ABSTRACT: NS1 of influenza A virus is a potent antagonist of host antiviral interferon responses. This multifunctional protein with two distinctive domains, an RNA-binding domain (RBD) and an effector domain (ED) separated by a linker region (LR), is implicated in replication, pathogenesis, and host range. Although the structures of individual domains of NS1 from different strains of influenza viruses have been reported, the only structure of full-length NS1 available to date is from an H5N1 strain (A/Vietnam/1203/2004). By carrying out crystallographic analyses of full-length H6N6-NS1 (A/blue-winged teal/MN/993/1980) and an LR deletion mutant, combined with mutational analysis, we show here that these full-length NS1 structures provide an exquisite structural sampling of various conformational states of NS1 that based on the orientation of the ED with respect to RBD can be summarized as "open," "semi-open," and "closed" conformations. Our studies show that preference for these states is clearly dictated by determinants such as linker length, residue composition at position 71, and a mechanical hinge, providing a structural basis for strain-dependent functional variations in NS1. Because of the flexibility inherent in the LR, any particular NS1 could sample the conformational space around these states to engage ED in different quaternary interactions so that it may participate in specific protein-protein or protein-RNA interactions to allow for the known multifunctionality of NS1. We propose that such conformational plasticity provides a mechanism for autoregulating NS1 functions, depending on its temporal distribution, posttranslational modifications, and nuclear or cellular localization, during the course of virus infection.NS1 of influenza A virus is a multifunctional protein associated with numerous strain-specific regulatory functions during viral infection, including conferring resistance to antiviral interferon induction, replication, pathogenesis, virulence, and host range. NS1 has two domains, an RNA-binding domain and an effector domain separated by a linker. To date, the only full-length NS1 structure available is that from an H5N1 strain (A/Vietnam/1203/2004). Here, we determined crystal structures of the wild type and a linker region mutant of the H6N6 NS1 (A/blue-winged teal/MN/993/1980), which together with the previously determined H5N1 NS1 structure show that NS1 exhibits significant strain-dependent structural polymorphism due to variations in linker length, residue composition at position 71, and a mechanical hinge. Such a structural polymorphism may be the basis for strain-specific functions associated with NS1.