We comparatively analyzed the replication kinetics of wild-type (wt) and nef mutant human immunodeficiency virus type 1 (HIV-1) in several CD4-positive cell lines, in order to clarify the molecular function of Nef protein. The delayed growth of nef mutant virus was observed at the initial stage of replication in all cell lines examined. This phenomenon was greatly amplified in the absence of vpu gene. In order to determine the infection stage in viral replication cycle which is specifically affected on virus replication rate in the presence of the Nef protein, we first examined the difference between wt and nef mutant viruses in the virus production rate from transfected cells, and found that the both viruses were produced with equal efficiency. This result showed that Nef protein could be dispensable for virion production. Therefore, early infection stages were focused by single-round infection assay, and the nef mutant virus was found to be much less infectious than wt virus. This indicated that the effect of Nef protein was exhibited in the early phase of a virus replication cycle, during viral adsorption to integration. By entry assay using wt and nef mutant virions, it was revealed that the Nef protein was required for efficient viral entry. These data suggest that the Nef protein might play a role in efficient incorporation of the Env protein into the virions, leading to enhanced viral infectivity.