The use of murine systems to model pathogen-induced human diseases presumes that general immune mechanisms between these species are conserved. One important immunoregulatory mechanism involves linkage of innate and adaptive immunity to direct the development of T helper subsets, for example toward subset 1 (T H 1) development through STAT4 activation. In analyzing type I interferon signaling, we uncovered a difference between murine and human cells which may affect how these two species control linkage between innate and adaptive immunity. We show that in humans, type I interferons induce T H 1 development and can activate STAT4 by recruitment to the IFN-α receptor complex specifically via the carboxy-terminus of STAT2. However, the mouse Stat2 gene harbors a minisatellite insertion that has altered the carboxy-terminus and selectively disrupted its capacity to activate STAT4, but not other STATs. This defect in murine Stat2 suggests that the signals leading to STAT4 activation and T H 1 development in CD4+ T cells are different between mice and humans.