Dscam2 suppresses synaptic strength through a PI3K-dependent endosomal pathway. [electronic resource]

By:

Odierna, G Lorenzo

Contributor(s):

Kerwin, Sarah K
Harris, Lucy E
Shin, Grace Ji-Eun
Lavidis, Nickolas A
Noakes, Peter G
Millard, S Sean

Producer: 20210319ISSN:

1540-8140

Subject(s):

Animals
Animals, Genetically Modified
Drosophila -- growth & development
Drosophila Proteins -- genetics
Endosomes -- genetics
GTPase-Activating Proteins -- metabolism
Immunohistochemistry
Larva -- genetics
Microscopy, Electron, Transmission
Motor Neurons -- metabolism
Mutation
Neural Cell Adhesion Molecules -- genetics
Neurogenesis -- genetics
Neuromuscular Junction -- cytology
Peripheral Nervous System -- metabolism
Phosphatidylinositol 3-Kinases -- metabolism
Phosphatidylinositols -- metabolism
Phosphoinositide-3 Kinase Inhibitors -- pharmacology
Protein Isoforms -- metabolism
Synaptic Transmission -- genetics

Online resources:

Available from publisher's website

In: The Journal of cell biology vol. 219

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Publication Type: Journal Article; Research Support, Non-U.S. Gov't

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Dscam2 suppresses synaptic strength through a PI3K-dependent endosomal pathway.

APA

Odierna G. L., Kerwin S. K., Harris L. E., Shin G. J., Lavidis N. A., Noakes P. G. & Millard S. S. (20210319). Dscam2 suppresses synaptic strength through a PI3K-dependent endosomal pathway. : The Journal of cell biology.

Chicago

Odierna G Lorenzo, Kerwin Sarah K, Harris Lucy E, Shin Grace Ji-Eun, Lavidis Nickolas A, Noakes Peter G and Millard S Sean. 20210319. Dscam2 suppresses synaptic strength through a PI3K-dependent endosomal pathway. : The Journal of cell biology.

Harvard

Odierna G. L., Kerwin S. K., Harris L. E., Shin G. J., Lavidis N. A., Noakes P. G. and Millard S. S. (20210319). Dscam2 suppresses synaptic strength through a PI3K-dependent endosomal pathway. : The Journal of cell biology.

MLA

Odierna G Lorenzo, Kerwin Sarah K, Harris Lucy E, Shin Grace Ji-Eun, Lavidis Nickolas A, Noakes Peter G and Millard S Sean. Dscam2 suppresses synaptic strength through a PI3K-dependent endosomal pathway. : The Journal of cell biology. 20210319.

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