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Regulation of coordinated muscular relaxation in Drosophila larvae by a pattern-regulating intersegmental circuit

Published version
Peer-reviewed

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Authors

Jonaitis, Julius 
Niki, Sawako 

Abstract

Abstract: Typical patterned movements in animals are achieved through combinations of contraction and delayed relaxation of groups of muscles. However, how intersegmentally coordinated patterns of muscular relaxation are regulated by the neural circuits remains poorly understood. Here, we identify Canon, a class of higher-order premotor interneurons, that regulates muscular relaxation during backward locomotion of Drosophila larvae. Canon neurons are cholinergic interneurons present in each abdominal neuromere and show wave-like activity during fictive backward locomotion. Optogenetic activation of Canon neurons induces relaxation of body wall muscles, whereas inhibition of these neurons disrupts timely muscle relaxation. Canon neurons provide excitatory outputs to inhibitory premotor interneurons. Canon neurons also connect with each other to form an intersegmental circuit and regulate their own wave-like activities. Thus, our results demonstrate how coordinated muscle relaxation can be realized by an intersegmental circuit that regulates its own patterned activity and sequentially terminates motor activities along the anterior-posterior axis.

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Keywords

Article, /631/378/2632/2633, /631/378/2632/1664, /14/35, /13/51, /13/89, article

Journal Title

Nature Communications

Conference Name

Journal ISSN

2041-1723

Volume Title

12

Publisher

Nature Publishing Group UK
Sponsorship
MEXT | Japan Society for the Promotion of Science (JSPS) (15H04255, 17H05554, 18H05113, 19H04742, 20H05048)