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Items: 1 to 20 of 95

1.

Investigating synapse formation and function using human pluripotent stem cell-derived neurons.

Kim JE, O'Sullivan ML, Sanchez CA, Hwang M, Israel MA, Brennand K, Deerinck TJ, Goldstein LS, Gage FH, Ellisman MH, Ghosh A.

Proc Natl Acad Sci U S A. 2011 Feb 15;108(7):3005-10. doi: 10.1073/pnas.1007753108. Epub 2011 Jan 28.

2.

Lack of association between NLGN3, NLGN4, SHANK2 and SHANK3 gene variants and autism spectrum disorder in a Chinese population.

Liu Y, Du Y, Liu W, Yang C, Liu Y, Wang H, Gong X.

PLoS One. 2013;8(2):e56639. doi: 10.1371/journal.pone.0056639. Epub 2013 Feb 26.

3.

hVGAT-mCherry: A novel molecular tool for analysis of GABAergic neurons derived from human pluripotent stem cells.

DeRosa BA, Belle KC, Thomas BJ, Cukier HN, Pericak-Vance MA, Vance JM, Dykxhoorn DM.

Mol Cell Neurosci. 2015 Sep;68:244-57. doi: 10.1016/j.mcn.2015.08.007. Epub 2015 Aug 16.

4.

Human cerebral cortex development from pluripotent stem cells to functional excitatory synapses.

Shi Y, Kirwan P, Smith J, Robinson HP, Livesey FJ.

Nat Neurosci. 2012 Feb 5;15(3):477-86, S1. doi: 10.1038/nn.3041.

5.

A matter of balance: role of neurexin and neuroligin at the synapse.

Bang ML, Owczarek S.

Neurochem Res. 2013 Jun;38(6):1174-89. doi: 10.1007/s11064-013-1029-9. Epub 2013 Apr 5. Review.

PMID:
23559421
6.

Improved cell therapy protocols for Parkinson's disease based on differentiation efficiency and safety of hESC-, hiPSC-, and non-human primate iPSC-derived dopaminergic neurons.

Sundberg M, Bogetofte H, Lawson T, Jansson J, Smith G, Astradsson A, Moore M, Osborn T, Cooper O, Spealman R, Hallett P, Isacson O.

Stem Cells. 2013 Aug;31(8):1548-62. doi: 10.1002/stem.1415.

7.

Distinct roles of neuroligin-1 and SynCAM1 in synapse formation and function in primary hippocampal neuronal cultures.

Burton SD, Johnson JW, Zeringue HC, Meriney SD.

Neuroscience. 2012 Jul 26;215:1-16. doi: 10.1016/j.neuroscience.2012.04.047. Epub 2012 Apr 25.

8.

Neurons generated by direct conversion of fibroblasts reproduce synaptic phenotype caused by autism-associated neuroligin-3 mutation.

Chanda S, Marro S, Wernig M, Südhof TC.

Proc Natl Acad Sci U S A. 2013 Oct 8;110(41):16622-7. doi: 10.1073/pnas.1316240110. Epub 2013 Sep 17.

9.

Optogenetics reveal delayed afferent synaptogenesis on grafted human-induced pluripotent stem cell-derived neural progenitors.

Avaliani N, Sørensen AT, Ledri M, Bengzon J, Koch P, Brüstle O, Deisseroth K, Andersson M, Kokaia M.

Stem Cells. 2014 Dec;32(12):3088-98. doi: 10.1002/stem.1823.

10.

Comparison of neural differentiation potential of human pluripotent stem cell lines using a quantitative neural differentiation protocol.

Yin D, Tavakoli T, Gao WQ, Ma W.

Methods Mol Biol. 2012;873:247-59. doi: 10.1007/978-1-61779-794-1_16.

PMID:
22528360
11.

Selective capability of SynCAM and neuroligin for functional synapse assembly.

Sara Y, Biederer T, Atasoy D, Chubykin A, Mozhayeva MG, Südhof TC, Kavalali ET.

J Neurosci. 2005 Jan 5;25(1):260-70.

12.

Dissection of synapse induction by neuroligins: effect of a neuroligin mutation associated with autism.

Chubykin AA, Liu X, Comoletti D, Tsigelny I, Taylor P, Südhof TC.

J Biol Chem. 2005 Jun 10;280(23):22365-74. Epub 2005 Mar 29.

13.

MDGAs interact selectively with neuroligin-2 but not other neuroligins to regulate inhibitory synapse development.

Lee K, Kim Y, Lee SJ, Qiang Y, Lee D, Lee HW, Kim H, Je HS, Südhof TC, Ko J.

Proc Natl Acad Sci U S A. 2013 Jan 2;110(1):336-41. doi: 10.1073/pnas.1219987110. Epub 2012 Dec 17.

14.

Enriched population of PNS neurons derived from human embryonic stem cells as a platform for studying peripheral neuropathies.

Valensi-Kurtz M, Lefler S, Cohen MA, Aharonowiz M, Cohen-Kupiec R, Sheinin A, Ashery U, Reubinoff B, Weil M.

PLoS One. 2010 Feb 18;5(2):e9290. doi: 10.1371/journal.pone.0009290.

15.

Specification of region-specific neurons including forebrain glutamatergic neurons from human induced pluripotent stem cells.

Zeng H, Guo M, Martins-Taylor K, Wang X, Zhang Z, Park JW, Zhan S, Kronenberg MS, Lichtler A, Liu HX, Chen FP, Yue L, Li XJ, Xu RH.

PLoS One. 2010 Jul 29;5(7):e11853. doi: 10.1371/journal.pone.0011853.

16.

Human Neuropsychiatric Disease Modeling using Conditional Deletion Reveals Synaptic Transmission Defects Caused by Heterozygous Mutations in NRXN1.

Pak C, Danko T, Zhang Y, Aoto J, Anderson G, Maxeiner S, Yi F, Wernig M, Südhof TC.

Cell Stem Cell. 2015 Sep 3;17(3):316-28. doi: 10.1016/j.stem.2015.07.017. Epub 2015 Aug 13.

17.

Pyramidal neurons derived from human pluripotent stem cells integrate efficiently into mouse brain circuits in vivo.

Espuny-Camacho I, Michelsen KA, Gall D, Linaro D, Hasche A, Bonnefont J, Bali C, Orduz D, Bilheu A, Herpoel A, Lambert N, Gaspard N, Péron S, Schiffmann SN, Giugliano M, Gaillard A, Vanderhaeghen P.

Neuron. 2013 Feb 6;77(3):440-56. doi: 10.1016/j.neuron.2012.12.011.

18.

In vitro differentiation of mouse embryonic stem cells into neurons of the dorsal forebrain.

Jing Y, Machon O, Hampl A, Dvorak P, Xing Y, Krauss S.

Cell Mol Neurobiol. 2011 Jul;31(5):715-27. doi: 10.1007/s10571-011-9669-2. Epub 2011 Mar 20.

19.

An autism-associated point mutation in the neuroligin cytoplasmic tail selectively impairs AMPA receptor-mediated synaptic transmission in hippocampus.

Etherton MR, Tabuchi K, Sharma M, Ko J, Südhof TC.

EMBO J. 2011 Jun 3;30(14):2908-19. doi: 10.1038/emboj.2011.182.

20.

GDNF and GFRalpha1 promote formation of neuronal synapses by ligand-induced cell adhesion.

Ledda F, Paratcha G, Sandoval-Guzmán T, Ibáñez CF.

Nat Neurosci. 2007 Mar;10(3):293-300. Epub 2007 Feb 18.

PMID:
17310246

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