S

S. or the viral glycoprotein complex gM/gN. The C terminus of BicD1 has been previously shown to interact with the GTPase Rab6, suggesting a potential role for Rab6-mediated vesicular trafficking in HCMV assembly. Finally, overexpression of the N terminus of truncated BicD1 acts in a dominant-negative manner and leads to disruption of the AC and a decrease in the assembly of infectious virus. This phenotype was similar to that observed following overexpression of dynamitin (p50) and provided additional evidence that morphogenesis of the AC and virus assembly were dynein dependent. Human cytomegalovirus (HCMV) (human herpesvirus 5 [HHV-5]), the prototypical betaherpesvirus, is ubiquitous in humans and establishes a persistent infection in the host (19). HCMV also reinfects healthy seropositive individuals, suggesting another mechanism for maintaining persistence in a population (9). Intrauterine transmission and HCMV infection of the developing fetus constitute a leading viral cause of birth defects (32). HCMV is also a leading cause of opportunistic infections in immunocompromised patients, including transplant recipients and patients with RS 127445 AIDS (10, 20). HCMV infection has also been implicated as a cofactor in such diverse diseases as atherosclerosis and cancer (8, 17, 33, 66). HCMV replicates its genome in the nucleus, and acquisition of the final tegument and envelope is thought to occur in the cytoplasm of infected cells (73, 77). Envelopment of HCMV has been reported to occur by budding into cytoplasmic vacuoles that are composed of HCMV glycoproteins required for the assembly of infectious virions (37). The fully mature virus is released from the cell through either exocytosis or, possibly, lysis of the infected cells (56). The nucleic acid-containing capsid is embedded in a proteinaceous tegument layer that occupies the space between the nucleocapsid and the envelope. The tegument contains approximately 40% of the virion protein mass and approximately 20 to 25 known virion proteins, most of which are phosphorylated (40, 44). The assembly pathway and protein interactions required for formation of the tegument layer and the role of individual tegument proteins in the replication and assembly of infectious HCMV remain poorly understood. Deletion of viral genes encoding some tegument proteins results in varying levels of impairment in virus production (11-13, 35, 43, 45, 53, 68). Some tegument proteins, such RS 127445 as pp28 (pUL99) and ppUL25, are expressed only in the cytoplasm of infected cells during HCMV replication, whereas others, such as ppUL53 and pp65 (pUL83), are expressed in the nuclei of cells early in infection but are localized predominantly in the cytoplasm late in infection (68). Others, such as the tegument protein ppUL69, are expressed only in the nuclei of infected cells. Finally, the intracellular localization of other tegument proteins, such as pp150 (pUL32), is Furin less well defined in that both nuclear and RS 127445 cytoplasmic localizations have been described (34, 68). HCMV pp150 (basic phosphoprotein [BPP], pUL32) is the 1,048-amino-acid product of the UL32 gene of HCMV and an abundant constituent of the HCMV virion. Homologues of pp150 are RS 127445 found in other betaherpesviruses, including chimpanzee CMV, rat CMV, mouse CMV, HHV-6, and HHV-7, but not in alpha- or gammaherpesviruses (2). It is expressed late in HCMV infection (15, 68). It comprises 9.1% of infectious virion mass and 2% of the mass of dense bodies, suggesting that it is preferentially incorporated into virions (87). It has an estimated molecular mass of 113 kDa and is posttranslationally modified by phosphorylation and glycosylation, resulting in a molecular mass of 150 kDa in purified virus preparations analyzed by SDS-PAGE (41, 42, 65). pp150 has been classified as a tegument protein based on its presence in virion preparation, noninfectious enveloped particles, and cytoplasmic nucleocapsids but not in immature nuclear capsids (27, 28, 40). It has been suggested that pp150 contacts the capsids through the distal end of the capsomeres or through the triplex subunits that interlink them (16, 86). It has been reported to bind HCMV capsids through its amino one-third (6). We have also noted association of.