Crystal structures of more than two dozen different nuclear receptor ligand binding domains have defined a simple paradigm of receptor activation, in which agonist binding induces the activation function-2 (AF-2) helix to form a charge clamp for coactivator recruitment. Recent structural studies present a surprising contrast. Activation of the mouse LRH-1 receptor is independent of a bound agonist despite its large ligand binding pocket, whereas the activation of the Drosophila DHR38 receptor is dependent on ecdysteroids even though the receptor lacks a ligand binding pocket. These new findings shed light on the diverse structural mechanisms that nuclear receptors have evolved for activation, and have important implications in their respective signaling pathways.