Biosilica is an amazing example of natural order and complexity. Siliceous sponge spicules, in particular, are characterized by a large variety of dimensions and shapes, with an ultrastructure based on silica nanoparticles strictly packaged around an axial filament constituted by a family of proteins called silicateins. These peculiar proteins have a high sequence homology with cathepsins and they play a double role of enzyme and template in the control of biosilica precipitation. However, their natural structural organization inside the spicules is far from being understood in details. In this work, axial filaments extracted from spicules of Petrosia ficiformis have been extensively analyzed by mass spectrometry, exploiting MALDI and ESI analysis of both the intact protein and the peptides coming from digestion of the axial filament with different proteases. Results demonstrate that P. ficiformis spicules contain almost only silicatein beta. Several post-translational modifications, like methylations at the N-terminal region, three phosphorylation sites, and the oxidation of a histidine and of a cysteine to cysteic acid, are described.