Thin films of polycrystalline magnesium oxide have been grown on glass substrate at low temperature (400 degrees C) using the aerosol assisted-metallorganic chemical vapor deposition technique, starting from magnesium acetate as precursor. For the first time highly <111>-oriented films grown at 0.40 mu m/h have been obtained by this deposition technique. By changing the nature of the liquid source, a lower deposition rate (0.12 mu m/h) and a strong <200> preferred orientation occur. The mean crystallite size along the direction of preferred orientation is, respectively, 35 and 50 nm for the <111>- and <200> oriented film and the disorientation is around 8 degrees. The films are free of carbonates or any residual organic contaminants. The surface roughness rms of the <200> oriented films is in the range of 6-9 nm and decreases as film thickness increases. Possible mechanisms for the occurrence of both texturing effects are discussed in terms of nucleation and growth texture.