Ilan I. Deak scite author profile

The thoracic muscles of Drosophila melanogaster can be classified into two classes, the fibrillar and the tubular muscles, on morphological grounds. Histochemical techniques were used to characterize these two classes of muscle according to their content of various enzymes (alpha-glycerophosphate, NAD-dependent isocitrate, malate and succinate dehydrogenases, fumarase, acid phosphatase, adenosine triphosphatase and acetylcholinesterase) and of glycogen. These investigations showed that the two muslces types are histochemically very different and, further, that the morphologically similar tubular muscles are heterogeneous with respect to their enzyme content. In particular, the tergal depressor of the trochanter of the second leg, the largest of the tubular muslces, has considerably less of all the enzymes studied, with the exception of acetylcholinesterase, than all the other tubular muscles examined. The histochemical techniqes were also used to follow the changes in enzyme levels that occur during development of the indirect flight muscle fibres. All the enzymes that are present in adult flight muslces showed an increase in staining intensity throughout muscle development. Some minor differences were observed in the time of appearance and rate of increase of intensity of the different enzymes.

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Demonstration of sensory neurones in the ectopic cuticle of spineless-aristapedia, a homoeotic mutant of Drosophila

Deak

1976

Nature

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Use of Drosophila mutants to investigate the effect of disuse on the maintenance of muscle

Deak

1976

Journal of Insect Physiology

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Differentiation in vitro of larval and adult muscles from embryonic cells ofDrosophila

Dübendorfer

Blumer

Deak

1978

Wilhelm Roux' Archiv

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The differentiation of muscles in primary cultures of cells fromDrosophila melanogaster embryos was investigated. In early cultures, and in the absence of exogenous ecdysone, two main classes of muscle were found. Comparison, by light and electron microscopy, of one of these classes (the "myotube" class) with muscles from third instar larvae shows that this class corresponds to the muscles of the body wall of the larva. When α- or β-ecdysone is added to the cultures, these undergo a number of metamorphic changes. Most of the larval muscles disappear, and two new types of muscle form. Ultrastructural and light microscopic examination of these two types indicates that they correspond to the two classes of skeletal muscle (fibrillar and tubular) found in adult flies.

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Ilan I. Deak

Developmental and Genetic Studies of the Indirect Flight Muscles of Drosophila Melanogaster

A histochemical study of the muscles of Drosophila melanogaster

Demonstration of sensory neurones in the ectopic cuticle of spineless-aristapedia, a homoeotic mutant of Drosophila

Use of Drosophila mutants to investigate the effect of disuse on the maintenance of muscle

Differentiation in vitro of larval and adult muscles from embryonic cells ofDrosophila

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