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RESEARCH PRODUCT
Coordination and Integration of Metabolism in Insect Flight*
D.j CandyA BeckerGerhard Wegenersubject
Nervous systemPhysiologyOctopamine (drug)BiologyBiochemistryInsect flightchemistry.chemical_compoundmedicine.anatomical_structureFructose 26-bisphosphatechemistryBiochemistryHemolymphmedicinemedicine.symptomNeurohormonesMolecular BiologyMuscle contractionPhosphofructokinasedescription
Abstract Insect flight is the most energy-demanding activity of animals. It requires the coordination and cooperation of many tissues, with the nervous system and neurohormones controlling the performance and energy metabolism of muscles, and of the fat body, ensuring that the muscles and nerves are supplied with essential fuels throughout flight. Muscle metabolism can be based on several different fuels, the proportions of which vary according to the insect species and the stage in flight activity. Octopamine, which acts as neurotransmitter, neuromodulator or neurohormone in insects, has a central role in flight. It is present in brain, ventral ganglia and nerves, supplying peripheral tissues such as the flight muscles, and its concentration in hemolymph increases during flight. Octopamine has multiple effects during flight in coordinating and stimulating muscle contraction and also energy metabolism partly by activating phosphofructokinase via the glycolytic activator, fructose 2,6-bisphosphate. One important muscle fuel is trehalose, synthesized by the fat body from a variety of precursors, a process that is regulated by neuropeptide hormones. Other fuels for flight include proline, glycerol and ketone bodies. The roles of these and possible regulation in some insect species are discussed.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 1997-08-01 | Comparative Biochemistry and Physiology Part B: Biochemistry and Molecular Biology |