Protein-protein interactions involved in formation of the membrane-associated hepatitis C virus (HCV) replication complex are poorly understood. Here, we investigated nonstructural proteins with deletions in their membrane anchor domains when expressed in the context of the entire HCV polyprotein. Interactions among cytosolic domains of HCV nonstructural proteins were found not to be sufficiently strong to rescue such mutants to the membrane. Thus, the membrane anchor domains of nonstructural proteins are essential for incorporation of these proteins into the HCV replication complex while interactions among the cytosolic domains appear to be relatively weak. This feature may provide the nonstructural proteins with a certain flexibility to perform their multiple functions during HCV replication.