An axial rod in abalone (Haliotis discus) sperm is a structure composed of a bundle of actin filaments, which elongates anteriorly to form the acrosomal process during the acrosome reaction. The ultrastructure of the actin filament bundle constituting the axial rod was examined using quick freeze technique followed by either freeze-substitution or deep-etch electron microscopy. Thin sections of quick freeze and freeze-substituted sperm revealed that the actin filaments in the axial rod are hexagonally packed in a paracrystalline array through its almost entire length with an average center-to-center spacing of 12 nm. Periodic transverse bands were also observed across the actin filament bundle, which may reflect the cross-bridges interconnecting the adjacent filaments. Quick-freeze deep-etch analysis provided the three-dimensional view of the axial rod. Actin filaments exhibiting 5.5-6 nm spaced striations were observed to run in parallel with each other inside the axial rod. The existence of cross-bridging structures was also displayed between adjacent filaments. These results suggest that the actin filaments in the axial rod are probably held together by regularly spaced cross-bridges to form a well ordered hexagonally packed bundle, and also cross-linked by fibrous structure to the lateral inner acrosomal membrane which closely surrounds the anterior half of the actin filament bundle.