Abstract
Kaposi's sarcoma-associated herpesvirus (KSHV) belongs to the Gammaherpesvirinae subfamily. During the lytic phase of herpesviruses, viral capsids form in the host cell nucleus, and the replicated viral genome is packaged into these capsids. The herpesviral genome is replicated as a precursor head-to-tail concatemer consisting of tandemly repeated genomic units, each flanked by terminal repeats (TRs). The herpesvirus terminase complex packages a single genomic unit into a capsid by cleaving the TRs in the precursor genome. Although the terminase complexes of alpha- and beta-herpesviruses are well characterized, the KSHV terminase complex is poorly understood. KSHV ORF7, ORF67.5, and ORF29 are thought to be components of this complex. We previously reported that KSHV deficient in either ORF7 or ORF67.5 formed immature, soccer ball-like capsids and failed to cleave the TRs, resulting in decreased virion production. Moreover, ORF7 interacted with both ORF29 and ORF67.5; however, ORF29 and ORF67.5 did not interact with each other. Thus, although ORF7 and ORF67.5 are important for KSHV terminase function, the function of ORF29 remains largely unknown. In this study, we constructed an ORF29-deficient KSHV and analyzed its virological properties. ORF29 was found to be essential for virion production and TR cleavage. Numerous immature, soccer ball-like capsids were observed in cells harboring ORF29-deficient KSHV. The N-terminal region of ORF29 was important for its interaction with ORF7, although the full-length ORF29 was required for effective assembly of the KSHV terminase complex. Furthermore, ORF29 preferentially interacted with itself rather than with ORF7. Thus, our data show that ORF29 functions as a fundamental component of the terminase complex.IMPORTANCEBecause the role of ORF29 in the Kaposi's sarcoma-associated herpesvirus (KSHV) terminase complex remains unknown, we constructed ORF29-deficient KSHV. Our results demonstrated that ORF29 functions as a component of the KSHV terminase and is essential for mature capsid formation, terminal repeat (TR) cleavage, and terminase complex assembly. Moreover, ORF29 strongly interacted with itself. In herpes simplex virus 1 (HSV-1), the terminase complex (comprising UL15, UL28, and UL33) forms a trimer, and six such trimers assemble into a hexameric ring. The HSV-1 genome passes through this ring and undergoes TR cleavage and genome packaging into a capsid. The self-interaction of ORF29 may be involved in the multimerization of the terminase complex or in the formation of the KSHV terminase ring.