Robo functions as an attractive cue for glial migration through SYG-1/Neph.

dc.contributor.author

Qu, Zhongwei

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Zhang, Albert

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Yan, Dong

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2022-07-21T17:35:12Z

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2022-07-21T17:35:12Z

dc.date.issued

2020-11-19

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2022-07-21T17:35:09Z

dc.description.abstract

As one of the most-studied receptors, Robo plays functions in many biological processes, and its functions highly depend on Slit, the ligand of Robo. Here we uncover a Slit-independent role of Robo in glial migration and show that neurons can release an extracellular fragment of Robo upon cleavage to attract glia during migration in Caenorhabditis elegans. Furthermore, we identified the conserved cell adhesion molecule SYG-1/Neph as a receptor for the cleaved extracellular Robo fragment to mediate glial migration and SYG-1/Neph functions through regulation of the WAVE complex. Our studies reveal a previously unknown Slit-independent function and regulatory mechanism of Robo and show that the cleaved extracellular fragment of Robo can function as a ligand for SYG-1/Neph to guide glial migration. As Robo, the cleaved region of Robo, and SYG-1/Neph are all highly conserved across the animal kingdom, our findings may present a conserved Slit-independent Robo mechanism during brain development.

dc.identifier

57921

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2050-084X

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2050-084X

dc.identifier.uri

https://hdl.handle.net/10161/25504

dc.language

eng

dc.publisher

eLife Sciences Publications, Ltd

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eLife

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10.7554/elife.57921

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Neuroglia

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Animals

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Caenorhabditis elegans

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Immunoglobulins

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Caenorhabditis elegans Proteins

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Receptors, Immunologic

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Nerve Tissue Proteins

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Cell Movement

dc.title

Robo functions as an attractive cue for glial migration through SYG-1/Neph.

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Journal article

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Qu, Zhongwei|0000-0002-6994-0530

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e57921

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Duke

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School of Medicine

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Staff

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Basic Science Departments

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Molecular Genetics and Microbiology

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Neurobiology

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Institutes and Provost's Academic Units

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University Institutes and Centers

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Duke Institute for Brain Sciences

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Regeneration Next Initiative

pubs.publication-status

Published

pubs.volume

9

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