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:13212737804
传真:18771149750
邮箱:sales@amyjet.com

艾美捷科技代理NanoLight Technology品牌。
NanoLight Technology公司致力于开发天然发光海洋蛋白(海洋生物发光)的应用。NanoLight® 技术的生命科学应用包括:高通量药物发现、功能基因组学、肿瘤成像、放射性同位素替代、光遗传学、分子诊断等。自2012年以来,NanoLight Technology公司主要提供无毒、水溶性的生物发光底物,用于体内成像领域,以监测小鼠模型中的肿瘤生长。另一个非常新的应用是光遗传学领域,它为神经科学家提供了使用生物发光控制神经元的惊人能力。NanoLight Technology公司研究团队不断扩大产品组合。Prolume Purple(美国专利 9,624,425),是一种新型底物,其性能优于广泛用于研究蛋白质-蛋白质相互作用的 DeepBlueC™。除了基本的生物发光化合物外,NanoLight 还将这些底物整合到复杂的缓冲系统中,适用于具有不同动力学特性的各种荧光素酶,为研究人员提供便利,并为制药公司的自动化高通量筛选提供可靠的批次控制试剂。NanoLight 也是开发分子靶标传感工具的领导者。NanoLight 提供迄今为止已知的两种最亮荧光素酶——高斯荧光素酶(GLuc-SA)和 Oplophorous 荧光素酶(NLuc-SA)的链霉亲和素偶联物,便于检测生物素化分子(如 DNA、RNA、肽、蛋白质)。

艾美捷科技代理ALZET品牌渗透泵产品。
MiTeGen是一家专注于为结构生物学研究提供高质量工具和设备的公司,其产品广泛应用于结构生物学、药物开发、蛋白质工程、材料科学等领域。MiTeGen公司以其创新的样品制备技术和高通量结晶工具闻名。
ALZET是一家专注于研发和生产渗透泵技术的公司,其产品主要用于实验室动物研究中的药物输送和实验试剂释放。ALZET品牌由DURECT Corporation所有,总部位于美国加利福尼亚州。ALZET渗透泵以其精确、持续和可控的药物释放能力,可用于多种动物模型和研究领域,如药理学、毒理学、神经科学等。ALZET的核心产品是渗透泵,这是一种小型植入式设备,能够在预定的时间内以恒定速率释放药物或实验试剂。ALZET渗透泵因其独特的技术优势和广泛的应用场景,已成为实验室研究中不可或缺的工具,尤其在需要精确控制药物释放的研究中表现突出。以下是ALZET的主要产品系列:
(1)ALZET Osmotic Pumps用于小鼠、大鼠和其他实验动物的持续药物输送。
其特点是:
a. 以恒定速率释放药物,避免血药浓度波动。
b. 提供不同容量(如100 µL、200 µL、2 mL等)和释放速率(如0.11 µL/小时至10 µL/小时)。
c. 支持从1天到6周的持续释放。
(2)ALZET Brain Infusion Kits,专为脑部药物输送设计,适用于中枢神经系统研究。
其特点是:
a. 精准输送药物至特定脑区。
b. 兼容ALZET渗透泵,实现持续释放。
(3)ALZET Catheters,用于血管内或腹腔内药物输送。
其特点是:
灵活设计,适用于多种实验需求。
与ALZET渗透泵无缝连接。
(4)ALZET Accessories,包括填充管、植入工具等辅助设备,简化实验操作。
<艾美捷科技代理Box scientific品牌全系列产品
BOX Scientific是一家专注于生命科学领域基于对流的解冻平台的生产商。自2010年在加利福尼亚圣何塞成立以来,BOX Scientific始终致力于程序化样品解冻技术,旨在保持样品完整性、控制过程变异性,并提高临床应用中的数据质量。公司由资深人士Derek Donohue领导,他在制药和基因组诊断领域拥有丰富经验。BOX Scientific的产品以其多功能性、大容量和高速解冻能力,树立了快速、安全和可重复的样品解冻新标准。公司产品包括工位一架解冻站(Station One)、直升机场机架解冻站(Heliport)。

▍BOX Scientific公司产品线
●工位一架解冻站(Station One)
仅使用环境空气即可在极短的时间内解冻冷冻试剂和样品。固定平台设计,实现高通量样品解冻,满足精细样品和试剂的解冻需求。样品和试剂的解冻过程可重复、可程序化,且安全可靠。应用场景:
※适用于需要快速解冻且保持样品完整性的实验室环境。
※特别适用于临床研究和生物样本库管理,确保样品在解冻过程中的稳定性和一致性。
● 直升机场机架解冻站(Heliport)
采用与Station One相同的对流原理,是市场上最大的样品解冻系统。具备自动化集成功能,是首款实现自动化集成的解冻系统。强大的对流系统能将解冻时间缩短多达75%,同时允许解冻后的样品直接无缝过渡到后续自动化流程中。应用场景:
※适用于大规模样品解冻需求,如生物样本库、临床研究机构等。
※特别适用于需要高度自动化和高效解冻的实验室环境,提升整体工作流程的效率和准确性。
▍Box scientific产品列表
<| 货号 | 品名 |
| 1-300-0725 | Station One Rack Thawing Station |
| 1-300-70000 | The Heliport Thawing Station |

艾美捷科技代理Rigaku Reagents品牌。
Rigaku Reagents 是 Rigaku 集团旗下的一家子公司,专注于为X射线晶体学领域提供高质量的化学试剂和工具。Rigaku 集团是全球知名的科学仪器制造商,尤其在X射线分析技术领域具有领先地位。Rigaku Reagents 的主要目标是支持科学家在蛋白质晶体学、材料科学和其他相关领域的研究,提供用于晶体生长、样品制备和分析的高质量试剂和耗材。热门产品包括:Wizard Classic/Wizard Cryo 系列蛋白结晶筛选试剂盒,结晶板,结晶工具,和 PEG3350、PEG6000、PEG8000 等试剂。主要产品类别为:
(1)晶体生长试剂:Rigaku Reagents 提供多种用于蛋白质和小分子晶体生长的试剂,包括结晶筛选试剂盒、缓冲液、沉淀剂和添加剂。这些试剂经过严格的质量控制,确保实验的可重复性和可靠性。
(2)结晶筛选试剂盒:公司提供多种结晶筛选试剂盒,如 Crystal Screen、Index Screen 和 SaltRx Screen,适用于不同类型的晶体生长实验。这些试剂盒设计科学,能够显著提高晶体生长的成功率。
(3)蛋白质结晶工具:提供用于蛋白质结晶的耗材和设备,如结晶板、密封膜和样品支架。这些工具与 Rigaku 的X射线衍射仪兼容,支持从晶体生长到数据分析的全流程。
(4)小分子结晶试剂:为小分子晶体学研究提供高质量的试剂和工具,支持药物开发、材料科学等领域的研究。
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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A/F Protein品牌全系列产品
A/F Protein Inc成立于1994年,专注于从天然来源纯化防冻蛋白,并销售给研发界。防冻蛋白的研究始于1950年代,当时科学家发现一些鱼类能够在极低温度下生存而不被冻结,因为它们血液中含有一种能够降低冰点的化合物,即防冻蛋白。A/F Protein在防冻蛋白领域取得了显著成就,拥有多项控制AFP(防冻蛋白)重要用途的专利。这些专利涵盖了防冻蛋白在哺乳动物细胞、组织和器官低温保存中的应用,以及使用防冻蛋白冷冻消融人类肿瘤细胞等领域。A/F Protein公司的产品包括I型和III型防冻蛋白以及防冻糖蛋白。这些蛋白质都是从天然来源纯化的冷海洋硬骨鱼中提取的,以干燥形式出售。

▍A/F Protein应用前景
A/F Protein的防冻蛋白和糖蛋白具有广泛的应用前景:
● 长效低温血小板保存液:含抗冻蛋白溶液,用于延长血小板在低温条件下的储存时间
● 肿瘤冷冻消融增效剂:提升冷冻手术治疗人体肿瘤效果的蛋白溶液
● 器官移植保存液:用于心脏/肾脏等移植器官的 低温-超低温保存技术
● 辅助生殖细胞保存液:试管婴儿所需的卵子与精子 超低温保存解决方案
● 动物生殖细胞保存技术:兽医学用动物卵母细胞及胚胎冷冻保存液
● 抗冻蛋白护肤产品:针对寒冷环境的 蛋白基护肤配方,增强皮肤防护力
● 食品加工保鲜技术:基于抗冻蛋白的食品质构改良与冷冻保鲜工艺
● 科研级纯化抗冻蛋白:高纯度抗冻蛋白试剂,供实验室研发使用

艾美捷科技代理BBI Solutions品牌诊断原料。
BBI Solutions的产品范围广泛,包括人的抗原、抗体、血清、血浆和临床化学酶等优质原料,还生产世界知名的ELISA试剂盒、生物传感器的标签、黄金纳米粒子和葡萄糖氧化酶等。BBI Solutions提供一系列专业的服务,包括抗体开发、抗体制造、抗原定制、金共轭化等。其独特的抗体开发、侧向流动试验开发和制造服务组合,能够支持客户从概念到商业化的全过程。BBI Solutions拥有专业的研究团队和完善的生产和质控流程,确保了公司产品的高品质。其提供的技术支持涵盖了产品的应用验证、配对使用抗体的推荐等方面,为客户提供了全方位的技术保障。BBI Solutions公司提供试剂专用酶:辣根过氧化物酶、谷氨酸脱氢酶、碱性磷酸酶、尿素酶、胆固醇酯酶,聚链霉亲和素,人源蛋白,单克隆抗体,金纳米颗粒等。
<<< " data-original="http://phosphosolutions.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="艾美捷科技代理BBI Solutions品牌诊断原料"> 艾美捷科技代理BBI Solutions品牌诊断原料
<艾美捷科技代理GenTegra品牌全系列产品
GenTegra 凭借专业的研发团队和深厚的技术积累,GenTegra 在生物样本保护领域处于领先地位,其产品广泛应用于科研、医疗、法医等多个领域。GenTegra 开发的产品包括适用于多种应用场景的样本采集装置,例如:用于基因组学和转录组学分析的 RNASeq 样本采集;对犯罪现场法医样本进行 DNA 分析的样本采集;来自患者自采样设备的全血样本采集。GenTegra公司的产品包括GenTegra RNA、GenTegra DNA。

▍GenTegra公司的产品
● GenTegra RNA 相关产品
①GenTegra RNA Advantage:使用 RIN 值作为 RNA 质量的衡量标准,能为组织中的 RNA 提供更好保护。相比 RNAlater 等产品,它始终产生 RIN 分数更好(≥1)的 RNA,且使用时 RIN 值等于或高于所需的 RIN 值≥7,确保出色的 RNAseq 结果,可替代 RNAlater 而无需更改当前方案。
②GenTegra RNA:是在实验室工作或运输 RNA 时为 RNA 提供的最佳保护产品。作为水溶性活性化学保护剂,添加到 RNA 中会形成保护基质,在干燥状态和液态下都能保存和保护 RNA。在 -80°C 至 +72°C 的极端温度下保护近乎完美,是唯一一种在干燥前立即提供 RNase 活性保护的干式储存产品,允许使用所有标准缓冲系统。在室温下储存保质期超过 3 年,有多种包装形式,如 100/0.5ml 螺旋盖管、96 孔微孔板或 96 管架格式、足够数量的散装基质,还提供三管评估套件。
③GenTegra RNAssure™:为 RNA 纯化和 RNAseq 的人员提供新水平的保护。其专有的活性化学保护™ ACP 配方可在洗脱纯化柱时立即保护 RNA,提供更彻底的保护,能保护样品完整性,可无缝融入每个标准 RNA 纯化试剂盒中,在室温(RT)下保护 RNA 至少 3 天,在 4°C 下保护 RNA 2 周,还可以保护 RNA 在 37°C 的较高温度下进行 DNase 处理期间免受损伤,能灭活纯化过程或环境污染遗留的所有残留 RNase 活性,保护 DNase 免受氧化损伤等。
● GenTegra - DNA 相关产品
①GenTegra - DNA:在运输和储存过程中的极端温度(-80°C 至 +72°C)下都能对 DNA 进行保护,基于加速研究在环境温度下保护 DNA 超过 20 年,无需特殊环境控制即可保护 DNA,经过多次干燥和补水循环。
②GenTegraDNA dry BULK:是法医实验室的首选产品,干散货是自动化系统的理想选择,支持直接用于 STR、qPCR 等,在需要时支持 DNA 样品浓缩,干燥的 DNA 样品可以在环境温度下安全运输,在室温下储存的保质期超过 3 年,提供三管评估套件。
● GenSolve DNA 提取和纯化试剂盒
①GenSolve Complete提取和纯化试剂盒:经过优化的提取和纯化方法,可提供最高质量的干血斑结果,能从任何可用的DNA采集卡中提取和纯化DNA,基于柱的纯化过程可有效将DNA与细胞碎片和外来化学成分分离。
②GenSolve DNA 提取试剂盒:可灵活地利用GenTegra 行业领先的DNA 提取技术来检测干血斑,并提供任何可用的DNA纯化试剂盒。来自任何采集卡的干血斑的 DNA 数量无与伦比,与GenTegra GenSaver卡或GenPlates结合使用时,产量为 95%,可与所需的任何DNA纯化方法配对。
▍GenTegra产品列表
| 产品名称 | 产品描述 |
| GenTegra RNAdvantage™ | 为新鲜组织样本中的 RNA 提供更优保护。 |
| GenTegra RNAssure™ | 对直接来源于 RNA 纯化试剂盒的 RNA 提供即时且完全的保护。 |
| GentegraRNA | 为运输用于 RNA 测序 (RNAseq) 的 RNA 提供即时且完全的保护。 |
| GenTegraDNA | 为生命科学和法医实验室应用提供卓越的 DNA 保护 |
| GenSolve COMPLETE 提取与纯化试剂盒 | 能够从干血斑中提取出最高质量、长度 >35 kb且高产量的 DNA。 |
| GenSolve 经典提取试剂盒 | 干血斑(DBS)DNA 提取技术可与任何 DNA 纯化试剂盒结合使用。 |
| GenTegra 快速干燥仪 | 可用于将生物样品施加到 GenTegra-RNA、GenTegra-DNA 或 GenPlate 之后进行干燥处理。 |
| enSaver DNA 卡 | 有 1 点、2 点和 4 点格式可供选择。变色格式适用于收集唾液等透明样本。 |
| GenSaver 2.0 法医 DNA 卡 | 该卡有 1 点、2 点和 4 点格式可供选择,其中变色格式适用于收集唾液等透明样本。 |

Roboz Surgical Instrument公司一直为研究人员提供专门的、手工制作的外科器械,以满足他们独特的需求。Roboz Surgical Instrument公司是外科器械和相关产品的领先设计师和开发商,产品被世界各地的医疗保健和研究专业人士使用。
When Otto Roboz started the Roboz Surgical Instrument Company in 1953, his goal was to provide researchers with specialized, hand-crafted surgical instruments designed to meet their unique demands. Since then, Roboz Surgical has grown into one of the life science market’s leading sources of quality surgical instruments. Although the work of the research community has changed quite a bit over the last 60 years, Roboz Surgical, through constant innovation, continues to provide the highest-quality instruments and unparalleled service, to meet and exceed all of our customers’ needs.
Today Roboz Surgical Instrument Company is a leading designer and developer of surgical instruments and related products. Our products are used by healthcare and research professionals worldwide. Throughout our history of over sixty years , the Roboz name has been synonymous with quality.
Roboz Surgical Instrument公司主要产品:
Bone Instruments
Clips & Clamps
General Micro Dissecting
Instrument Care and
Handling
Instrument Services
Misc. Instruments
Retractors
Scalpels
Scissors
Tweezers & Forceps
Vascular Access
Wound Closures
<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Clearsynth品牌全系列产品
Clearsynth研发中心位于海得拉巴,以“创新与精准之心”为核心理念,打造了一个精心设计的空间,旨在激发突破性的发现并提升可能性的界限。专注于创新有机化学和独特复杂分子的合成,涵盖稳定同位素标记化合物、代谢物、杂质、葡萄糖醛酸、手性化合物、共轭物杂质和放射性标记化合物等。承接复杂分子或“难以合成”的合成化合物/中间体的定制合成服务。提供超过3,59,000个高纯度参考标准品,Clearsynth公司的产品线包括稳定同位素、原料药、杂质、亚硝胺、二级标准、散装化合物等。

▍Clearsynth服务领域
● 小分子:合成各种精细化学品和化合物,用于从毫克到数公斤规模的小分子药物发现。
● 工艺开发:开发新的合成路线,也可以修改和优化客户提供的工艺。
● 合同研发综合:专注于从临床前阶段到III期以及成功的技术转让。
● 生物核磁共振服务:位于海得拉巴的符合GLP标准的高场生物核磁共振/600MHz和300MHz设施,由敬业且经验丰富的核磁共振操作员提供支持。
● CDMO服务:致力于复杂、危险和可持续的产品和工艺。
● 分析服务:符合FDA、BIS、卫生部和其他标准机构制定的所有监管规范。
▍Clearsynth部分产品列表
| 品名 | 货号 | CAS号 |
| α-Keto Isovaleric Acid Sodium Salt 13C D6 | CS-R-00562 | 3715-29-5 (Unlabeled) |
| α-Keto Isovaleric Acid Sodium Salt 13C5 | CS-R-00482 | 1173018-24-0 |
| α-Keto Isovaleric Acid Sodium Salt D6 | CS-R-00485 | 3715-29-5(Unlabeled) |
| α-Keto Isovaleric Acid Sodium Salt Dimethyl-13C2 | CS-R-00488 | 634908-42-2 |
| α-KETOBUTYRIC ACID, SODIUM 13C, D4 | CS-R-00475 | 2013-26-5 (Unlabeled) |
| α-KETOBUTYRIC ACID, SODIUM SALT 13C4, D2 | CS-R-00477 | 360769-17-1 |
| α-KETOBUTYRIC ACID, SODIUM SALT METHYL-13C | CS-R-00478 | 634908-43-3 |
| α-KETOBUTYRIC ACID, SODIUM SALT METHYL-13C, D2 | CS-R-00479 | 1007476-77-8 |
| α-Ketobutyric Acid-d2 Sodium Salt | CS-T-30294 | 1007476-82-5 |
| α-Ketoglutaric acid 13C2, D2 | CS-CX-00331 | 123953-28-6 |
| α-KETOGLUTARIC ACID 13C5 | CS-R-00549 | 161096-83-9 |
| α-KETOGLUTARIC ACID, DISODIUM SALT 13C4 | CS-R-00480 | 1429051-79-5 |
| α-KETOISOCAPROIC ACID 13C | CS-R-00551 | 92751-19-4 |
| α-KETOISOCAPROIC ACID, SODIUM SALT 13C2 | CS-R-00552 | 4502-00-5(Unlabeled) |
| α-KETOISOCAPROIC ACID, SODIUM SALT ISOPROPYL-D7 | CS-R-00555 | 1795020-84-6 |
| α-Tocopherol-[13C3] | CS-I-00340 | 59-02-9 (Unlabeled) |
| β-ALANINE 13C | CS-R-00042 | 65138-34-3 |
| β-ALANINE 13C, 15N | CS-R-00449 | 1822942-84-6 |
| β-ALANINE 13C3 | CS-R-00040 | 107-95-9 (Unlabeled) |
| β-ALANINE 15N | CS-R-00041 | 204451-53-6 |
| β-CAROTENE 13C4 | CS-R-00567 | 7235-40-7(Unlabeled) |
| -β-Cyclocitral-d5 | CS-T-51410 | 78995-98-9 |
| β-Endosulfan D4 | CS-O-15034 | 203716-99-8 |
| β-Ionone-[13C3] | CS-I-00368 | 14901-07-6 (Unlabeled) |
| βmethasone 17-propionate-d3 | CS-O-10426 | 5534-13-4 (Unlabeled) |
| β-Tocopherol-[13C9] | CS-I-00341 | 59-02-9 (Unlabeled) |
| γ-HCH D6 | CS-EJ-0009 | 60556-82-3 |
| (-)-(2S,3S)-Viridifloric Acid Acetonide-d7 | CS-T-102816 | 95462-09-2(Unlabelled) |
| (-)-(2S,3S)-Viridifloric Acid Ethyl Ester-d7 | CS-T-102815 | 176712-53-1(Unlabelled) |
| (-)-(3S)-3-Hydroxy Quinine-vinyl-d3 | CS-T-101262 | 2734920-65-9 |
| (-)-(S)-Cibenzoline-D4 | CS-O-33254 | 103419-18-7 (Unlabeled) |
| (-)-2-Amino-6-propionamido-d3-tetrahydrobenzothiazole | CS-T-97805 | 1217644-20-6 |
| (-)-2-Methyl Isoborneol-d3 | CS-T-58298 | 135441-89-3 |
| (-)-alfa-Benidipine-d5 Hydrochloride | CS-P-07295 | 129262-07-3 (Unlabeled) |
| (-)-Cannabidiol-d9 | CS-TA-86322 | 1246819-21-5 |
| (-)-Citrinin-13C,d2 | CS-T-72877 | 1329611-85-9 |
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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传真:18771997407
邮箱:sales@amyjet.com
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