Significance Optogenetics is a rapidly growing field in which light is used to control biological systems. We show that Oscillatoria acuminata photoactivated adenylate cyclase (OaPAC) protein produces the fundamental second messenger cyclic-AMP (cAMP) in response to blue light, is stable and functional in different mammalian cell types, and can be used to trigger events by raising cAMP level. OaPAC consists of a catalytic domain controlled by a photosensitive blue light using flavin (BLUF) domain. We have solved the crystal structure to show how activity is triggered by light, and guide mutagenesis experiments. Although the catalytic domain resembles known cyclases, the BLUF domains form an unusual intertwined structure. The protein activity is the same in solution as in the crystal, showing that the activation mechanism involves only small molecular movements.