Dr Claire Goldsbury
M02 - Mallet Street Campus
The University of Sydney NSW 2006 Australia |
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Claire Goldsbury is a Senior Research Fellow and Group Leader at the BMRI. Her lab was established in July 2007 and comprises a team of Australian PhD and honours students and visiting international students. We collaborate with other groups in the wider University of Sydney and NSW community and internationally.
2009
- Whiteman, I, Gervasio, O, Cullen, K, Guillemin, G, Jeong, E, Witting, P, Antao, S, Minamide, L, Bamburg, J, Goldsbury, C. Activated actin-depolymerizing factor/cofilin sequesters phosphorylated microtubule-associated protein during the assembly of alzheimer-like neuritic cytoskeletal striations. The Journal of neuroscience. 2009; 29:12994-13005
2008
- Goldsbury, C, Whiteman, I, Jeong, E, Lim, Y. Oxidative stress increases levels of endogenous amyloid-beta peptides secreted from primary chick brain neurons. Aging cell. 2008; 7:771-5
2007
- Goldsbury, C, Thies, E, Konzack, S, Mandelkow, E. Quantification of amyloid precursor protein and tau for the study of axonal traffic pathways. The Journal of neuroscience : the official journal of the Society for Neuroscience. 2007; 27:3357-3363
2006
- Goldsbury, C, Mocanu, M, Thies, E, Kaether, C, Haass, C, Keller, P, Biernat, J, Mandelkow, E, Mandelkow, E. Inhibition of APP trafficking by tau protein does not increase the generation of amyloid-beta peptides. Traffic. 2006; 7:873-888
2005
- Goldsbury, C, Frey, P, Olivieri, V, Aebi, U, Müller, S. Multiple assembly pathways underlie amyloid-beta fibril polymorphisms. Journal of molecular biology. 2005; 352:282-298
- Goldsbury, C, Green, J. Time-lapse atomic force microscopy in the characterization of amyloid-like fibril assembly and oligomeric intermediates. Methods in molecular biology. 2005; 299:103-128
2004
- Green, J, Kreplak, L, Goldsbury, C, Li Blatter, X, Stolz, M, Cooper, G, Seelig, A, Kistler, J, Aebi, U. Atomic force microscopy reveals defects within mica supported lipid bilayers induced by the amyloidogenic human amylin peptide. Journal of molecular biology. 2004; 342:877-887
- Green, J, Goldsbury, C, Kistler, J, Cooper, G, Aebi, U. Human amylin oligomer growth and fibril elongation define two distinct phases in amyloid formation. The Journal of biological chemistry. 2004; 279:12206-12212
