The bHLH-PAS transcription factors are found in both protostomes and deuterostomes. They are involved in many developmental and physiological processes including the regional differentiation of the central nervous system, tube-formation, hypoxia signaling, aromatic hydrocarbon sensing, and circadian rhythm regulation. Although some of their functions are apparently different between model protostomes and vertebrates, little has been known about the evolution of their functions. To understand the evolution of these genes in chordates, I manually annotated bHLH-PAS genes of the basal chordate amphioxus (Branchiostoma floridae) from the draft genome database. My results show that amphioxus has at least 10 bHLH-PAS genes, 9 of which can be assigned to known orthologous families. Moreover, the comparisons of cDNA sequences and gene models show that current amphioxus gene models may not correctly predict the true coding sequence. Finally, I examined the developmental expression patterns of these amphioxus bHLH-PAS genes by quantitative polymerase chain reaction and in situ hybridization. I found that BfArnt, BfNcoa, BfSim, and BfHifα are expressed in similar patterns compared to their vertebrate homologues, suggesting that their functions may be conserved. On the other hand, BfAhr and BfNpas4 are expressed with different patterns between amphioxus and vertebrates. This might imply functional changes after the divergence of cephalochordates and vertebrates. Since vertebrates have multiple bHLH-PAS paralogues that may result from whole genome duplications, I compared the expression patterns and the functions of these paralogues. I suggest that neo- or subfunctionalization of the duplicated paralogues may explain the functional divergence of bHLH-PAS genes in the vertebrate lineage.