The heterodimeric transcription factor hypoxia-inducible factor (HIF) plays an important role in the progression of a number of processes in which O2 availability is compromised and, as such, has become an increasingly attractive therapeutic target. Although tremendous progress has been made in recent years in unraveling the mechanisms underlying O2-dependent regulation of HIF through its O2-dependent degradation domain and C-terminal transactivation domain, our understanding of the contributions of other structural elements, particularly the Per/ARNT/Sim (PAS)-A and PAS-B domains, to the activity of HIF is incomplete. Using insights derived from the recently determined solution structures of the HIF PAS-B domains as a starting point, we have explored the function(s) of the HIF-2alpha PAS domains via mutational analysis. In contrast to recent models, our data reveal that both PAS domains of the HIF-alpha subunit are necessary for heterodimer formation but are not required to mediate other HIF functions in which PAS domains have been implicated. Because disruption of individual PAS domains compromise HIF function independent of the mechanism of HIF induction, these data demonstrate the potential utility of targeting these domains for therapeutic applications.