Anti-Axons of the Drosophila CNS antibody [BP102] (ab12455)

Publishing research using ab12455? Please let us know so that we can cite the reference in this datasheet.

ab12455 has been referenced in 16 publications.

  • Magalhães TR  et al. Transcriptional control in embryonic Drosophila midline guidance assessed through a whole genome approach. BMC Neurosci 8:59 (2007). PubMed: 17672901
  • Fraichard S  et al. Tenectin, a novel extracellular matrix protein expressed during Drosophila melanogaster embryonic development. Gene Expr Patterns 6:772-6 (2006). PubMed: 16510317
  • Boyle M  et al. Drosophila Eph receptor guides specific axon branches of mushroom body neurons. Development 133:1845-54 (2006). PubMed: 16613832
  • Mellerick DM & Liu H Methanol exposure interferes with morphological cell movements in the Drosophila embryo and causes increased apoptosis in the CNS. J Neurobiol 60:308-18 (2004). PubMed: 15281069
  • Matsuura R  et al. Distinct functions of Rac1 and Cdc42 during axon guidance and growth cone morphogenesis in Drosophila. Eur J Neurosci 19:21-31 (2004). PubMed: 14750960
  • Fradkin LG  et al. The Drosophila Wnt5 protein mediates selective axon fasciculation in the embryonic central nervous system. Dev Biol 272:362-75 (2004). PubMed: 15282154
  • Sears HC  et al. Macrophage-mediated corpse engulfment is required for normal Drosophila CNS morphogenesis. Development 130:3557-65 (2003). PubMed: 12810602
  • Seppo A  et al. Induction of neuron-specific glycosylation by Tollo/Toll-8, a Drosophila Toll-like receptor expressed in non-neural cells. Development 130:1439-48 (2003). PubMed: 12588858
  • Song HJ  et al. The fruitless gene is required for the proper formation of axonal tracts in the embryonic central nervous system of Drosophila. Genetics 162:1703-24 (2002). PubMed: 12524343
  • Ratnaparkhi A  et al. Altered levels of Gq activity modulate axonal pathfinding in Drosophila. J Neurosci 22:4499-508 (2002). PubMed: 12040057
  • Bashaw GJ  et al. A novel Dbl family RhoGEF promotes Rho-dependent axon attraction to the central nervous system midline in Drosophila and overcomes Robo repulsion. J Cell Biol 155:1117-22 (2001). PubMed: 11756465
  • Hummel T  et al. The Drosophila HEM-2/NAP1 homolog KETTE controls axonal pathfinding and cytoskeletal organization. Genes Dev 14:863-73 (2000). PubMed: 10766742
  • Ashraf SI  et al. The mesoderm determinant snail collaborates with related zinc-finger proteins to control Drosophila neurogenesis. EMBO J 18:6426-38 (1999). PubMed: 10562554
  • Carney GE  et al. DHR3, an ecdysone-inducible early-late gene encoding a Drosophila nuclear receptor, is required for embryogenesis. Proc Natl Acad Sci U S A 94:12024-9 (1997). PubMed: 9342356
  • Fambrough D  et al. The cell surface metalloprotease/disintegrin Kuzbanian is required for axonal extension in Drosophila. Proc Natl Acad Sci U S A 93:13233-8 (1996). PubMed: 8917574
  • Seeger M  et al. Mutations affecting growth cone guidance in Drosophila: genes necessary for guidance toward or away from the midline. Neuron 10:409-26 (1993). PubMed: 8461134