The IgY solution can be diluted to 1:500-1,000 for immunofluorescence staining and 1:1,000-5,000 for western blotting. On western blots look for a major band at 43 kDa, depending on the species.
B-50 antikoerper, PP46 antikoerper, Basp2 antikoerper, GAP-43 antikoerper, b-50 antikoerper, gap-43 antikoerper, gap43b antikoerper, pp46 antikoerper, cb310 antikoerper, gap antikoerper, gap43 antikoerper, gap43a antikoerper, growth associated protein 43 antikoerper, growth associated protein 43 L homeolog antikoerper, growth associated protein 43 S homeolog antikoerper, GAP43 antikoerper, Gap43 antikoerper, gap43.L antikoerper, gap43 antikoerper, gap43.S antikoerper
Hintergrund
GAP43 is very abundant protein which is found concentrated in neurons. One group discovered it as one of three proteins which becomes unregulated during the regeneration of the toad optic nerve. Three GAPs (Growth associated proteins) were discovered, and the number 43 comes from the apparent SDS-PAGE molecular weight of the one named GAP43. The HGNC name for this protein is, not surprisingly, GAP43. Later work showed that GAP43 does not run on SDS-PAGE in a fashion which accurately reflects its molecular weight, and that GAP43 proteins from different species may run at different apparent molecular weights. Partly due to these features GAP43 were independently discovered by several different groups and therefore has several alternate names, such as protein F1, pp46, neuromodulin, neural phosphoprotein B-50 and calmodulin-binding protein P-57. In each case the number reflects the apparent SDS-PAGE molecular weight, and underlines the unusual properties of this molecule. Mammalian GAP43 proteins contains only 226-243 amino acids, and so the real molecular weight is 23.61-25.14KDa (to perform such calculations yourself see this link). GAP43 is one of many highly negatively charged extended molecules which lack well defined tertiary structure and which run anomolously on SDS-PAGE. Other examples are microtubule associated proteins MAP2 and tau and the Neurofilament subunits. GAP43 has been extensively studied and is known to be a major protein kinase C substrate and to bind calmodulin avidly. GAP43 is anchored to the plasma membrane by palmitoylation modifications.