專一性切除醣鏈末端的單醣分子 容許詳細分析醣鏈結構 所有的酵素經過測試不含蛋白水解活性及非預期的醣苷活性
請左右移動表格位置查看更完整內容
產品貨號 | 產品名稱 | 產品描述 | 產品規格 (Datasheet) |
---|---|---|---|
E-S001 | Sialidase Au – Alpha-(2-3,6,8,9), 300mU/60ul | All non-reducing terminal branched and unbranched sialic acid. | |
E-S005 | Sialidase Cp – Alpha-(2-3,6), 900mU/60ul | All non-reducing terminal branched and unbranched α-(2-3) and α-(2-6) sialic acid. Relative activity α-(2-3) > α-(2-6) | |
E-S007 | Sialidase Sp Alpha-(2-3), 300mU/60ul | All non-reducing terminal branched and unbranched α-(2-3) sialic acid. | |
E-AG01 | Alpha-(1-3,6)-Galactosidase, 24U/60ul | Non-reducing terminal alpha-(1-3)- and alpha-(1-6)-galactose. There is no activity on alpha-(1-4)-galactose. | |
E-BG07 | Beta-(1-4)-Galactosidase, 180mU/60ul | Non-reducing terminal alpha-(1-3)- and alpha-(1-6)-galactose. There is no activity on alpha-(1-4)-galactose. | |
E-BG02 | Beta-(1-3,4,6)-Galactosidase 0.5U/200ul | Cleaves all ß1-3 and ß1-4 linked non-reducing, terminal galactose. ß1-6 linked galactose is released at a slower rate. | |
E-GL01 | Glucosaminidase, 2.4U/60ul | All non-reducing terminal ß-linked N-acetylglucosamine. Bisecting GlcNAc slows the reaction. | |
E-AM01 | Alpha-(1-2,3,6)-Mannosidase, 0.6U/60ul | Cleaves all Alpha-(1-2,3,6)-linked mannose. | |
E-AM02 | Alpha-(1-6)-Core Mannosidase, 60mU/60ul | Cleaves unbranched non-reducing terminal mannose, α(1-6) linked to the beta-linked core mannose of the conserved mannosylchitobiose core of N-linked oligosaccharides. The presence of fucose linked to the core N-acetylglucosamine has no effect on cleavage. The enzyme may inhibit other mannosidases if a noncleavable α(1-6) mannose is present on the substrate. It should therefore always be added subsequent to digestion by other mannosidases. | |
E-F006 | Alpha-(1-6)-Fucosidase, 30mU/60ul | α(1-6) linked core fucose when covalently attached to a reporter molecule at the reducing terminus. The one exception is that a terminal unbranched α(1-3) ) or α(1-4) fucose is cleaved in the absence of any reporter molecule.These substrates do not apparently occur in nature. Reporter molecules known to support cleavage are amino-napthalene disulfonic and trisulfonic acids and 2-aminobenzoic acid(2-AA). However, 2-aminobenzamide(2-AB) will not support cleavage. Shorter oligosaccharides such as trimannosylchitobiose are more completely digested than longer derivatives which may require longer incubation times. |