Microtubule-mediated GLUT4 trafficking is disrupted in insulin-resistant skeletal muscle

Jonas R. Knudsen, Kaspar W. Persson, Carlos Henriquez-Olguin, Zhencheng Li, Nicolas Di Leo, Sofie A. Hesselager, Steffen H. Raun, Janne R. Hingst, Raphaël Trouillon, Martin Wohlwend, J. ørgen F. P. Wojtaszewski, Martin A. M. Gijs and Thomas Elbenhardt Jensen

Article (2023)

An external link is available for this item

Department:	Department of Electrical Engineering
PolyPublie URL:	https://publications.polymtl.ca/53665/
Journal Title:	Elife (vol. 12)
Publisher:	eLife Sciences Publications, Ltd
DOI:	10.7554/elife.83338
Official URL:	https://doi.org/10.7554/elife.83338
Date Deposited:	10 Jul 2023 16:30
Last Modified:	25 Sep 2024 16:45

Cite in APA 7:	Knudsen, J. R., Persson, K. W., Henriquez-Olguin, C., Li, Z., Di Leo, N., Hesselager, S. A., Raun, S. H., Hingst, J. R., Trouillon, R., Wohlwend, M., Wojtaszewski, J. F. P., Gijs, M. A. M., & Jensen, T. E. (2023). Microtubule-mediated GLUT4 trafficking is disrupted in insulin-resistant skeletal muscle. Elife, 12, e83338 (24 pages). https://doi.org/10.7554/elife.83338
APA 7 (HTML)ASCII CitationAtomBibTeXDOIsDublin CoreEndNote (.ENW)MARC (ISO 2709/UTF-8) (.MRC)MARC (UTF-8) (.MRK8)MARC XMLMPEG-21 DIDLMultiline CSVOAI-ORE Resource Map (Atom Format)OPENAIREOpenURL ContextObjectOpenURL ContextObject in SpanRDF+N-TriplesRDF+N3RDF+XMLReferReference Manager (.RIS)Simple Metadata

Statistics

Repository Staff Only