Molecular mechanisms of axon guidance in Drosophila

2017

Bibollet-Bahena O, Okafuji T, Hokamp K, Tear G, Mitchell KJ (2017) A dual-strategy expression screen for candidate connectivity labels in the developing thalamus. PLoS One 12: e0177977
Mohammed A, O'Hare MB, Warley A, Tear G, Tuxworth RI (2017) in vivo localization of the neuronal ceroid lipofuscinosis proteins, CLN3 and CLN7, at endogenous expression levels. Neurobiol Dis 103: 123-132

2016

Cate MS, Gajendra S, Alsbury S, Raabe T, Tear G, Mitchell KJ (2016) Mushroom body defect is required in parallel to Netrin for midline axon guidance in Drosophila. Development 143: 972-7

2014

Povellato G, Tuxworth RI, Hanger DP, Tear G (2014) Modification of the Drosophila model of in vivo Tau toxicity reveals protective phosphorylation by GSK3b. Biol Open 3: 1-11

2013

Povellato G,Tuxworth RI, Hanger DP,Tear G (2013) Modification of the Drosophila model of in vivo Tau toxicity reveals protective phosphorylation by GSK3β Biology Open Nov 28: bio.201366
van den Brink DM, Banerji O, Tear G (2013) Commissureless regulation of axon outgrowth across the midline is independent of Rab function. PLoS One 8: e64427

2011

Tuxworth RI, Chen H, Vivancos V, Carvajal N, Huang X, Tear G (2011) The Batten disease gene CLN3 is required for the response to oxidative stress. Hum Mol Genet 20: 2037-47

2009

Tuxworth RI, Vivancos V, O'Hare MB, Tear G (2009) Interactions between the juvenile Batten disease gene, CLN3, and the Notch and JNK signalling pathways. Hum Mol Genet 18: 667-78