Adelaide Research & Scholarship: Search

Search

Results 31-40 of 73 (Search time: 0.003 seconds).

previous
1
2
3
4
5
6
7
...
8
next

Item hits:

Preview	Issue Date	Title	Author(s)
	2010	Chaperone-assisted selective autophagy is essential for muscle maintenance	Arndt, V.; Dick, N.; Tawo, R.; Dreiseidler, M.; Wenzel, D.; Hesse, M.; Furst, D.; Saftig, P.; Saint, R.; Fleischmann, B.; Hoch, M.; Hohfeld, J.
	2012	Snail-dependent repression of the RhoGEF pebble is required for gastrulation consistency in Drosophila melanogaster	Murray, M.; Southall, T.; Liu, W.; Fraval, H.; Lorensuhewa, N.; Brand, A.; Saint, R.
	2013	C. elegans RNA-dependent RNA polymerases rrf-1 and ego-1 silence Drosophila transgenes by differing mechanisms	Duan, G.; Saint, R.; Helliwell, C.; Behm, C.; Wang, M.; Waterhouse, P.; Gordon, K.
	2014	JNK signaling is needed to tolerate chromosomal instability	Wong, H.; Shaukat, Z.; Wang, J.; Saint, R.; Gregory, S.
	2010	Expression of Caenorhabditis elegans RNA-directed RNA polymerase in transgenic Drosophila melanogaster does not affect morphological development	Duan, G.; Saint, R.; Helliwell, C.; Behm, C.; Waterhouse, P.; Gordon, K.
	1998	Analysis of a Drosophila cyclin E hypomorphic mutation suggests a novel role for Cyclin E in cell proliferation control during eye imaginal disc development.	Secombe, J.; Pispa, J.; Saint, R.; Richardson, H.
	2015	The organizer in evolution-gastrulation and organizer gene expression highlight the importance of Brachyury during development of the coral, Acropora millepora	Hayward, D.; Grasso, L.; Saint, R.; Miller, D.; Ball, E.
	2002	Analysis of Drosophila Cyclin EI and II function during development: Identification of an inhibitory zone within the morphogenetic furrow of the eye imaginal disc that blocks the function of Cyclin EI but not Cyclin EII	Denton, D.; Secombe, J.; Coombe, M.; Brumby, A.; Saint, R.; Richardson, H.
	2010	Signalling through the RhoGEF pebble in Drosophila	Gregory, S.; Lorensuhewa, N.; Saint, R.
	2015	Netrins and Frazzled/DCC promote the migration and mesenchymal to epithelial transition of Drosophila midgut cells	Pert, M.; Gan, M.; Saint, R.; Murray, M.