琥珀酰亚胺水解
![af488 nhs ester,afdye 488琥珀酰亚胺酯,具有水溶性和ph值不敏感性](https://imgs.wantubizhi.com/img/735A5D1F980B52A636CC46F12F2D1A733C2DFE713FFAA85C3C904AC33A0E646896ADBEBD3FF804B27FA813D9BA0688E5FA9CF0D1D8AB3B1B9D196876778F858FDAF08D026A37C075307E1797192F0A616BEFF3EDF261174B0D95E51FDED6CF1F)
af488 nhs ester,afdye 488琥珀酰亚胺酯,具有水溶性和ph值不敏感性
图片尺寸778x838![所得衍生物化合物为peg琥珀酰亚胺琥珀酸酯[6].](https://imgs.wantubizhi.com/img/A1A61BAA66193547F3A6DD7D8EE527E978AB3A814F36F7354AC93267D698ED6CAD0DDB6F76231A0CA4B47A450297F7F23B16D46F3227A0F22DDA6D51BE1BC7A539175D4E6A97865B118646BC8C2A0CC65FB7213FACACCC2D1934C3F86DB381FF)
所得衍生物化合物为peg琥珀酰亚胺琥珀酸酯[6].
图片尺寸569x190![(3-二甲基氨基丙基)碳酰氯)和nhs(n-羟基琥珀酰亚胺)发生活化反应后](https://imgs.wantubizhi.com/img/ADDA3C5D760C6828B77B505A29D43E83F5F9976203D29162BA0E8EDB291159D329344D476DAB6730E9E3E059808F2322BFAC9DB6B4E28C995FD0CC8677D090DA801E086E93AADB3750535E1EEA8136329D5E7F0AAA95B46304127AC1A7FDA323)
(3-二甲基氨基丙基)碳酰氯)和nhs(n-羟基琥珀酰亚胺)发生活化反应后
图片尺寸640x427![通过将硅氧烷引入分子印迹技术,可以提升三氟甲基基团的疏水性](https://imgs.wantubizhi.com/img/A1A61BAA66193547F3A6DD7D8EE527E9B994C51B3B3F1B0101C10114639621A39925A3D10D4B67AC641EEC85B5DD4EC30CA8ED082FDB48FF3C30129EC1D019FCACD8F5CA6AD73636B71C63718433AEF8482A55C394937481CCDD7347EA1BB68E)
通过将硅氧烷引入分子印迹技术,可以提升三氟甲基基团的疏水性
图片尺寸576x361![bdp 576/589琥珀酰亚胺酯,py-bodipy-nhs ester可标记非极性和亲液性](https://imgs.wantubizhi.com/img/A1A61BAA66193547F3A6DD7D8EE527E9F99ED778940CDDD44A6BEDBF5B223933065028742C6784647DE1CAF03C3937D0F391B135D52EBD34689616817FE6E54DDDCB9940E2A4857A18FBC84E33BD575655F0D835BAE09EA6035D0F3A6C083EDA)
bdp 576/589琥珀酰亚胺酯,py-bodipy-nhs ester可标记非极性和亲液性
图片尺寸779x854![抗体偶联药物的未来发展方向](https://imgs.wantubizhi.com/img/A1A61BAA66193547F3A6DD7D8EE527E982B41A592F478DD917250A6170AC14F8686397B871173893703869470BAD75DCFAE3D3FD968A2B4DBD995EB0B1C32E164AB64782351477EC0469C104D23E7ECFA80273CD2A5FB3A1710D3AEAF68FF6CF)
抗体偶联药物的未来发展方向
图片尺寸660x216![180144-70-1,6-罗丹明6g琥珀酰亚胺酯由罗丹明6g衍生而来具有良好的](https://imgs.wantubizhi.com/img/A1A61BAA66193547F3A6DD7D8EE527E93E6F57CBCC3475A273E40B7C6E975EC1B52843299775DF5928A89927E949AB9D4BB8133B566B6C64EA7A87729A47EB18A2D120D85D0705E26135DA2DA7196A16BC4813E182A0AEA5FD93916CEFC39686)
180144-70-1,6-罗丹明6g琥珀酰亚胺酯由罗丹明6g衍生而来具有良好的
图片尺寸3072x3072![bcn nhs,1516551-46-4,bcn-琥珀酰亚胺酯,可用于功能化重组_endo-bcn](https://imgs.wantubizhi.com/img/735A5D1F980B52A636CC46F12F2D1A73B9A0E2C3E1B92B152102C202325AAACDC6BCA16FB152F2C8A7A4B76FB40A7030D391D046F50AAC587E898C2444D909801A96612B6299E7FB198BED63268E6786E1EF638400198D6C37A2465E003620F0)
bcn nhs,1516551-46-4,bcn-琥珀酰亚胺酯,可用于功能化重组_endo-bcn
图片尺寸489x304![接下来,将4-氰基-4-(苯基碳硫酰硫基)戊酸与胺基团发生反应,引发可逆](https://imgs.wantubizhi.com/img/A1A61BAA66193547F3A6DD7D8EE527E96F8E723F5D91666CC08E0C8E562B161ACAABDF645E2B35F4E1AAAED2BBCAFFBCE90AF15168E6BBF75471E287EA72C4B5362C8783DE6A31CC94CDFBAF4474ABF02433BC967118ADA6C01CFE8F13C281FE)
接下来,将4-氰基-4-(苯基碳硫酰硫基)戊酸与胺基团发生反应,引发可逆
图片尺寸576x313![如下表的结构4,但由于琥珀酰亚胺酯易水解,不易稳定保存,所以也可以](https://imgs.wantubizhi.com/img/ADDA3C5D760C6828B77B505A29D43E8346839FF3884A4ECDE83D35BF46E35458E8F74FBC52EFF046375023F9A8FB97717FFA49A396CCB1318AC25EC902BF54F11E64D4DD57302AA91C6A72B557FA310260D090CBAB91D22C4FEBF067E8C93334)
如下表的结构4,但由于琥珀酰亚胺酯易水解,不易稳定保存,所以也可以
图片尺寸832x705![cy55e琥珀酰亚胺酯cy55ese具备较低的背景干扰和较高的光稳定性](https://imgs.wantubizhi.com/img/ADDA3C5D760C6828B77B505A29D43E83080330014DEF6FBAF7AEFBB72475798C1FB50E3854A2051F93038058805B825ACC6E5C2CEE0233FB455B3D7052723E494C7380BC49FD4022347F5C91D255645BBA38EF9C31C0500C8AE97F4FE33ACD6A)
cy55e琥珀酰亚胺酯cy55ese具备较低的背景干扰和较高的光稳定性
图片尺寸750x750![通过对蛋白水解敏感的马来酰亚胺连接体将dxd生物结合到抗her2曲妥珠](https://imgs.wantubizhi.com/img/A1A61BAA66193547F3A6DD7D8EE527E9B04037DEDD40ABE41FED4C1FD036399B6C3575CB444DAA16030EFDB71FCE65D4D3F025925DFD5800DA212B71D2B763352E2073DD3D8F93C830D65CCAD4BF2072369BCD68E4A3DD8F3F743969CC572427)
通过对蛋白水解敏感的马来酰亚胺连接体将dxd生物结合到抗her2曲妥珠
图片尺寸660x301![9-芴甲基 n-琥珀酰亚胺基碳酸酯fmoc-osu纯度≥98�s:82911-69-1](https://imgs.wantubizhi.com/img/A1A61BAA66193547F3A6DD7D8EE527E9DDDC71BB9CE24EAD68B02378910F57E7E4533C96CA3EDFE4E3C5A41D90C138C2C6BF7F645781CF6CAEF6D2B0C26C3E94A926135F2871FF16C82B44284D22965D0CC2907C39DAA79E4F68BA033DCA9C98)
9-芴甲基 n-琥珀酰亚胺基碳酸酯fmoc-osu纯度≥98�s:82911-69-1
图片尺寸1920x1920![多肽药物合成方法](https://imgs.wantubizhi.com/img/735A5D1F980B52A636CC46F12F2D1A734320ECDAA98B5713F332179A201C88AB9EC427349D842E0E8CECD0A04E5B7BDDFA7EFC651EEB422B3435DE1AE4D5C58E004311ED5C9319BFF212E8C962AB484E39F3BFA94E9D91FDB1A1AA753D2C9DC0)
多肽药物合成方法
图片尺寸1497x789![一类基于甲醛诱导催化琥珀酰亚胺水解的甲醛荧光探针及其制备方法和](https://imgs.wantubizhi.com/img/A1A61BAA66193547F3A6DD7D8EE527E9B9ED3515C0ABF6CAF20623180848AD7E3C17CA923C2323AFC1DD0590D5867124DD97316D1A61439CFEE6EBE0D4273B1376C8D6B49FA6D636EDFB293F6C5E453247864516D673DA9D1C896C1ACE98C489)
一类基于甲醛诱导催化琥珀酰亚胺水解的甲醛荧光探针及其制备方法和
图片尺寸1795x848![m peg scm,mpeg-scm可以作为纳米材料的表面修饰剂](https://imgs.wantubizhi.com/img/735A5D1F980B52A636CC46F12F2D1A737DD9CABD3398FE28410DFC998213548019D2F8E62F4E9465F99E55183544DEF95DAA377271975192B27E1DA11C5ED34AD5671508AD84106309BE0F8163CAB5600ED36039F48AF1AA600159F998A30D67)
m peg scm,mpeg-scm可以作为纳米材料的表面修饰剂
图片尺寸551x300![198139-51-4,488琥珀酰亚胺酯一种活性酯衍生物具有良好荧光特性](https://imgs.wantubizhi.com/img/735A5D1F980B52A636CC46F12F2D1A7354CA3FE41904B16641D00EF977CE7F9B1DDECCF386E948CFE22EC3A83A8EFBD523AFD6360FF0B5FD818EF9D2F82983597FF365E05D077A2242B53FE080C6A224C5EEBE5401229CC9A44CA5CC48DDEEB7)
198139-51-4,488琥珀酰亚胺酯一种活性酯衍生物具有良好荧光特性
图片尺寸641x605![1ws叠氮,常用的荧光淬灭剂_试剂_染料_in](https://imgs.wantubizhi.com/img/735A5D1F980B52A636CC46F12F2D1A7353CFAC61FEBE156D35202F7FD06F6C717F198DBB187A812BE5FF715CDC751E1911D3FED5C5CC699A96FA304235026A7F3F3DA9C0391FB38E667B119B489AF05D12A4491ECE76983D4B8D6DFBF3B3DC8C)
1ws叠氮,常用的荧光淬灭剂_试剂_染料_in
图片尺寸430x430![琥珀酰胺](https://imgs.wantubizhi.com/img/ADDA3C5D760C6828B77B505A29D43E83E7B0CA6E67F168C26A331D22BDAE529718084711A8A81A2CE2C2B26FDA9F8B02AE781654F309665742E601FCB4C8CC57E7E726453A1E8783B9824347650D19F72F81EC192534B79372C5F62E8F695211)
琥珀酰胺
图片尺寸600x600![mpegsas甲氧基聚乙二醇琥珀酰胺琥珀酰亚胺酯](https://imgs.wantubizhi.com/img/A1A61BAA66193547F3A6DD7D8EE527E916D02EB874EC3BC24BA07E5B8326CDA1C37623EAC8E359C9CB8076D556AE857AF6E240BE5BE90737A4057837D27A479A46ECDB58C00289BD472D728458349D936EAEF62C09F795FAC3D5AB7CC1915B51)
mpegsas甲氧基聚乙二醇琥珀酰胺琥珀酰亚胺酯
图片尺寸350x168