MUSKELFUNKTION IN DER IMAGINALENTWICKLUNG VON ANTHERAEA 



1035 



agiwara, S. und A. Watanabe. 1954. Actionpotential\of insect muscle examined 



with intra-cellular électrode. Jap. J. Physiol. 4: 65 — 78. 

 akansson, C. H. 1956. Conduction velocity and amplitude of the action potential as 

 related to circumference in the isolated fibre of frog muscle. Acta Physiol. 

 Scand. 37: 14—34. 

 oyle, G. 1953. Slow and fast nerve fibres in locusts. Nature 169: 281 — 282. 

 oyle, G. 1953. Potassium ions and insect nerve muscle. J. exp. Biol. 30: 121 — 135. 



— 1955. The effects of some common cations on neuromuscular transmission in insects. 

 J. Physiol. 127: 90—103. 



1957. The comparative physiology of the nervous control of muscular contraction. 

 Cambridge, University Press. 

 uddart, H. 1966 a. Electrical and mechanical responses recorded from lepidopterous 

 skeletal muscle. J. Insect Physiol. 12: 537 — 545. 



— 1966 b. The effect of K ions on resting and action potentials in lepidopteran muscle. 



Comp. Biochem. Physiol. 18: 131—140. 

 :eda, K. und E. G. Boettiger. 1965. Studies on the fiight mechanism of insects. H. The 

 innervation and electrical activity of the fibrillar muscles of the bumble 

 bee (Bombus). J. Ins. Physiol. 11: 779—789. 

 'erkut, G. A. und R. J. Walker. 1966. The effect of L-Glutamate, ACh and GABA 

 on the miniature end-plate potentials and contractures of the coxal muscles 

 of the cockroach, Periplaneta americana. Comp. Biochem. Physiol. 

 17: 435—454. 



uffler, S. W. 1942. Electrical potential changes at an isolated nerve-muscle junction. 

 J. Neurophysiol. 5: 18 — 26. 



— und R. W. Gérard. 1947. The small-nerve motor System to skeletal muscle. 



J. Neurophysiol. 10: 383—394. 



— und E. M. V. Williams. 1953. Small-nerve junctional potentials. The distribution 



of small motor nerves to frog skeletal muscle, and the membrane charac- 



teristics of the fibers they innervate. J. Physiol. 121: 289 — 317. 

 ng, G. und R. W. Gérard. 1949. The normal membrane potential of frog sartorius 



fibres. J. Cell. Comp. Physiol. 34: 383—396. 

 c Cann, F, und E. G. Boettiger. 1961. Studies on the fiight mechanism of insects. 



I The electrophysiology of fibrillar fiight muscles. J. gen. Physiol. 45: 



125—143. 



Qesch, H. 1965. Uber die strukturelle und funktionelle Entwicklung der Muskeln 

 bei Antheraea (Lep.). Z. Naturf. 20: 343—347. 



— 1965. Die Imaginal-Entwicklung von Antheraea pol. Cr. (Lep.). Zool. Jb. Anat. 



82: 393—418. 



ikand, R. K. 1962. The relation between membrane potential and contraction in 

 single crayfish muscle fibres. J. Physiol. 161: 143 — 159. 



ingle, J. W. S. 1949. The excitation and contraction of the fiight muscles of insects. 

 J. Physiol. 108: 226—232. 



— 1957. The insect fiight. London, Cambridge Univ. Press. 



iler, H. 1967. Anorganische lonen. In: E. Stahl, Dùnnschichtchromatographie, 2. Aufl. 

 798—813, Berlin, Springer-Verlag. 



— , E. Sorkin und H. Erlenmeyer. 1952. Uber die papier chromatographische 



Bestimmung von Alkali- und Erdalkaliionen in biologischen Materialien. 

 Helv. chim. Acta 35: 2483—2486. 



