Development of catabolic pathways in insect flight muscles. A comparative study
Publication date
1975-04
Authors
Beenakkers, A.M.Th.
Broek, A.Th.M. van den
Ronde, Th.J.A. de
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Article
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Abstract
Activities of enzymes representative of glycolytic and β-oxidative pathways and citric acid and glycerophosphate cycles were measured in the developing flight muscles of three species: Calliphora erythrocephala, Locusta migratoria, and Philosamia cynthia. The activities were measured in vitro under optimal conditions.
The enzyme pattern of young flight muscles is quite different from the adult pattern. In the second half of the developmental period final differentiation towards the adult metabolic pattern takes place, in Calliphora leading to exclusively carbohydrate-oxidizing capacities, in Locusta to properties enabling both aerobic glycolytic and β-oxidative processes, whereas Philosamia becomes oriented to fatty acid oxidation. This differentiation starts after a temporary rise of lactate dehydrogenase activity, a phenomenon that seems to be connected with invagination of tracheoblasts into the muscle fibres. This tracheolization might be necessary for differentiation towards the species specific metabolic properties of the adult flight muscle.
Theoretical aspects of the enzyme activities, as they were measured in the in vitro assays, are discussed and related to the physiological qualities of the flight muscles of the three species investigated.