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Results: 1 to 20 of 98

Similar articles for PubMed (Select 22278412)

1.

Reprogramming axonal behavior by axon-specific viral transduction.

Walker BA, Hengst U, Kim HJ, Jeon NL, Schmidt EF, Heintz N, Milner TA, Jaffrey SR.

Gene Ther. 2012 Sep;19(9):947-55. doi: 10.1038/gt.2011.217. Epub 2012 Jan 26.

2.

In vivo imaging reveals a phase-specific role of STAT3 during central and peripheral nervous system axon regeneration.

Bareyre FM, Garzorz N, Lang C, Misgeld T, Büning H, Kerschensteiner M.

Proc Natl Acad Sci U S A. 2011 Apr 12;108(15):6282-7. doi: 10.1073/pnas.1015239108. Epub 2011 Mar 29.

3.

Genetic study of axon regeneration with cultured adult dorsal root ganglion neurons.

Saijilafu, Zhou FQ.

J Vis Exp. 2012 Aug 17;(66). pii: 4141. doi: 10.3791/4141.

4.

In vivo imaging of axonal degeneration and regeneration in the injured spinal cord.

Kerschensteiner M, Schwab ME, Lichtman JW, Misgeld T.

Nat Med. 2005 May;11(5):572-7. Epub 2005 Apr 10.

5.

Neurotrophin-3 expressed in situ induces axonal plasticity in the adult injured spinal cord.

Zhou L, Baumgartner BJ, Hill-Felberg SJ, McGowen LR, Shine HD.

J Neurosci. 2003 Feb 15;23(4):1424-31.

7.

Axonal protein synthesis provides a mechanism for localized regulation at an intermediate target.

Brittis PA, Lu Q, Flanagan JG.

Cell. 2002 Jul 26;110(2):223-35.

PMID:
12150930
9.

A dual promoter lentiviral vector for the in vivo evaluation of gene therapeutic approaches to axon regeneration after spinal cord injury.

Löw K, Blesch A, Herrmann J, Tuszynski MH.

Gene Ther. 2010 May;17(5):577-91. doi: 10.1038/gt.2010.14. Epub 2010 Mar 4.

PMID:
20200564
10.

Targeting sensory axon regeneration in adult spinal cord.

Tang XQ, Heron P, Mashburn C, Smith GM.

J Neurosci. 2007 May 30;27(22):6068-78.

11.

Gene therapy approaches to enhancing plasticity and regeneration after spinal cord injury.

Franz S, Weidner N, Blesch A.

Exp Neurol. 2012 May;235(1):62-9. doi: 10.1016/j.expneurol.2011.01.015. Epub 2011 Jan 31. Review.

12.

Regeneration of long-tract axons through sites of spinal cord injury using templated agarose scaffolds.

Gros T, Sakamoto JS, Blesch A, Havton LA, Tuszynski MH.

Biomaterials. 2010 Sep;31(26):6719-29. doi: 10.1016/j.biomaterials.2010.04.035. Epub 2010 Jun 17.

PMID:
20619785
13.

Dynamics of degeneration and regeneration in developing zebrafish peripheral axons reveals a requirement for extrinsic cell types.

Villegas R, Martin SM, O'Donnell KC, Carrillo SA, Sagasti A, Allende ML.

Neural Dev. 2012 Jun 8;7:19. doi: 10.1186/1749-8104-7-19.

14.
15.

Morphological evidence for a transport of ribosomes from Schwann cells to regenerating axons.

Court FA, Midha R, Cisterna BA, Grochmal J, Shakhbazau A, Hendriks WT, Van Minnen J.

Glia. 2011 Oct;59(10):1529-39. doi: 10.1002/glia.21196. Epub 2011 Jun 8.

PMID:
21656857
16.

New insights into neuronal regeneration: the role of axonal protein synthesis in pathfinding and axonal extension.

Twiss JL, van Minnen J.

J Neurotrauma. 2006 Mar-Apr;23(3-4):295-308. Review.

PMID:
16629617
18.

Limiting multiple sclerosis related axonopathy by blocking Nogo receptor and CRMP-2 phosphorylation.

Petratos S, Ozturk E, Azari MF, Kenny R, Lee JY, Magee KA, Harvey AR, McDonald C, Taghian K, Moussa L, Mun Aui P, Siatskas C, Litwak S, Fehlings MG, Strittmatter SM, Bernard CC.

Brain. 2012 Jun;135(Pt 6):1794-818. doi: 10.1093/brain/aws100. Epub 2012 Apr 28.

20.

A functional role for intra-axonal protein synthesis during axonal regeneration from adult sensory neurons.

Zheng JQ, Kelly TK, Chang B, Ryazantsev S, Rajasekaran AK, Martin KC, Twiss JL.

J Neurosci. 2001 Dec 1;21(23):9291-303.

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