The thesis addresses assessment of seismic resistance of a single-family masonry building, built in 1993, in the suburb of Ljubljana. The theoretical background for determination of design seismic loads and capacity of both masonry walls as well as the whole structure is presented in the first part of the thesis. The determination of the strength of masonry walls is also described with consideration of three failure mechanisms that occur in masonry wall: sliding shear failure, shear failure with diagonal cracks, flexural failure. In the second part follows practical example where we calculate seismic resistance of the building. For the strength of materials we take into account the mean values reduced by a confidence factor. It is necessary to determine the weight of individual structural assemblies and the mass of the whole structure. Seismic force is determined by the method of horizontal forces, where is taken into account the maximum spectral acceleration, and behaviour factor 1,5. Seismic resistance is then checked only for the ground floor since there the greatest storey shear force occurs. Firstly the base shear was calculated on the basis of elastic analysis by taking into account the full redistribution of seismic forces to those walls which still had reserves. The simplified nonlinear analysis was also performed. Sodetermined base shear in y direction amounted to 797 kN, which is only about 10% less than the base shear estimated from linear elastic analysis (880 kN). It was found that design seismic load exceeded the estimated design value of base shear strength, which indicated that the investigated building does not comply the safety requirements of the Eurocodes 8.