地址:武汉市洪山区光谷大道35号光谷总部国际时代 二期1栋1301
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艾美捷科技有限公司代理SIRIUS FINE CHEMICALS SICHEM GMBH公司产品。
SIRIUS FINE CHEMICALS SICHEM GMBH公司,主要提供:
点击化学工具(Si-CLICK (Click Chemistry))
PEG试剂(Si-PEGs)
脂质及其衍生物(Si-LIPs (Lipids & Derivatives))
磷酸肌醇试剂(Inositol Phosphates & Phosphoinositides)
核酸及其衍生物(Nucleotides & Derivatives)
API标准品及代谢底物(API Standards & Metabolites)
稳定的同位素(Stable Isotopes)
磷酸化及亚磷酸化试剂(Phosphorylation / Phosphitylation)
精细化学试剂(Fine Chemicals)
更多详情请联系
艾美捷科技有限公司
全国服务热线:400-6800-868
邮箱:sales@amyjet.com
网站:www.amyjet.com
产品列表
| 产品名称 | 产品编号 | 分子式 |
| Click Amino Acid / trans-Cyclooct-4-en – L - Lysine (TCO4/EQ) / EQUATORIAL isomer | SC-8060 | C15H26N2O4 |
| bifunctional Cross-Linking-Amino-Acid / PrDiAzK | SC-8028 | C13H20N4O5 |
| Click Amino Acid / exo-BCN – Fmoc – L - Lysine (BCN) | SC-8038 | C32H36N2O6 |
| Cross-Linking-Amino-Acid / DiAzK | SC-8034 | C11H20N4O4 |
| Click-Amino-Acid / N3-Lys | SC-8027 | C9H17N5O4 |
| Click Amino Acid / cyclopropene – L - Lysine (CP) | SC-8017 | C12H20N2O4 |
| Click Amino Acid / endo-BCN – Fmoc – L - Lysine (BCN) | SC-8015 | C32H36N2O6 |
| Click Amino Acid / trans-Cyclooct-2-en – L - Lysine (TCO*A) | SC-8008 | C15H26N2O4 |
| Click Amino Acid / exo BCN - L - Lysine | SC-8016 | C17H26N2O4 |
| Click Amino Acid / Norbonene-CH2 – L - Lysine (NBO) | SC-8006 | C15 H24 N2 O4 * HCl |
| Click Amino Acid / rac BCN - L - Lysine | SC-8003 | C17H26N2O4 |
| Click Amino Acid / trans-Cyclooct-4-en – L - Lysine (TCO4) / AXIAL isomer | SC-8004 | C15H26N2O4 |
| Click Amino Acid / endo BCN - L - Lysine | SC-8014 | C17H26N2O4 |
| Click-Amino-Acid / PrK - HCl-salt | SC-8002 | C10H16N2O4 * HCl |
| Click Amino Acid (99%) / SCO - L - Lysine - HCO2H-salt | SC-8001 | C15H24N2O4* HCO2H |
| Click Amino Acid (95%) / SCO - L - Lysine - HCO2H-salt | SC-8000 | C15H24N2O4 * HCO2H |
| SCO-NHS carbonate | SC-8076 | C13H15NO5 |
| exo-BCN-NHS carbonate | SC-8075 | C15H17NO5 |
| endo-BCN-NHS carbonate | SC-8074 | C15H17NO5 |
| SCO-PEG7-Maleimide | SC-8305 | C32H51N3O12 |
| SCO-PEG3-Maleimide | SC-8304 | C24H35N3O8 |
| SCO-PEG2-Maleimide | SC-8303 | C22H31N3O7 |
| BCN-exo-PEG7-Maleimide | SC-8205 | C34H53N3O12 |
| BCN-exo-PEG3-Maleimide | SC-8204 | C24H33N3O7 |
| BCN-exo-PEG2-Maleimide | SC-8203 | C24H33N3O7 |
| BCN-endo-PEG7-Maleimide | SC-8105 | C34H53N3O12 |
| BCN-endo-PEG3-Maleimide | SC-8104 | C24H33N3O7 |
| BCN-endo-PEG2-Maleimide | SC-8103 | C24H33N3O7 |
| BCN-exo-PEG8-COOH | SC-8211 | C30H51NO12 |
| BCN-exo-PEG4-COOH | SC-8210 | C22H35NO8 |
| BCN-exo-PEG3-COOH | SC-8209 | C20H31NO7 |
| BCN-exo-PEG8-NHS | SC-8208 | C34H54N2O14 |
| BCN-exo-PEG4-NHS | SC-8207 | C26H38N2O10 |
| BCN-exo-PEG3-NHS | SC-8206 | C24H34N2O9 |
| BCN-endo-PEG3-NHS | SC-8106 | C24H34N2O9 |
| BCN-endo-PEG4-NHS | SC-8107 | C26H38N2O10 |
| BCN-endo-PEG8-NHS | SC-8108 | C34H54N2O14 |
| BCN-endo-PEG8-COOH | SC-8111 | C30H51NO12 |
| BCN-endo-PEG4-COOH | SC-8110 | C22H35NO8 |
| BCN-endo-PEG3-COOH | SC-8109 | C20H31NO7 |
| SCO-PEG3-COOH | SC-8309 | C18H29NO7 |
| SCO-PEG4-COOH | SC-8310 | C20H33NO8 |
| SCO-PEG8-COOH | SC-8311 | C28H49NO12 |
| SCO-PEG8-NHS | SC-8308 | C32H52N2O14 |
| SCO-PEG4-NHS | SC-8307 | C24H36N2O10 |
| SCO-PEG3-NHS | SC-8306 | C22H32N2O9 |
| SCO-PEG7-NH2 | SC-8302 | C25H46N2O9 |
| SCO-PEG3-NH2 | SC-8301 | C17H30N2O5 |
| SCO-PEG2-NH2 | SC-8300 | C15H26N2O4 |
| BCN-exo-PEG2-NH2 | SC-8200 | C17H28N2O4 |
| BCN-exo-PEG3-NH2 | SC-8201 | C19H32N2O5 |
| BCN-exo-PEG7-NH2 | SC-8202 | C27H48N2O9 |
| BCN-endo-PEG7-NH2 | SC-8102 | C27H48N2O9 |
| BCN-endo-PEG3-NH2 | SC-8101 | C19H32N2O5 |
| BCN-endo-PEG2-NH2 | SC-8100 | C17H28N2O4 |
| exo BCN - OH | SC-8033 | C10 H14 O |
| SCO - active ester (p-NPE) | SC-8032 | C15H15NO5 |
| SCO - OH | SC-8030 | C8H12O |
| endo BCN - OH | SC-8029 | C10 H14 O |
| exo BCN - active ester (p-NPE) | SC-8010 | C17H17NO5 |
| TCO4 - NHS carbonate / EQUATORIAL isomer | SC-8073 | C13H17NO5 |
| TCO4 - NHS carbonate / AXIAL isomer | SC-8072 | C13H17NO5 |
| (E)-cyclooct-4-enol / axial - TCO4 / A | SC-8018 | C8H14O |
| TCO4-PEG8-COOH | SC-8411 | C28H51NO12 |
| TCO*-PEG8-COOH | SC-8511 | C28H51NO12 |
| TCO*-PEG4-COOH | SC-8510 | C20H35NO8 |
| TCO4-PEG4-COOH | SC-8410 | C20H35NO8 |
| TCO4-PEG3-COOH | SC-8409 | C18H31NO7 |
| TCO*-PEG3-COOH | SC-8509 | C20H31NO7 |
| TCO*-PEG8-NHS | SC-8508 | C32H54N2O14 |
| TCO4-PEG8-NHS | SC-8408 | C32H54N2O14 |
| TCO4-PEG4-NHS | SC-8407 | C24H38N2O10 |
| TCO*-PEG4-NHS | SC-8507 | C24H38N2O10 |
| TCO*-PEG3-NHS | SC-8506 | C22H34N2O9 |
| TCO4-PEG3-NHS | SC-8406 | C22H34N2O9 |
| TCO*-PEG7-Maleimide | SC-8505 | C32H53N3O12 |
| TCO*-PEG3-Maleimide | SC-8504 | C24H37N3O8 |
| TCO*-PEG2-Maleimide | SC-8503 | C22H33N3O7 |
| TCO4-PEG7-Maleimide | SC-8405 | C32H53N3O12 |
| TCO4-PEG3-Maleimide | SC-8404 | C24H37N3O8 |
| TCO4-PEG2-Maleimide | SC-8403 | C22H33N3O7 |
| TCO*-PEG2-NH2 | SC-8500 | C15H28N2O4 |
| TCO*-PEG3-NH2 | SC-8501 | C17H32N2O5 |
| TCO*-PEG7-NH2 | SC-8502 | C25H48N2O9 |
| TCO4-PEG7-NH2 | SC-8402 | C25H48N2O9 |
| TCO4-PEG3-NH2 | SC-8401 | C17H32N2O5 |
| TCO4-PEG2-NH2 | SC-8400 | C15H28N2O4 |
| (E)-cyclooct-4-en active ester / TCO/E- active ester (p-NPE) / equatorial | SC-8024 | C15H17NO5 |
| (E)-cyclooct-4-en active ester / TCO4 / A- active ester (p-NPE) / axial | SC-8019 | C15H17NO5 |
| TCO*A - active ester (p-NPE) | SC-8007 | C15H17NO5 |
| Fluorescent-PEG8-Me-Tet | SC-8817 | C54H68N8O13 |
| Fluorescent-PEG4-Me-Tet | SC-8816 | C46H52N8O9 |
| Fluorescent-PEG3-Me-Tet | SC-8815 | C44H48N8O8 |
| Me-Tet-PEG8-NHBoc | SC-8820 | C34H56N6O11 |
| Me-Tet-PEG4-NHBoc | SC-8819 | C26H40N6O7 |
| Me-Tet-PEG3-NHBoc | SC-8818 | C24H36N6O6 |
| Biotin-PEG8-Me-Tet | SC-8814 | C39H62N8O11S |
| Biotin-PEG4-Me-Tet | SC-8813 | C31H46N8O7S |
| Biotin-PEG3-Me-Tet | SC-8812 | C29H42N8O6S |
| Me-Tet-PEG9-COOH | SC-8811 | C32H51N5O12 |
| Me-Tet-PEG5-COOH | SC-8810 | C24H35N5O8 |
| Me-Tet-PEG4-COOH | SC-8809 | C22H31N5O7 |
| Me-Tet-PEG9-NHS | SC-8808 | C36H54N6O14 |
| Me-Tet-PEG5-NHS | SC-8807 | C28H38N6O10 |
| Me-Tet-PEG4-NHS | SC-8806 | C26H34N6O9 |
| Me-Tet-PEG8-Maleimide | SC-8805 | C36H53N7O12 |
| Me-Tet-PEG4-Maleimide | SC-8804 | C28H37N7O8 |
| Me-Tet-PEG3-Maleimide | SC-8803 | C26H33N7O7 |
| Me-Tet-PEG8-NH2 - HCl salt | SC-8802 | C29H48N6O9 + HCl |
| Me-Tet-PEG4-NH2 | SC-8801 | C21H32N6O5 |
| Me-Tet-PEG3-NH2 | SC-8800 | C19H28N6O4 |
| Aminopentyl - Tetrazine - HCl-salt | SC-1193 | C18H20N8O * HCl |
| Tetrazine active ester (Tetrazine-NHS) | SC-1194 | C17H11N7O4 |
| Aminopropyl - Tetrazine - HCl-salt | SC-1192 | C16H16N8O * HCl |
| Methyl-Tetrazine - Amine- HCO2H-salt | SC-1191 | C10H11N5* HCO2H |
| Tetrazine - Amine - HCO2H-salt | SC-1190 | C9H9N5 * HCO2H |
| N3-PEG8-t-butyl ester | SC-8923 | C23H45N3O10 |
| N3-PEG5-t-butyl ester | SC-8922 | C17H33N3O7 |
| N3-PEG4-t-butyl ester | SC-8921 | C15H29N3O6 |
| N3-PEG3-t-butyl ester | SC-8920 | C13H25N3O5 |
| Boc-N-Amido-PEG7-N3 | SC-8912 | C21H42N4O9 |
| Boc-N-Amido-PEG3-N3 | SC-8911 | C13H26N4O5 |
| Boc-N-Amido-PEG2-N3 | SC-8910 | C11H22N4O4 |
| Boc-N-Amido-PEG4-Alkyne | SC-8900 | C16H29NO6 |
| Boc-N-Amido-PEG3-Alkyne | SC-8039 | C14H25NO5 |
| TAMRA-PEG8-Alkyne | SC-8717 | C44H57N3O12 |
| TAMRA-PEG4-Alkyne | SC-8716 | C36H41N3O8 |
| TAMRA-PEG3-Alkyne | SC-8715 | C34H37N3O7 |
| TAMRA-PEG7-N3 | SC-8714 | C41H54N6O11 |
| TAMRA-PEG3-N3 | SC-8713 | C33H38N6O7 |
| TAMRA-PEG2-N3 | SC-8712 | C31H34N6O6 |
| Biotin-PEG8-Alkyne | SC-8617 | C29H51N3O10S |
| Biotin-PEG4-Alkyne | SC-8616 | C21H35N3O6S |
| Biotin-PEG3-Alkyne | SC-8615 | C19H31N3O5S |
| Biotin-PEG7-N3 | SC-8614 | C26H48N6O9S |
| Biotin-PEG3-N3 | SC-8613 | C18H32N6O5S |
| Biotin-PEG2-N3 | SC-8612 | C16H28N6O4S |
| Click-Amino-Acid / PrK - HCl-salt | SC-8002 | C10H16N2O4 * HCl |
| Alkyne - PEG2 | SC-0063 | C7H12O3 |
| Azido - PEG1 | SC-0062 | C4H9N3O2 |
| Biotin-PEG8-Alkyne | SC-8617 | C29H51N3O10S |
| Biotin-PEG4-Alkyne | SC-8616 | C21H35N3O6S |
| Biotin-PEG3-Alkyne | SC-8615 | C19H31N3O5S |
| Alkyne - PEG2 - TCA | SC-0067 | C9H12Cl3NO3 |
| Alkyne - PEG2 - CM | SC-0065 | C8H13ClO3 |
| Alkyne - PEG2 | SC-0063 | C7H12O3 |
| TAMRA-PEG7-N3 | SC-8714 | C41H54N6O11 |
| TAMRA-PEG3-N3 | SC-8713 | C33H38N6O7 |
| TAMRA-PEG2-N3 | SC-8712 | C31H34N6O6 |
| Biotin-PEG7-N3 | SC-8614 | C26H48N6O9S |
| Biotin-PEG3-N3 | SC-8613 | C18H32N6O5S |
| Biotin-PEG3-CoenzymeA | SC-8618 | C46H75N12O24P3S2+3NH3 |
| Bis-Cyano-PEG9 | SC-8932 | C22H40N2O9 |
| Bis-Cyano-PEG5 | SC-8931 | C14H24N2O5 |
| Bis-Cyano-PEG4 | SC-8930 | C12H20N2O4 |
| N3-PEG8-t-butyl ester | SC-8923 | C23H45N3O10 |
| N3-PEG5-t-butyl ester | SC-8922 | C17H33N3O7 |
| N3-PEG4-t-butyl ester | SC-8921 | C15H29N3O6 |
| N3-PEG3-t-butyl ester | SC-8920 | C13H25N3O5 |
| Boc-N-Amido-PEG7-N3 | SC-8912 | C21H42N4O9 |
| Boc-N-Amido-PEG3-N3 | SC-8911 | C13H26N4O5 |
| Boc-N-Amido-PEG2-N3 | SC-8910 | C11H22N4O4 |
| Boc-N-Amido-PEG4-Alkyne | SC-8900 | C16H29NO6 |
| Boc-N-Amido-PEG3-Alkyne | SC-8039 | C14H25NO5 |
| Fluorescent-PEG8-Me-Tet | SC-8817 | C54H68N8O13 |
| Fluorescent-PEG4-Me-Tet | SC-8816 | C46H52N8O9 |
| Fluorescent-PEG3-Me-Tet | SC-8815 | C44H48N8O8 |
| TAMRA-PEG8-Alkyne | SC-8717 | C44H57N3O12 |
| TAMRA-PEG4-Alkyne | SC-8716 | C36H41N3O8 |
| TAMRA-PEG3-Alkyne | SC-8715 | C34H37N3O7 |
| TAMRA-PEG7-N3 | SC-8714 | C41H54N6O11 |
| TAMRA-PEG3-N3 | SC-8713 | C33H38N6O7 |
| TAMRA-PEG2-N3 | SC-8712 | C31H34N6O6 |
| TAMRA-PEG8-COOH | SC-8711 | C44H59N3O14 |
| TAMRA-PEG4-COOH | SC-8710 | C36H43N3O10 |
| TAMRA-PEG3-COOH | SC-8709 | C34H39N3O9 |
| TAMRA-PEG8-NHS | SC-8708 | C48H62N4O16 |
| TAMRA-PEG4-NHS | SC-8707 | C40H46N4O12 |
| TAMRA-PEG3-NHS | SC-8706 | C38H42N4O11 |
| TAMRA-PEG7-Maleimide | SC-8705 | C48H61N5O14 |
| TAMRA-PEG3-Maleimide | SC-8704 | C40H45N5O10 |
| TAMRA-PEG2-Maleimide | SC-8703 | C38H41N5O9 |
| TAMRA-PEG7-NH2 | SC-8702 | C41H56N4O11 |
| TAMRA-PEG3-NH2 | SC-8701 | C33H40N4O7 |
| TAMRA-PEG2-NH2 | SC-8700 | C31H36N4O6 |
| Me-Tet-PEG8-NHBoc | SC-8820 | C34H56N6O11 |
| Me-Tet-PEG4-NHBoc | SC-8819 | C26H40N6O7 |
| Me-Tet-PEG3-NHBoc | SC-8818 | C24H36N6O6 |
| Biotin-PEG8-Me-Tet | SC-8814 | C39H62N8O11S |
| Biotin-PEG4-Me-Tet | SC-8813 | C31H46N8O7S |
| Biotin-PEG3-Me-Tet | SC-8812 | C29H42N8O6S |
| Me-Tet-PEG9-COOH | SC-8811 | C32H51N5O12 |
| Me-Tet-PEG5-COOH | SC-8810 | C24H35N5O8 |
| Me-Tet-PEG4-COOH | SC-8809 | C22H31N5O7 |
| Me-Tet-PEG9-NHS | SC-8808 | C36H54N6O14 |
| Me-Tet-PEG5-NHS | SC-8807 | C28H38N6O10 |
| Me-Tet-PEG4-NHS | SC-8806 | C26H34N6O9 |
| Me-Tet-PEG8-Maleimide | SC-8805 | C36H53N7O12 |
| Me-Tet-PEG4-Maleimide | SC-8804 | C28H37N7O8 |
| Me-Tet-PEG3-Maleimide | SC-8803 | C26H33N7O7 |
| Me-Tet-PEG8-NH2 - HCl salt | SC-8802 | C29H48N6O9 + HCl |
| Me-Tet-PEG4-NH2 | SC-8801 | C21H32N6O5 |
| Me-Tet-PEG3-NH2 | SC-8800 | C19H28N6O4 |
| Biotin-PEG8-Alkyne | SC-8617 | C29H51N3O10S |
| Biotin-PEG4-Alkyne | SC-8616 | C21H35N3O6S |
| Biotin-PEG3-Alkyne | SC-8615 | C19H31N3O5S |
| Biotin-PEG7-N3 | SC-8614 | C26H48N6O9S |
| Biotin-PEG3-N3 | SC-8613 | C18H32N6O5S |
| Biotin-PEG2-N3 | SC-8612 | C16H28N6O4S |
| Biotin-PEG8-COOH | SC-8611 | C29H53N3O12S |
| Biotin-PEG4-COOH | SC-8610 | C19H33N3O7S |
| Biotin-PEG3-COOH | SC-8609 | C19H33N3O7S |
| Biotin-PEG8-NHS | SC-8608 | C33H56N4O14S |
| Biotin-PEG4-NHS | SC-8607 | C25H40N4O10S |
| Biotin-PEG3-NHS | SC-8606 | C23H36N4O9S |
| Biotin-PEG7-Maleimide | SC-8605 | C33H55N5O12S |
| Biotin-PEG3-Maleimide | SC-8604 | C25H39N5O8S |
| Biotin-PEG2-Maleimide | SC-8603 | C23H35N5O7S |
| Biotin-PEG7-NH2 | SC-8602 | C26H50N4O9S |
| Biotin-PEG3-NH2 | SC-8601 | C18H34N4O5S |
| Biotin-PEG2-NH2 | SC-8600 | C16H30N4O4S |
| TCO4-PEG8-COOH | SC-8411 | C28H51NO12 |
| TCO*-PEG8-COOH | SC-8511 | C28H51NO12 |
| TCO*-PEG4-COOH | SC-8510 | C20H35NO8 |
| TCO4-PEG4-COOH | SC-8410 | C20H35NO8 |
| TCO4-PEG3-COOH | SC-8409 | C18H31NO7 |
| TCO*-PEG3-COOH | SC-8509 | C20H31NO7 |
| TCO*-PEG8-NHS | SC-8508 | C32H54N2O14 |
| TCO4-PEG8-NHS | SC-8408 | C32H54N2O14 |
| TCO4-PEG4-NHS | SC-8407 | C24H38N2O10 |
| TCO*-PEG4-NHS | SC-8507 | C24H38N2O10 |
| TCO*-PEG3-NHS | SC-8506 | C22H34N2O9 |
| TCO4-PEG3-NHS | SC-8406 | C22H34N2O9 |
| TCO*-PEG7-Maleimide | SC-8505 | C32H53N3O12 |
| TCO*-PEG3-Maleimide | SC-8504 | C24H37N3O8 |
| TCO*-PEG2-Maleimide | SC-8503 | C22H33N3O7 |
| TCO4-PEG7-Maleimide | SC-8405 | C32H53N3O12 |
| TCO4-PEG3-Maleimide | SC-8404 | C24H37N3O8 |
| TCO4-PEG2-Maleimide | SC-8403 | C22H33N3O7 |
| TCO*-PEG2-NH2 | SC-8500 | C15H28N2O4 |
| TCO*-PEG3-NH2 | SC-8501 | C17H32N2O5 |
| TCO*-PEG7-NH2 | SC-8502 | C25H48N2O9 |
| TCO4-PEG7-NH2 | SC-8402 | C25H48N2O9 |
| TCO4-PEG3-NH2 | SC-8401 | C17H32N2O5 |
| TCO4-PEG2-NH2 | SC-8400 | C15H28N2O4 |
| SCO-PEG7-Maleimide | SC-8305 | C32H51N3O12 |
| SCO-PEG3-Maleimide | SC-8304 | C24H35N3O8 |
| SCO-PEG2-Maleimide | SC-8303 | C22H31N3O7 |
| BCN-exo-PEG7-Maleimide | SC-8205 | C34H53N3O12 |
| BCN-exo-PEG3-Maleimide | SC-8204 | C24H33N3O7 |
| BCN-exo-PEG2-Maleimide | SC-8203 | C24H33N3O7 |
| BCN-endo-PEG7-Maleimide | SC-8105 | C34H53N3O12 |
| BCN-endo-PEG3-Maleimide | SC-8104 | C24H33N3O7 |
| BCN-endo-PEG2-Maleimide | SC-8103 | C24H33N3O7 |
| BCN-exo-PEG8-COOH | SC-8211 | C30H51NO12 |
| BCN-exo-PEG4-COOH | SC-8210 | C22H35NO8 |
| BCN-exo-PEG3-COOH | SC-8209 | C20H31NO7 |
| BCN-exo-PEG8-NHS | SC-8208 | C34H54N2O14 |
| BCN-exo-PEG4-NHS | SC-8207 | C26H38N2O10 |
| BCN-exo-PEG3-NHS | SC-8206 | C24H34N2O9 |
| BCN-endo-PEG3-NHS | SC-8106 | C24H34N2O9 |
| BCN-endo-PEG4-NHS | SC-8107 | C26H38N2O10 |
| BCN-endo-PEG8-NHS | SC-8108 | C34H54N2O14 |
| BCN-endo-PEG8-COOH | SC-8111 | C30H51NO12 |
| BCN-endo-PEG4-COOH | SC-8110 | C22H35NO8 |
| BCN-endo-PEG3-COOH | SC-8109 | C20H31NO7 |
| SCO-PEG3-COOH | SC-8309 | C18H29NO7 |
| SCO-PEG4-COOH | SC-8310 | C20H33NO8 |
| SCO-PEG8-COOH | SC-8311 | C28H49NO12 |
| SCO-PEG8-NHS | SC-8308 | C32H52N2O14 |
| SCO-PEG4-NHS | SC-8307 | C24H36N2O10 |
| SCO-PEG3-NHS | SC-8306 | C22H32N2O9 |
| SCO-PEG7-NH2 | SC-8302 | C25H46N2O9 |
| SCO-PEG3-NH2 | SC-8301 | C17H30N2O5 |
| SCO-PEG2-NH2 | SC-8300 | C15H26N2O4 |
| BCN-exo-PEG2-NH2 | SC-8200 | C17H28N2O4 |
| BCN-exo-PEG3-NH2 | SC-8201 | C19H32N2O5 |
| BCN-exo-PEG7-NH2 | SC-8202 | C27H48N2O9 |
| BCN-endo-PEG7-NH2 | SC-8102 | C27H48N2O9 |
| BCN-endo-PEG3-NH2 | SC-8101 | C19H32N2O5 |
| BCN-endo-PEG2-NH2 | SC-8100 | C17H28N2O4 |
| PEG-12 | SC-1512 | C24H50O13 |
| PEG-11 | SC-1511 | C22H46O12 |
| PEG-10 | SC-1510 | C20H42O11 |
| PEG-9 | SC-1509 | C18H38O10 |
| PEG-8 | SC-1508 | C16H34O9 |
| Alkyne - PEG2 - TCA | SC-0067 | C9H12Cl3NO3 |
| Azido - PEG2 - TCA | SC-0066 | C6H9Cl3N4O2 |
| Alkyne - PEG2 - CM | SC-0065 | C8H13ClO3 |
| Azido - PEG2 - CM | SC-0064 | C5H10ClN3O |
| Alkyne - PEG2 | SC-0063 | C7H12O3 |
| Azido - PEG1 | SC-0062 | C4H9N3O2 |
| 2-Methyl-Glycerol | SC-0006 | C4H10O3 |
| 2-Stearoyl glycerol | SC-1171 | C21H42O4 |
| 2-Palmitoyl glycerol | SC-1170 | C19H38O4 |
| 2-Myristoyl glycerol | SC-1169 | C17H34O4 |
| 2-Lauroyl glycerol | SC-1168 | C15H30O4 |
| 2-Linoleoyl glycerol | SC-1167 | C21H38O4 |
| 2-Oleoyl-glycerol | SC-1162 | C21H40O4 |
| SH-6 | SC-0045 | C28H57O9P |
| SH-5 | SC-0044 | C29H59O10P |
| Ins(345)P3*3Na | 3-0-345-Na | C6H12Na3O15P3 |
| Ins(1)P*2K | 1-0-1-2K | C6H11K2O9P |
| myo-Inositol – trispyrophosphate | Pyro-Ins-Na | C6H8Na4O21P6 |
| Ins(123456)P6 | 6-0-123456-Na | C6H18O24P6 * xNa*yH2O |
| Ins(23456)P5*10Na | 5-0-23456-Na | C6H7Na10O21P5 |
| Ins(13456)P5*10Na | 5-0-13456-Na | C6H7Na10O21P5 |
| Ins(12456)P5*10Na | 5-0-12456-Na | C6H7Na10O21P5 |
| Ins(12356)P5*10Na | 5-0-12356-Na | C6H7Na10O21P5 |
| Ins(12345)P5*10Na | 5-0-12345-Na | C6H7Na10O21P5 |
| Ins(1345)P4*8Na | 4-0-1345-Na | C6H8Na8O18P4 |
| Ins(136)P3*6Na | 3-0-136-Na | C6H9Na6O15P3 |
| Ins(134)P3*6K | 3-0-134-K | C6H9K6O15P3 |
| Ins(345)P3*3K | 3-0-345-K | C6H12K3O15P3 |
| Ins(145)P3*6K | 3-0-145-K | C6H9K6O15P3 |
| Ins(145)P3*3Li | 3-0-145-Li | C6H12Li3O15P3 |
| Ins(145)P3*6Na | 3-0-145-Na | C6H9Na6O15P3 |
| Ins(135)P3*6Na | 3-0-135-6Na | C6H9Na6O15P3 |
| Ins(1245)P4*8Na | 4-0-1245-Na | C6H8Na8O18P4 |
| INO-4995 | INO-4995 | C50H86O35P4 |
| Bt3-Ins(356)P3 / PM | 3-2-356 | C42H69O30P3 |
| Bt3-Ins(346)P3 / PM | 3-2-346 | C42H69O30P3 |
| Bt3-Ins(146)P3 / PM | 3-2-146 | C42H69O30P3 |
| Bt3-Ins(135)P3 / PM | 3-2-135 | C42H69O30P3 |
| caged-Ins(145)P3 / PM | cag-iso-2-145-10 | C42H64NO31P3 |
| caged-Ins(145)P3 / PM | cag-iso-2-145-100 | C42H64NO31P3 |
| Bt2-Ins(3456)P4 / PM | 4-2-3456 | C46H76O36P4 |
| Bt2-Ins(1456)P4 / PM | 4-2-1456 | C46H76O36P4 |
| Bt2-Ins(1345)P4 / PM | 4-2-1345 | C46H76O36P4 |
| Bt2-Ins(1356)P4 / AM | 4-1-1356 | C38H60O36P4 |
| Bt3-Ins(356)P3 / AM | 3-1-356 | C36H57O30P3 |
| Bt3-Ins(346)P3 / AM | 3-1-346 | C36H57O30P3 |
| Bt3-Ins(146)P3 / AM | 3-1-146 | C36H57O30P3 |
| Bt3-Ins(134)P3 / AM | 3-1-134 | C36H57O30P3 |
| Bt3-Ins(136)P3 / AM | 3-1-136 | C36H57O30P3 |
| Bt3-Ins(135)P3 / AM | 3-1-135 | C36H57O30P3 |
| Bt3-Ins(145)P3 / AM | 3-1-145 | C36H57O30P3 |
| caged-Ins(145)P3 / PM | cag-iso-2-145-10 | C42H64NO31P3 |
| caged-Ins(145)P3 / PM | cag-iso-2-145-100 | C42H64NO31P3 |
| caged-Ins(145)P3O6 | cag-6-145 | C15H18NO19P3Na6 |
| caged-Ins(145)P3 P4 | cag-0-145 | C14H19NO17P3Na3 |
| PtdIns(345)P3 | Ptd-0-345-16 | C41H82O22P4 |
| PtdIns(45)P2 | Ptd-0-45-16 | C41H81O19P3 |
| PtdIns(34)P2 | Ptd-0-34-16 | C41H81O19P3 |
| PtdIns(5)P | Ptd-0-5-16 | C41H80O16P2 |
| PtdIns(4)P | Ptd-0-4-16 | C41H80O16P2 |
| PtdIns(3)P | Ptd-0-3-16 | C41H80O16P2 |
| PtdIns(1)P | Ptd-0-1-16 | C41H79O13P |
| D-myo-Inositol-1,2-O-cyclohexylidene | SC-0088 | C12H20O6 |
| 23:45- diisopropylidene-myo-Inositol | SC-0079 | C12H20O6 |
| 12:56- diisopropylidene-myo-Inositol | SC-0078 | C12H20O6 |
| D-myo-Inositol-2,3-O-cyclohexylidene | SC-0077 | C12H20O6 |
| 1,4-Di-butyryl-23:56-diisopropylidene-myo-Inositol | SC-0076 | C20H32O8 |
| 3,6-Di-butyryl-12:45-diisopropylidene-myo-Inositol | SC-0075 | C20H32O8 |
| 2,3:4,5-Di-O-Iso-1,6-Di-O-Benzyl-Ins | IOB-Ins-2345 | C26H32O6 |
| 1,2:5,6-Di-O-Iso-3,4-Di-O-Benzyl-Ins | IOB-Ins-1256 | C26H32O6 |
| 3,4,5,6-Tetra-O-Benzyl-Ins | TOB-Ins-3456 | C34H36O6 |
| 1,4,5,6-Tetra-O-Benzyl-Ins | TOB-Ins-1456 | C34H36O6 |
| DEAC-dUTP | SC-9002 | C26H31N4O17P3 |
| 35-PAPS-TEA | SC-9000-TEA | C10H15N5O13P2S x 4 C6 H15 N |
| ACPPS-TEA | SC-0068 | C10H13N5O12P2S + C6H5N |
| 25-PAPS-Li | SC-9001-Li | C10H11Li4N5O13P2S |
| 35-PAPS-Li (CAS: 102029-54-9) | SC-9000-Li | C10H11Li4N5O13P2S |
| EdU | SC-0040 | C11H12N2O5 |
| EdUTP-TEA | SC-0039 | C11H15N2O14P3 * 4(C6H15N) |
| EdUTP | SC-0038 | C11H15N2O14P3 |
| 2'-PAP | SC-0037 | C10H17N5O10P2 |
| 2'-PAP-Na | SC-0036 | C10H15N5Na2O10P2 |
| 3'-PAP-Na | SC-0034 | C10H15N5Na2O10P2 |
| 3'-PAP | SC-0035 | C10H17N5O10P2 |
| Vancomycin hexapeptide | SC-1606 | C59H62Cl2N8O23 |
| Didechloro Vancomycin | SC-1605 | C66H77N9O24 |
| Vancomycin Impurity A | SC-1601 | C65H73Cl2N9O24 |
| Vancomycin Impurity D | SC-1604 | C59H62Cl2N8O22 |
| Vancomycin Impurity C | SC-1603 | C53H52Cl2N8O17 |
| Vancomycin Impurity B | SC-1602 | C66H74Cl2N8O25 |
| INO-4995 | INO-4995 | C50H86O35P4 |
| Fidaxomicin - d7 | SC-1157 | C52H67D7Cl2O18 |
| Podophyllotoxin Derivate | SC-0025 | C21H20O8 |
| Podophyllotoxin Derivate | SC-0026 | C21H21NO7 |
| Clopidogrel Impurity 4 | SC-0099 | C16H16ClNO2S * H2SO4 |
| Gestodene Impurity E | SC-0028 | C21H24O3 |
| Fidaxomicin Metabolite OP-1118 | SC-1158 | C48H68Cl2O17 |
| Prasugrel metabolite M6-d3 (stabilzed) | SC-0093 | C27H25D3FNO5S * HCl |
| Prasugrel metabolite M6 | SC-0092 | C19H22FNO3S |
| Clopidogrel Impurity C | SC-0087 | C16H18ClNO2S |
| Clopidogrel Impurity 3 | SC-0086 | C15H17Cl2NO2S |
| Prasugrel active metabolite M3-d3 (stabilzed) | SC-0033 | C27H25D3FNO5S * HCl |
| Prasugrel active metabolite M3 HCl (stabilized) | SC-0029 | C27H28FNO5S * HCl |
| Fidaxomicin - d7 | SC-1157 | C52H67D7Cl2O18 |
| Methyl 4-(2-hydroxyethyl)benzoate-13C6,2D (Ring-13C6,Ethyl-1,2-D2) | SC-0080 | C4 13C6 H10 D2 O3 |
| Anthracene 13C6 | SC-0074 | 13C6C8H8 |
| Phenanthrene 13C6 | SC-0073 | 13C6C8H8 |
| Naphthalene 13C10 | SC-0072 | 13C10H8 |
| Naphthalene 13C6 | SC-0071 | 13C6C4H8 |
| Prasugrel active metabolite M3-d3 (stabilzed) | SC-0033 | C27H25D3FNO5S * HCl |
| 2-Cyanoethyl N,N-diisopropylchlorophosphoramidite | SC-0091 | C9H18ClN2OP |
| Phosphoramidous acid. N.N-bis(1-methylethyl)-. bis(2-cyanoethyl) ester | SC-0061 | C12H22N3O2P |
| Phosphoramidous acid, N,N-bis(1-methylethyl)-, bis(phenylmethyl) ester | SC-1165 | C20 H28 N O2 P |
| Phosphorodiamidous acid. N.N.N'.N'-tetrakis(1-methylethyl)-. phenylmethyl ester | SC-0060 | C19 H35 N2 O P |
| Phosphoramidous acid. N.N-bis(1-methylethyl)-. 2-cyanoethyl [1-(2-nitrophenyl)ethyl] ester) | SC-0059 | C17 H26 N3 O4 P |
| Dichloro N,N-Diisopropylphosphoramidite | SC-0058 | C6 H14 Cl2 N P |
| Phosphoramidous acid. N.N-bis(1-methylethyl)-. bis(9H-fluoren-9-ylmethyl) ester | SC-0057 | C34 H36 N O2 P |
| Di-tert-butyl chloromethyl phosphate | SC-0011 | C9H20ClO4P |
| Di-benzyl chloromethyl phosphate | SC-0010 | C15H16ClO4P |
| TMe-OHB-DAZA | SC-0300 | C29H37N3O6 |
| TEt-OHB-DAZA | SC-0301 | C32H43N3O6 |
| NEmo2E | SC-0201 | C96H138KN18O30S |
| NEmo1 | SC-0200 | C96H138KN18O30S |
| D-Serine-O-phosphate | SC-1810 | C3H8NO6P |
| Ph-CCA-NH2 | SC-1400 | C16H12N2O |
| Menaquinone 8 / MK 8:8 | SC-1230 | C51H72O2 |
| Allyl-Maleimide | SC-1121 | C7H7NO2 |
| Nor-cisapride Derivative | SC-1161 | C17H25Cl2N3O3 |
| AlK - L - Lysine - HCl-salt | SC-8012 | C10H18N2O4* HCl |
| 4-methyl-2,2-bis(trifluoromethyl)oxazolidin-5-one | SC-0098 | C6H5F6NO2 |
| 3-(5-oxo-2,2-bis(trifluoromethyl)oxazolidin-4-yl)propanoic acid | SC-0097 | C8H7F6NO4 |
| 7-(diethylamino)-4-(hydroxymethyl)-coumarin / DEACM | SC-0096 | C14H17NO3 |
| 3-bromo-4-methyl-7-(diethylamino)-coumarin | SC-0095 | C14H16BrNO2 |
| Xanthohumol | SC-0094 | C21H22O5 |
| IEPOX 4 | SC-0090 | C5H10O3 |
| IEPOX 3 | SC-0089 | C5H10O3 |
| 2-C-Methyl-L-Threitol | SC-0085 | C5H12O4 |
| 2-C-Methyl-D-Threitol | SC-0084 | C5H12O4 |
| 2-C-Methyl-L-Erythritol | SC-0083 | C5H12O4 |
| 2-C-Methyl-D-Erythritol | SC-0082 | C5H12O4 |
| 3-Amino-7-(diethylamino)-coumarine | SC-0081 | C13 H16 N2 O2 |
| Chloromethylpropionate | SC-1164 | C4H7ClO2 |
| 2-(2-fluoro-2-methylpropoxy)-2-methylpropan-1-ol | SC-1163 | C8H17FO2 |
| 1,4-Di-butyryl-23:56-diisopropylidene-myo-Inositol | SC-0076 | C20H32O8 |
| 3,6-Di-butyryl-12:45-diisopropylidene-myo-Inositol | SC-0075 | C20H32O8 |
| Y-27632 | SC-0048 | C14H21N3O *2HCl |
| H-1152 | SC-0053 | C16H21N3O2S*2HCl |
| 3,4,5,6-Tetra-O-Benzyl-Ins | TOB-Ins-3456 | C34H36O6 |
| 1,4,5,6-Tetra-O-Benzyl-Ins | TOB-Ins-1456 | C34H36O6 |
| Biotin-PEG3-CoenzymeA | SC-8618 | C46H75N12O24P3S2+3NH3 |
| TMe-OHB-DAZA | SC-0300 | C29H37N3O6 |
| TEt-OHB-DAZA | SC-0301 | C32H43N3O6 |
| SCO-NHS carbonate | SC-8076 | C13H15NO5 |
| endo-BCN-NHS carbonate | SC-8074 | C15H17NO5 |
| TCO4 - NHS carbonate / EQUATORIAL isomer | SC-8073 | C13H17NO5 |
| TCO4 - NHS carbonate / AXIAL isomer | SC-8072 | C13H17NO5 |
| TCO* - NHS carbonate / EQUATORIAL isomer | SC-8071 | C13H17NO5 |
| TCO* - NHS carbonate / AXIAL isomer | SC-8070 | C13H17NO5 |
| NEmo2E | SC-0201 | C96H138KN18O30S |
| NEmo1 | SC-0200 | C96H138KN18O30S |
| bifunctional Cross-Linking-Amino-Acid / PrDiAzK | SC-8028 | C13H20N4O5 |
| Vancomycin hexapeptide | SC-1606 | C59H62Cl2N8O23 |
| Ph-CCA-NH2 | SC-1400 | C16H12N2O |
| Cross-Linking-Amino-Acid / DiAzK | SC-8034 | C11H20N4O4 |
| PEG-9 | SC-1509 | C18H38O10 |
| PEG-8 | SC-1508 | C16H34O9 |
| Click Amino Acid / cyclopropene – L - Lysine (CP) | SC-8017 | C12H20N2O4 |

艾美捷科技代理Ludger品牌。
Ludger成立于1999年,位于英国牛津,是一家专注于糖科学(Glycoscience)和生物制药分析的公司,致力于为生物制药行业提供高质量的糖分析产品和服务。Ludger公司主要业务包括:
(1)糖分析产品:提供多种用于糖蛋白、糖脂和聚糖分析的标准品、试剂盒和仪器。
(2)分析服务:提供全面的糖分析服务,包括糖基化分析、糖结构鉴定和定量分析。
(3)定制化解决方案:根据客户需求,提供定制化的糖分析方案和研究服务。
Ludger公司产品线包括糖标准品、糖分析试剂盒、糖芯片、糖分析软件等;其采用先进的质谱技术、液相色谱技术和糖芯片技术,确保分析结果的高灵敏度和高准确性。Ludger公司产品应用范围包括:生物制药,涵盖单克隆抗体、融合蛋白、疫苗等生物制药产品的开发和质控;生物医学研究,支持糖生物学、糖免疫学、糖组学等研究领域;临床诊断,用于糖生物标志物的开发和临床应用,助力疾病早期诊断和个性化治疗。
<<<<<< " data-original="http://antylia.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="艾美捷科技代理Ludger品牌"> 艾美捷科技代理Ludger品牌
艾美捷科技代理MACHEREY-NAGEL品牌。
德国MN(Macherey-Nagel)(简称MN)成立于1911年是一家历史悠久的全球知名企业,专注于实验室耗材、快速检测产品及分析技术的研发与生产。从1993年起,MN公司成功研发了各种核酸分子分离和蛋白纯化的试剂盒和耗材,包括质粒抽提、PCR产物纯化和胶回收、RNA纯化、基因组DNA抽提、病毒核酸纯化试剂盒,以及His/GST标签蛋白纯化柱等。其产品以高品质、创新性和可靠性著称,广泛应用于环境监测、食品检测、医疗诊断、制药及科研领域。
MN品牌以多样化的产品线和创新技术满足不同领域需求:
● 实验室耗材:
滤纸、色谱柱、固相萃取柱(SPE)、微孔滤膜等。
特色:高纯度材料、精准分离性能,适用于复杂样品前处理。
● 快速检测产品:
试纸、试剂盒(如水质检测盒、食品安全检测盒)。
优势:操作简便、快速出结果,适用于现场检测。
● 诊断与医疗产品:
血液检测试纸、尿液分析试纸等,被医院和实验室广泛采用。
● 环境监测解决方案:
针对水质、空气污染等开发的高灵敏度检测工具。
更多详情请咨询→

全国免费热线:400-6800-868
直拨专线:132-6921-9473
客服QQ一:17754422825;
客服QQ二:18771149750
" data-original="http://antylia.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="艾美捷科技代理MACHEREY-NAGEL(德国MN)品牌"> 艾美捷科技代理MACHEREY-NAGEL(德国MN)品牌

艾美捷科技代理法国Solabia品牌酵母粉和蛋白胨。
Solabia Group 是一家法国生物技术公司,专注于开发和生产天然活性成分、功能性原料和生物技术产品。其产品广泛应用于化妆品、营养保健品、制药和生物技术领域。Solabia 的酵母粉和蛋白胨是其在生物技术领域的重要产品,主要用于微生物培养、发酵工艺和科学研究。Solabia提供多种类蛋白胨和酵母粉,包括:大豆蛋白胨、胰蛋白胨、酸水解酪蛋白、酵母粉、小麦/蚕豆/羽扇豆/土豆/豌豆蛋白胨等。
< " data-original="http://antylia.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="艾美捷科技代理法国Solabia品牌酵母粉和蛋白胨"> 艾美捷科技代理法国Solabia品牌酵母粉和蛋白胨

VMRD公司位于美国华盛顿, 多年来一直致力于提供兽医学研究相关试剂和服务。公司业务领域包括: 诊断试剂盒, 荧光试剂盒, 抗体, 免疫试剂盒, 免疫检测服务。为客户提供高质量、高效率的产品和服务是VMRD一贯的宗旨。公司将不断开发兽医学产品,为世界健康服务。
VMRD was founded in 1981 by D. Scott Adams, DVM, PhD, and currently employs over 50 researchers, lab technicians and support personnel. From its site in Pullman, Washington VMRD develops and manufactures veterinary diagnostic test kits and related reagents for distribution in more than 77 countries. As a rapidly growing company, VMRD strives to preserve its family focused culture and core values of integrity and quality.
VMRD的主要产品包括:
Test Kits
Reagents
Antibodies
Coombs
Fluorescence
<更多详情请联系
艾美捷科技有限公司
全国服务热线:400-6800-868
邮箱:sales@amyjet.com
网站:www.amyjet.com
" data-original="http://antylia.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="VMRD"> VMRD
艾美捷科技代理代理MYOCEA品牌产品。
MYOCEA是一家专注于肌肉生物学和细胞培养技术的公司,致力于为科研和工业应用提供创新的肌肉细胞模型和相关产品。MYOCEA 以其独特的MyoCells™技术平台而闻名,该平台能够生成高度功能化的肌肉细胞,广泛应用于药物开发、毒理学测试、食品科学和再生医学等领域。MyoCells™技术平台能够生成与体内肌肉细胞高度相似的体外模型,为研究肌肉生物学和相关疾病提供了强大的工具。MYOCEA主要产品和技术包括:
(1)MyoCells™ 平台
MyoCells™ 肌肉细胞,高度功能化的肌肉细胞,具有与体内肌肉相似的生理特性。
MyoCells™ 培养基,专为肌肉细胞优化,支持细胞生长和功能维持。
MyoCells™ 试剂盒,包含细胞、培养基和实验指南,方便用户快速开展实验。
(2)药物开发工具
肌肉毒性测试,用于评估药物对肌肉细胞的毒性。
肌肉功能分析,提供高灵敏度的收缩性和代谢活性检测工具。
个性化药物筛选,基于患者来源的肌肉细胞模型,支持个性化医疗研究。
(3)食品科学应用
细胞培养肉研究,提供高质量的肌肉细胞,用于细胞培养肉开发。
食品添加剂测试,用于评估食品添加剂对肌肉细胞的影响。
(4)再生医学工具
肌肉再生研究,提供肌肉细胞模型,用于研究肌肉再生和修复机制。
组织工程,支持肌肉组织工程和生物材料开发。
(5)定制服务
定制肌肉细胞模型,根据客户需求开发特定的肌肉细胞模型。
合同研究服务(CRO),提供从实验设计到数据分析的全流程服务。
<艾美捷科技代理Separopore品牌全系列产品
Separopore是美国生物技术公司bioWORLD旗下的核心色谱品牌,Separopore专攻多孔琼脂糖微球色谱介质,主打 "高分辨率分离纯化" 技术,覆盖亲和色谱、离子交换、分子筛等应用场景。产品广泛应用于单克隆抗体/重组蛋白纯化、病毒载体(AAV, 慢病毒)捕获,疫苗抗原精制以及核酸/酶工程等领域。

▍Separopore产品线
| 类型 | 应用场景 | 代表产品 |
| 亲和色谱介质 | 抗体/融合蛋白纯化 | Separopore® Protein A/G |
| 金属螯合介质 | 组氨酸标签蛋白捕获 | Separopore® Ni-NTA |
| 离子交换介质 | 核酸/酶纯化 | Q/S SP/CM 系列 |
| 疏水层析介质 | 膜蛋白/病毒纯化 | Phenyl/Octyl 系列 |
| 分子筛介质 | 脱盐/缓冲液置换 | Separopore® SEC Beads |
Separopore的材料特征:
①基质成分:交联 4% 或 6% 琼脂糖(agarose),形成刚性多孔珠状结构
②物理优势:高孔隙率 & 均一粒径(45-165 μm 可选);耐压性强(可承受 >0.3 MPa 操作压力);低非特异性吸附
③表面修饰:可定制化偶联 Protein A/G、镍离子、抗体、凝集素 等配体
▍Separopore部分产品列表
| 品名 | 规格 | 货号 |
| AMP Separopore® 4B-CL | 1 g;3 g | 20181079 |
| Anti-DYKDDDDK (FLAG) Red Separopore® 4B Microbeads viewIP™ | 1 mL | 20181114 |
| Goat Anti-Human IgG Separopore® 4B-CL | 5 mL | 20181134 |
| L-Lysine Separopore® 4B-CL | 5 mL;10 mL;25 mL | 20181070 |
| L-Methionine Separopore® 6B-CL | 10 mL;25 mL | 20181160 |
| L-Phenylalanine Separopore® 4B-CL | 5 mL;10 mL;25 mL | 20181071 |
| L-Proline Separopore® 6B-CL | 10 mL;25 mL | 20181161 |
| L-Serine Separopore® 6B-CL | 10 mL;25 mL | 20181162 |
| L-Threonine Separopore® 6B-CL | 10 mL;25 mL | 20181163 |
| L-Valine Separopore® 6B-CL | 10 mL;25 mL | 20181164 |
| Lens culinaris Lectin (LCA/LCH) - Separopore® 4B OnePASS™ Column | 3.25 mL;8 mL | 30330004-1 |
| Lycopersicon esculentum Lectin (LEL/LEA) - Separopore® 4B OnePASS™ Column | 3.25 mL;6 mL | 30330005-1 |
| Maackia amurensis Lectin (MAA/MAL I) - Separopore® 4B OnePASS™ Column | 3 mL | 20120088-1 |
| Maclura pomifera Lectin (MPL/MPA) - Separopore® 4B OnePASS™ Column | 3 mL | 21511124-1 |
| MagneZoom™ (Paramagnetic Beads) Control | 1 mL;2 mL | 20162011-2 |
| Maltose Separopore® 4B (Epoxy-Coupled) | 10 mL;25 mL;50 mL;100 mL | 20181175 |
| Mannose Separopore® 4B-CL (Divinyl Sulfone-Coupled) | 10 mL;25 mL;50 mL;100 mL | 20181019 |
| Mannose Separopore® 4B-CL (Epoxy-Coupled) | 10 mL;25 mL;50 mL;100 mL | 20111005 |
| Melibiose Separopore® 4B (Divinyl Sulfone-Coupled) | 10 mL;25 mL | 20181178 |
| Melibiose Separopore® 4B (Epoxy-Coupled) | 10 mL;25 mL | 20181148-1 |
| N-Acetyl-D-Galactosamine Separopore® 4B-CL | 2 mL;5 mL;10 mL | 20181021 |
| N-Acetyl-D-Glucosamine (GlcNAc) Separopore® 4B-CL | 2 mL;5 mL;10 mL | 20181022 |
| NAADP Separopore® 4B-CL | 2 g | 20181122 |
| NAADP Separopore® 4B-CL (Carboxyl-Linked) | 2 g | 20181123 |
| Nickel Red Separopore® 4B Microbeads viewIP™ | 1 mL | 20181117 |
| Phaseolus vulgaris Lectin (PHA-E) - Separopore® 4B OnePASS™ Column | 3.25 mL;6 mL | 30330023-1 |
| Phaseolus vulgaris Lectin (PHA-E+L) - Separopore® 4B OnePASS™ Column | 3.25 mL;6 mL | 30330027-1 |
| Phaseolus vulgaris Lectin (PHA-L) - Separopore® 4B OnePASS™ Column | 3.25 mL;6 mL | 30330036-1 |
| Pisum sativum Lectin (PSA/PSL) - Separopore® 4B OnePASS™ Column | 3 mL | 21511137-1 |
<艾美捷科技代理Trialtusbioscience品牌全系列产品
TriAltus Bioscience是一个致力于为推动人类健康前沿的科学家服务的品牌。当今的创新者在推进基因疗法、工程诊断、早期疾病检测以及药物发现等领域,都需要高纯度、高性能且随时可以扩展的酶,TriAltus正是为此而存在。TriAltus的核心是其专有的CLiM™(CL7/Im7)纯化平台,是一种基于亲和标签的突破性系统,能在单个色谱步骤中提供具有卓越纯度、活性和一致性的酶,重新定义了重组蛋白纯化的可能性。 使用CLiM™生产的每种酶都以严格的质量控制、批次间一致性和详细的分析证书(COA)为后盾,旨在满足监管机构要求的质量和文档标准,支持从发现到扩大规模的更平稳过渡。TriAltus Bioscience公司的产品包括:基因组酶、蛋白酶和其他酶。

▍Trialtusbioscience产品线
● 基因组酶:TriAltus的重组基因组酶不含标签,并使用专有的CLiM™亲和标签系统进行纯化,提供目录酶的定制缩放和配方,以满足特定研究需求,无论需要更高的浓度、独特的缓冲条件还是批量生产,都可以根据具体规格定制酶。
| 货号 | 品名 | 规格 | 产品描述 |
| 40-1212 | AapCas12b Protein | 20 μg | expressed in E. coli and features two C-terminal nuclear localization signals,enables the inactive nuclease to be guided to the specific double stranded DNA site. |
| 40-1220 | AapCas12b Protein | 100 μg | |
| 40-1225 | AapCas12b Protein | 500 μg | |
| 40-1320 | CRISPR-Cas9 Protein | 100 μg | used for genome editing with CRISPR technology. Recombinant Streptococcus pyogenes Cas9 ,expressed in Escherichia coli and features two nuclear localization signals |
| 40-1325 | CRISPR-Cas9 Protein | 500 μg | |
| 40-2414 | Phi29 DNA Polymerase | 3,000 Units | a highly processive, isothermal enzyme from Bacillus subtilis phage phi29 ,with a robust 3'→5' proofreading exonuclease function. |
| 40-2420 | Phi29 DNA Polymerase | 10,000 Units | |
| 40-2125 | TAT-CRE Recombinase | 500 μg | used for site-specific DNA recombination in mammalian cells,a fusion protein combining a nuclear localization sequence, HIV-TAT cell permeabilization peptide, and Cre recombinase. |
| 40-2130 | TAT-CRE Recombinase | 1 mg | |
| 40-2135 | TAT-CRE Recombinase | 5 mg |
● 蛋白酶和其他酶:例如为冷冻电镜生成蛋白质的实验室提供SUMO蛋白酶,去除相关标签后蛋白质可进行分析,反应高效、稳健,无需优化,客户对酶的性能和优质客户服务感到满意。
| 货号 | 品名 | 规格 | 产品描述 |
| 30-2130 | PreScission Protease | 1 mg | recognizes and cleaves the sequence LEVLFQ/GP to release the target protein from the Im7-bound CL7 tag |
| 30-2135 | PreScission Protease | 5 mg | |
| 30-2140 | PreScission Protease | 10 mg | |
| 30-2146 | PreScission Protease | 50 mg | |
| 30-2150 | PreScission Protease | 100 mg | |
| 30-1130 | SUMO Protease | 1 mg | releases target proteins from TriAltus’s Im7 resin,recognizes SUMO tertiary structure – not a specific amino acid sequence – to cleave and release the target protein from the Im7-bound CL7 tag. |
| 30-1135 | SUMO Protease | 5 mg | |
| 30-1140 | SUMO Protease | 10 mg | |
| 30-1146 | SUMO Protease | 50 mg | |
| 30-1150 | SUMO Protease | 100 mg |

Genovis开发出一系列独特的智能酶(SmartEnzymes),包括IgG 蛋白酶 (IgG Proteases,可以对IgG进行精确位置酶切)、IgG糖苷酶 (IgG Glycosidases,特异性地水解抗体Fc段上的糖链)、蛋白酶 (Protease,特异酶切蛋白C末端的精氨酸)、抗体偶联试剂盒 (Conjugation Kit,将偶联物精确地偶联在抗体Fc段特定位点,偶联后抗体不影响其生物学功能,目前可以提供Alexa Fluor®488、Biotin、DFO、反应性叠氮基4种标签)和聚糖特异性内切蛋白酶 (Enzymes for O-glycans,可以对糖蛋白进行聚糖特异性酶切)。
Genovis的产品包括:
(1)IgG Proteases
FababRICATOR® (IdeS protease)
FragIT (Immobilized FabRICATOR)
FabRICATOR®Z (IdeZ)
FabULOUS® (SpeB)
GingisKHAN® (KGP)
FabALACTICA™ (cysteine protease)
(2)IgG Glycosidases
IgGZERO® (EndoS)
GlycINATOR® (EndoS2)
GingisREX™ (Rgp)
(3)Proteases
GingisREX® (Arginine Specific Protease)
(4)Conjugation
GlyCLICK
(5)O-glycan
OpeRATOR™
OglyZOR™
SialEXO™
<更多详情请联系
艾美捷科技有限公司
全国服务热线:400-6800-868
邮箱:sales@amyjet.com
网站:www.amyjet.com
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艾美捷科技代理Arctizymes Technologies品牌酶制剂。
Arctizymes Technologies 是一家专注于酶技术和生物催化的公司,致力于为制药、化工、食品和环境保护等领域提供高效的酶解决方案。Arctizymes Technologies公司提供多种用于不同工业应用的酶制剂,包括水解酶、氧化还原酶、转移酶等;并根据客户需求,提供定制化的酶开发和优化服务。Arctizymes Technologies公司酶制剂应用领域包括:
(1)制药,广泛应用于药物合成、手性化合物制备等;
(2)化工,用于绿色化学工艺,减少环境污染;
(3)食品,用于食品加工、保鲜和品质改良;
(4)环境保护:用于废水处理、生物降解等环保应用。
<<<< " data-original="http://antylia.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="艾美捷科技代理Arctizymes Technologies品牌酶制剂"> 艾美捷科技代理Arctizymes Technologies品牌酶制剂地址:武汉市洪山区光谷大道35号光谷总部国际时代 二期1栋1301
电话:18327026838
传真:18771149750
邮箱:sales@amyjet.com
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