ABSTRACT: In all retroviruses analyzed to date (except for the spumaretroviruses), the Zn(2+)-coordinating residues of nucleocapsid (NC) perform or assist in crucial reactions necessary to complete the retrovirus life cycle. Six replication-defective mutations have been engineered in the two NC Zn(2+) fingers (ZFs) of simian immunodeficiency virus [SIV(Mne)] that change or delete specific Zn(2+)-interacting Cys residues and were studied by using electron microscopy, reversed-phase high-performance liquid chromatography, immunoblotting, and RNA quantification. We focused on phenotypes of produced particles, specifically morphology, Gag polyprotein processing, and genomic RNA packaging. Phenotypes were similar among viruses containing a point or deletion mutation involving the same ZF. Mutations in the proximal ZF (ZF1) resulted in near-normal Gag processing and full-length genomic RNA incorporation and were most similar to wild-type (WT) virions with electron-dense, conical cores. Mutation of the distal ZF, as well as point mutations in both ZFs, resulted in more unprocessed Gag proteins than a deletion or point mutation in ZF1, with an approximate 30% reduction in levels of full-length genomic RNA in virions. These mutant virions contained condensed cores; however, the cores typically appeared less electron dense and more rod shaped than WT virions. Surprisingly, deletion of both ZFs, including the basic linker region between the ZFs, resulted in the most efficient Gag processing. However, genomic RNA packaging was approximately 10% of WT levels, and those particles produced were highly abnormal with respect to size and core morphology. Surprisingly, all NC mutations analyzed demonstrated a significant loss of processed NC in virus particles, suggesting that Zn(2+)-coordinated NC is protected from excessive proteolytic cleavage. Together, these results indicate that Zn(2+) coordination is important for correct Gag precursor processing and NC protein stability. Additionally, SIV particle morphology appears to be the result of proper and complete Gag processing and relies less on full-length genomic RNA incorporation, as dictated by the Zn(2+) coordination in the ZFs of the NC protein.