains of microtubule-associated protein (MAP) 2, tau, and MAP4 are divided into three distinctive regions: the Pro-rich region, the AP sequence region and the tail region (Aizawa, H., Emori, Y., Murofushi, H., Kawasaki, H., Sakai., H., and Suzuki, K. (1990) J. Biol. Chem. 265, 13849-13855). Electron microscopic observation showed that the taxol-stabilized microtubules alone and those mixed with the A4T fragment (containing the AP sequence region and the tail region) had a long, wavy appearance, while those mixed with the PA4T fragment (containing the Pro-rich region, the AP sequence region, and the tail region) or the PA4 fragment (containing the Pro-rich region and the AP sequence region) were shorter and straighter. Stoichiometries of the binding between the fragments and the tubulin dimers were approximately between 1 and 2, suggesting that not all of the AP sequences in the AP sequence region bound to tubulin. Binding affinity of the PA4T fragment is only four times higher than that of the A4T fragment, while the microtubule nucleating activity of the PA4T fragment is far greater. Based on these results, we propose that the nucleation of microtubule assembly is promoted by the bridging activity of the Pro-rich region in the MAPs.