Literature DB >> 26028119

Coordination and fine motor control depend on Drosophila TRPγ.

Bradley Akitake1, Qiuting Ren2, Nina Boiko3, Jinfei Ni4, Takaaki Sokabe1, James D Stockand3, Benjamin A Eaton3, Craig Montell1.   

Abstract

Motor coordination is broadly divided into gross and fine motor control, both of which depend on proprioceptive organs. However, the channels that function specifically in fine motor control are unknown. Here we show that mutations in trpγ disrupt fine motor control while leaving gross motor proficiency intact. The mutants are unable to coordinate precise leg movements during walking, and are ineffective in traversing large gaps due to an inability in making subtle postural adaptations that are requisite for this task. TRPγ is expressed in proprioceptive organs, and is required in both neurons and glia for gap crossing. We expressed TRPγ in vitro, and found that its activity is promoted by membrane stretch. A mutation eliminating the Na(+)/Ca(2+) exchanger suppresses the gap-crossing phenotype of trpγ flies. Our findings indicate that TRPγ contributes to fine motor control through mechanical activation in proprioceptive organs, thereby promoting Ca(2+) influx, which is required for function.

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Year:  2015        PMID: 26028119      PMCID: PMC4535187          DOI: 10.1038/ncomms8288

Source DB:  PubMed          Journal:  Nat Commun        ISSN: 2041-1723            Impact factor:   14.919


  56 in total

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  18 in total

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7.  Utility of somatosensory and motor-evoked potentials in reflecting gross and fine motor functions after unilateral cervical spinal cord contusion injury.

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8.  A sensory-motor neuron type mediates proprioceptive coordination of steering in C. elegans via two TRPC channels.

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9.  Cucurbitacin B Activates Bitter-Sensing Gustatory Receptor Neurons via Gustatory Receptor 33a in Drosophila melanogaster.

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