The function of dipteran flight muscle

The flight muscles of flies are separated into two physiologically, anatomically, and functionally distinct classes: power muscles and control muscles. The large indirect power muscles sustain the high level of mechanical energy required to flap the wings up and down during flight. The contractions in the asynchronous power muscles are initiated by stretch, and their slow presynaptic motor drive serves only to maintain a tonic level of cytosolic calcium. Although providing the mechanical energy for flight, the power muscles are not directly attached to the wings. Instead, their mechanical energy is transmitted to the base of the wings through the complex linkage system of the wing hinge. In contrast, the small control muscles insert directly onto the skeletal elements at the base of the wing. Through their mechanical effects on the hinge, the control muscles act collectively as a transmission system that determines how the mechanical energy produced by the power muscles is transformed into wing motion. The control muscles are activated by motor spikes in the conventional one-for-one fashion. Thus, although the control muscles can generate little mechanical power, they provide the means by which the nervous system can rapidly alter wing kinematics during sophisticated aerial maneuvers. Copyright (C) 1997 Elsevier Science Inc.