| Description | Anti Iba-1 is specifically reactive to microglia and macrophages, and are appropriate for immuno-double staining of brain tissues and cell culture in combination with monoclonal antibody to GFAP, which specifically reactes to astrocytes. | Monoclonal Anti Sia a2-3 antibody is produced by hybridoma clone HYB4, established by fusing mouse myeloma cells PAI and lymphocytes of C3H/Ne mice immunized with glycolipid a2-3nLc4Cer (Neu5Ac a2-3Gal ß1-4GlcNAc ß1-3Gal ß1-4Glc ß1-1Cer) which was adsorbed with bacterial cell walls prepared from Monoclonal Anti Sia a2-3 antibody is produced by hybridoma clone HYB4, established by fusing mouse myeloma cells PAI and lymphocytes of C3H/Ne mice immunized with glycolipid a2-3nLc4Cer (Neu5Ac a2-3Gal ß1-4GlcNAc ß1-3Gal ß1-4Glc ß1-1Cer) which was adsorbed with bacterial cell walls prepared from Salmonella minnesota strain. This antibody was purified from serum-free cultured supernatant by using Protein A affinity chromatography. This product is for laboratory research use only, Do not administer it to human.... Read More | Anti Iba-1 is specifically reactive to microglia and macrophages, and are appropriate for immuno-double staining of brain tissues and cell culture in combination with monoclonal antibody to GFAP, which specifically reactes to astrocytes. | Apoptosis Inducer arrests tumor cells in late-S/G2 When methionine-dependent tumor cells in vitro are deprived of methionine they reversibly arrest in the late-S/G2 phase of the cell cycle. rMETase is an agent effective against all the major tumor types. Thus it is an excellent tool for the study ofApoptosis Inducer arrests tumor cells in late-S/G2 When methionine-dependent tumor cells in vitro are deprived of methionine they reversibly arrest in the late-S/G2 phase of the cell cycle. rMETase is an agent effective against all the major tumor types. Thus it is an excellent tool for the study of cell-cycle and anti-tumor agents. Pkg: 100 units... Read More | This ligase will be used for ligation of ssDNA-ssDNA, ssRNA-ssRNA and ssDNA-ssRNA depending on ATP. Reaction of this ligase in 55-65 degrees, which is the optimum reaction temperature, will promote the ligation efficiency. |