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传真:13212737804
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艾美捷科技代理Hello Bio 品牌。
Roboscreen Diagnostics公司,正式名称为ROBOSCREEN GmbH,是一家专注于研发和生产高质量诊断工具的公司,在qPCR应用开发、单克隆抗体的产生以及它们在免疫化学测试构建中的应用方面具有高水平的专业知识。
Hello Bio由一群经验丰富的科学家和化学家组成,他们真诚地希望支持生命科学研究。目标是制造和供应一系列高性价比的生命科学生化制品、抗体和试剂,以便尽可能多的研究人员能够负担得起。
Hello Bio Ltd的产品线非常丰富,涵盖了多个生命科学领域的关键试剂和工具,包括:
(1)激动剂、拮抗剂、抑制剂和激活剂:这些产品被广泛用于信号转导系统研究,以及药物筛选和开发等领域。
(2)酶抑制剂和激活剂:用于调节酶的活性,是研究细胞代谢和信号传导的重要工具。
(3)信号通路研究工具:包括各种信号分子和信号通路调节剂,有助于揭示细胞间的通讯机制。
(4)受体配体:用于研究受体与配体之间的相互作用,以及药物与受体的结合特性。
(5)离子通道调节器:用于调节离子通道的活性,是研究神经传导、肌肉收缩等生理过程的重要工具。
(6)表观遗传工具:用于研究表观遗传机制,如DNA甲基化、组蛋白修饰等,对于理解基因表达和疾病发生具有重要意义。
(7)干细胞调节剂:用于调节干细胞的增殖和分化,是研究干细胞生物学和再生医学的重要工具。
此外,Hello Bio Ltd还提供定制合成服务,可以根据客户的具体需求合成特定的化合物或试剂。

LGC标准物质公司隶属于LGC集团,专注于化学和生物分析,是世界领先的实验室服务、检测服务、标准物质服务、基因组服务提供商,涉及的行业包括石化、食品&饮料、临床、环境、制药、法医和生命科学等。
LGC Standard的主要产品包括:
Products and services
ATCC and Life sciences
Elemental Analysis
Food, beverages and environment
Clinical Forensic and Phytochemicals
Petroleum Standards and CRMs
Pharmaceutical
Proficiency Testing
Solvents
Training
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" data-original="http://atlas.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="LGC Standards"> LGC Standards
Santa Cruz Biotechnology公司是全球最大的抗体生产厂商之一,目前公司提供二万余种研究用的第一抗体,几乎覆盖了目前生命科学研究的各个最新领域,其每种抗体又有多个克隆可以选择,还提供一些对应蛋白标准品及相关产品,如ABC试剂盒,各种标记二抗,Western试剂盒,蛋白分子量Marker,核抽提物等,为免疫学研究工作提供了极大的方便。
<更多详情请联系
艾美捷科技有限公司
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" data-original="http://atlas.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="Santa Cruz Biotechnology"> Santa Cruz Biotechnology
Mediomics公司2001年成立,致力于为学术机构、制药公司、医学研究者、环境研究者提供创新性的检测试剂盒及生物感应物质。Mediomics拥有Patented Bridge-It® Assay Platform、Patented FRET-PINCER® Assay Platform、Patented TRF-PINCER® Assay Platform三大技术平台。
Mediomics, LLC provides innovative assay kits and biosensors needed by academic research laboratories, point of care testing, pharmaceutical companies, as well as medical and environmental research markets.
Technology platforms:
(1)Patented Bridge-It® Assay Platform
Bridge-It® Assays are optimized to measure DNA binding proteins, their ligands, and co-regulators. Mediomics’ Bridge-It® assay was based on a simple idea of splitting the DNA binding site for a protein into two DNA half-sites. The presence of the DNA-binding protein or one of its ligands can be detected by FRET (fluorescence resonance energy transfer).
(2)Patented FRET-PINCER® Assay Platform
FRET-PINCER® Assays are a unique system to quantify the concentration of biomarkers, cells, and pathogens in a broad range of biological samples. The patent-protected FRET-PINCER® Assay system detects the concentration of the target molecule by bringing together complementary single-stranded DNAs and their attached fluorophores to produce fluorescent light through FRET (fluorescence resonance energy transfer).
(3)Patented TRF-PINCER® Assay Platform
TRF-PINCER® Assays are a unique system to quantify the concentration of biomarkers, cells, and pathogens in a broad range of biological samples. The patent-protected TRF-PINCER® Assay platform system detects the concentration of the target molecule by bringing together complementary single-stranded DNAs and their attached fluorophores to produce fluorescent light with Time-Resolved Fluorometry (TRF) sensitivity.
主要产品线包括:
(1)Bridge-It® Assay
(2)TR-FRET Bridge-It® Assay
(3)FRET-PINCER® Assay
(4)TR-FRET PINCER®Assay
(5)Other
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< " data-original="http://atlas.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="Mediomics"> Mediomics
艾美捷科技有限公司代理Lonza的生命科学相关产品,包括:
(1)Primary and Stem Cells - 原代及干细胞
(http://www.amyjet.com/Index/lists/catid/27/kid/19/p/48.html)
(2)Transfection - 转染系列产品
(http://www.amyjet.com/Index/lists/catid/27/kid/19/p/39.html)
(3)Endotoxin Detection - 内毒素检测相关产品
(http://www.amyjet.com/Index/lists/catid/27/kid/19/p/33.html)
(4)Electrophoresis - 电泳相关产品
(http://www.amyjet.com/Index/lists/catid/27/kid/19/p/25.html)
(5)Culture Medium and Reagents - 细胞培养基及相关试剂
(http://www.amyjet.com/Index/lists/catid/27/kid/19/p/5.html)
(6)Cell Analysis - 细胞分析相关产品
(http://www.amyjet.com/Index/lists/catid/27/kid/19/p/4.html)
(7)ADME and Toxicology - ADME及毒理学相关产品
(http://www.amyjet.com/Index/lists/catid/27/kid/19/p/2.html)
(8)3D Culture Products - 3D细胞培养相关产品
(http://www.amyjet.com/Index/lists/catid/27/kid/19/p/1.html)
LONZA(龙沙):瑞士的制药化工巨头,龙沙集团是一家以生命科学为主导,在生物化学、精细化工、功能化学等行业均处于领先地位的全球性跨国公司,具有一百多年历史,总部位于瑞士巴塞尔,在欧洲、美洲、亚洲总共有35个研发和生产中心,其中LONZA的大部分生物技术产品在美国研发生产。LONZA(龙沙)主要生产生命科学产品以及多种类的精细和特殊化工产品,以高科技生物技术与优质产品闻名世界。
Lonza is one of the world’s leading and most-trusted suppliers to the pharmaceutical, biotech and specialty ingredients markets. As an integrated solutions provider, Lonza is boosting its value creation along and beyond the healthcare continuum with a strong focus on patient healthcare, consumer preventive healthcare and consumer's healthy environment. Lonza harnesses science and technology to create products that support safer and healthier living and that enhance the overall quality of life. With the recent Capsugel acquisition, Lonza now offers products and services from the custom development and manufacturing of active pharmaceutical ingredients to innovative dosage forms for the pharma and consumer health and nutrition industries.



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Neuromab是一家由NIH资助成立的单克隆抗体库。
The UC Davis/NIH NeuroMab Facility is a national monoclonal antibody-generating resource funded by the National Institutes of Health (NIH). The mission of the UC Davis/NIH NeuroMab Facility is to provide a unique neuroscience-based approach to generating mouse monoclonal antibodies optimized for use in mammalian brain (NeuroMabs). NeuroMabs are generated from mice immunized with synthetic and recombinant immunogens corresponding to components of the neuronal proteome as predicted from genomic and other large-scale cloning efforts. Comprehensive biochemical and immunohistochemical analyses of human, primate and non-primate mammalian brain are incorporated into the UC Davis/NIH NeuroMab Facility screening procedure. This yields a subset of mouse mAbs that are optimized for use in brain (i.e., NeuroMabs): for immunohistochemical- based imaging studies of protein localization in adult, developing and pathological brain samples, for biochemical analyses of subunit composition and post-translational modifications of native brain proteins, and for proteomic analyses of native brain protein networks.
Neuromab的主要产品包括:
Array Tomography
Model Organisms
Disease Targets
产品列表:
| 抗体名称 |
| Anti-5-formylcytidine, NeuroMab clone N358/68 |
| Anti-5-hydroxymethylcytidine, NeuroMab clone N297/59 |
| Anti-6xHis, NeuroMab clone N144/14 |
| Anti-ADAM11, NeuroMab clone N441/35 |
| Anti-ADAM22-cytoplasmic, NeuroMab clone N46/30 |
| Anti-ADAM22-extracellular, NeuroMab clone N57/2 |
| Anti-AGPS neo-epitope, NeuroMab clone N444/63 |
| Anti-Aldh1L1 (Aldehyde dehydrogenase family 1 member L1), NeuroMab clone N103/39 |
| Anti-Aldh1L1 (Aldehyde dehydrogenase family 1 member L1), NeuroMab clone N103/31 |
| Anti-Alg13, NeuroMab clone N442/28 |
| Anti-Alpha-2C adrenergic receptor, NeuroMab clone N330A/80 |
| Anti-Alpha-2C adrenergic receptor, NeuroMab clone N330A/51 |
| Anti-AMIGO-1, NeuroMab clone L86/33 |
| Anti-AMIGO-1, NeuroMab clone L86/36 |
| Anti-AMIGO-1, NeuroMab clone L86A/37 |
| Anti-Ankyrin-B, NeuroMab clone N105/13 |
| Anti-Ankyrin-B, NeuroMab clone N105/17 |
| Anti-Ankyrin-G, NeuroMab clone N106/20 |
| Anti-Ankyrin-G, NeuroMab clone N106/36 |
| Anti-Ankyrin-G, NeuroMab clone N106/65 |
| Anti-Ankyrin-G, NeuroMab clone N106/43 |
| Anti-Ankyrin-R, NeuroMab clone N388A/10 |
| Anti-Ankyrin-R/G, NeuroMab clone N388A/27 |
| Anti-ANO3/TMEM16C, NeuroMab clone N454/91 |
| Anti-ANO5/TMEM16E, NeuroMab clone N421A/85 |
| Anti-ANO6/TMEM16F, NeuroMab clone N429/19 |
| Anti-ARHGAP4, NeuroMab clone N290B/25 |
| Anti-Arl13b, NeuroMab clone N295B/66 |
| Anti-Arx, NeuroMab clone N411/51 |
| Anti-ASIC1, NeuroMab clone N271/44 |
| Anti-ATAT1, NeuroMab clone N347/42 |
| Anti-Ataxin-1 11NQ, NeuroMab clone N76/8 |
| Anti-Ataxin-1 11NQ, NeuroMab clone N76/3 |
| Anti-Ataxin-1 wild-type, NeuroMab clone N65/37 |
| Anti-ATF4, NeuroMab clone N360A/24 |
| Anti-BAF53a, NeuroMab clone N336B/83 |
| Anti-BAF53b, NeuroMab clone N332B/15 |
| Anti-Bassoon, NeuroMab clone L124/59 |
| Anti-BBS3/Arl6, NeuroMab clone N302/10 |
| Anti-BBS5, NeuroMab clone N304B/115 |
| Anti-BDNF, NeuroMab clone N450/53 |
| Anti-Beta1-spectrin, NeuroMab clone N385/21 |
| Anti-Beta4-spectrin, NeuroMab clone N393/2 |
| Anti-Beta4-spectrin, NeuroMab clone N393/76 |
| Anti-BKBeta2 potassium channel subunit, NeuroMab clone N53/32 |
| Anti-BKBeta3a potassium channel subunit, NeuroMab clone N40B/18 |
| Anti-BKBeta4 potassium channel, NeuroMab clone L18A/3 |
| Anti-Botch1/Chac1, NeuroMab clone N116/14 |
| Anti-Bral1, NeuroMab clone N364/10 |
| Anti-Bral1, NeuroMab clone N364/42 |
| Anti-Brevican, NeuroMab clone N294A/6 |
| Anti-Brevican, NeuroMab clone N294A/10 |
| Anti-CALB1/calbindin, NeuroMab clone L109/39 |
| Anti-CALB1/calbindin, NeuroMab clone L109/57 |
| Anti-CALB2/calretinin, NeuroMab clone L122/6 |
| Anti-CALB2/calretinin, NeuroMab clone L122/68 |
| Anti-CASK scaffolding protein, NeuroMab clone K56A/50 |
| Anti-Caspr/paranodin/neurexin IV, NeuroMab clone K65/35 |
| Anti-Caspr2/paranodin, NeuroMab clone K67/25 |
| Anti-Cav1.2 calcium channel, NeuroMab clone L57/46 |
| Anti-Cav1.2, NeuroMab clone N263/31 |
| Anti-Cav1.3 calcium channel, NeuroMab clone L48A/9 |
| Anti-Cav1.3 calcium channel, NeuroMab clone N38/8 |
| Anti-Cav3.1 Ca2+ channel, NeuroMab clone N178A/9 |
| Anti-Cav3.2 calcium channel, NeuroMab clone N55/10 |
| Anti-Cav1 calcium channel, NeuroMab clone N7/18 |
| Anti-Cav尾2 calcium channel subunit, NeuroMab clone N8b/1 |
| Anti-Cav3 calcium channel, NeuroMab clone N473/36 |
| Anti-Cav尾4 calcium channel, NeuroMab clone N10/7 |
| Anti-Cdkl5, NeuroMab clone EA7 |
| Anti-CDY1/2, NeuroMab clone N143/38 |
| Anti-CDY1/2/L1/L2, NeuroMab clone N143/36 |
| Anti-Celf4/Brunol4, NeuroMab clone N446/80 |
| Anti-FOS, NeuroMab clone N486/32 |
| Anti-FOS, NeuroMab clone N486/76 |
| Anti-Clcn3, NeuroMab clone N258/5 |
| Anti-Clcn4, NeuroMab clone N222/6 |
| Anti-Clcn5, NeuroMab clone N406/47 |
| Anti-CLN3, NeuroMab clone N380/87 |
| Anti-CLN6, NeuroMab clone N400/24 |
| Anti-CNGA1/3 cyclic nucleotide-gated channel, NeuroMab clone L36/12 |
| Anti-Collybistin, NeuroMab clone L120/12 |
| Anti-Collybistin, NeuroMab clone L120/30 |
| Anti-Contactin/F3 scaffold protein, NeuroMab clone K73/20 |
| Anti-Copper-transporting ATPase 1, NeuroMab clone L60/4 |
| Anti-Copper-transporting ATPase 2 (Copper pump 2, Wilsons disease-associated protein, NeuroMab clone L62/29 |
| Anti-Co-Rest/RCOR1 Transcriptional Co-Repressor, NeuroMab clone K72/8 |
| Anti-DEPDC5, NeuroMab clone N463/52 |
| Anti-Dicer, NeuroMab clone N167/7 |
| Anti-DLX1 transcription factor, NeuroMab clone L43/40 |
| Anti-DNAH1, NeuroMab clone N251/14 |
| Anti-DNAH7, NeuroMab clone N250/21 |
| Anti-DNAIC1, NeuroMab clone UNC 65.56.18.11 |
| Anti-DNMT3L, NeuroMab clone N117/9 |
| Anti-Doc2b, NeuroMab clone N150/21 |
| Anti-Dopamine D2 receptor, NeuroMab clone N186/29 |
| Anti-Dopamine D3 receptor, NeuroMab clone N331/19 |
| Anti-EAAC1, NeuroMab clone N420/24 |
| Anti-FGF11 (Fibroblast growth factor 11), NeuroMab clone N92/14 |
| Anti-FGF12/FHF1, NeuroMab clone N94/17 |
| Anti-FGF13 (Fibroblast growth factor 13), NeuroMab clone N91/27 |
| Anti-FGF13B/FHF2B, NeuroMab clone N225A/10 |
| Anti-FGF14/FHF4, NeuroMab clone N56/21 |
| Anti-Fig4/Sac3, NeuroMab clone N202/7 |
| Anti-Flrt3, NeuroMab clone N353/13 |
| Anti-Foxi2, NeuroMab clone N349/96 |
| Anti-Foxi3, NeuroMab clone N359/28 |
| Anti-Frataxin, NeuroMab clone N191/7 |
| Anti-GABA-A-R-Alpha1, NeuroMab clone N95/35 |
| Anti-GABA-A-R-Alpha2, NeuroMab clone N399/19 |
| Anti-GABA-A-R-Alpha4, NeuroMab clone N398A/34 |
| Anti-GABA-A-R-Alpha5, NeuroMab clone N415/24 |
| Anti-GABA-A-R-Alpha6, NeuroMab clone N229A/32 |
| Anti-GABA-A-R-Beta1, NeuroMab clone N96/55 |
| Anti-GABA-A-R-Beta2/3, NeuroMab clone 62-3G1 |
| Anti-GABA-A-R-Beta3, NeuroMab clone N87/25 |
| Anti-Delta GABA-A receptor, NeuroMab clone N151/3 |
| Anti-GABA-A-R-Epsilon, NeuroMab clone N413/67 |
| Anti-GABA-A-R-Gamma2L, NeuroMab clone N452/69 |
| Anti-GABA-A-R-Gamma2L/S, NeuroMab clone N452/73 |
| Anti-GABA-A-R-Gamma2L/S, NeuroMab clone N452/30 |
| Anti-GABA-A-R-Pi, NeuroMab clone N431/64 |
| Anti- GABA-A-R-Theta, NeuroMab clone L123/109 |
| Anti-GABABR1 GABA-B receptor, NeuroMab clone N93A/49 |
| Anti-GABABR2 GABA-B receptor, NeuroMab clone N81/2 |
| Anti-GABABR2 GABA-B receptor, NeuroMab clone N81/37 |
| Anti-GAD65/67, NeuroMab clone L127/12 |
| Anti-GAD67, NeuroMab clone L127/8 |
| Anti-Gamma-protocadherin-A3, NeuroMab clone N144/17 |
| Anti-Gamma-protocadherin-B2, NeuroMab clone N148/30 |
| Anti-Gamma-protocadherin-C3, NeuroMab clone N174B/27 |
| Anti-Gamma-protocadherin-C4, NeuroMab clone N193A/13 |
| Anti-Gephyrin, NeuroMab clone L106/83 |
| Anti-Gephyrin, NeuroMab clone L106/93 |
| Anti-Gephyrin, NeuroMab clone L106/4 |
| Anti-GFAP, NeuroMab clone N206A/8 |
| Anti-GFAP-R416WT, NeuroMab clone N206B/9 |
| Anti-GFP (Green fluorescent protein), NeuroMab clone N86/8 |
| Anti-GFP (Green fluorescent protein), NeuroMab clone N86/38 |
| Anti-GFP (green fluorescent protein), NeuroMab clone N86/20 |
| Anti-GFP (green fluorescent protein), NeuroMab clone N86/44 |
| Anti-GIT1 scaffold protein, NeuroMab clone N39B/8 |
| Anti-GIT2 scaffold protein, NeuroMab clone N83/48 |
| Anti-GluA1/GluR1 glutamate receptor, NeuroMab clone N355/1 |
| Anti-GluA2/GluR2 glutamate receptor, NeuroMab clone L21/32 |
| Anti-KA2 kainate receptor, NeuroMab clone N279B/27 |
| Anti-GluN1/NR1 glutamate receptor, NeuroMab clone N308/48 |
| Anti-NR2A glutamate receptor, NeuroMab clone N327A/38 |
| Anti-GluN2A/NR2A glutamate receptor, NeuroMab clone N327/95 |
| Anti-GluN2B/NR2B glutamate receptor, NeuroMab clone N59/20 |
| Anti-GluN2B/NR2B glutamate receptor, NeuroMab clone N59/36 |
| Anti-GluN2C/NR2C, NeuroMab clone N422/18 |
| Anti- GluN3A/NR3A, NeuroMab clone N416/40 |
| Anti-Glycine receptor Alpha3, NeuroMab clone N424/45 |
| Anti-Glycine receptor Alpha3L, NeuroMab clone N424/48 |
| Anti-GRK6A/B, NeuroMab clone N142/28 |
| Anti-Gs protein alpha subunit, NeuroMab clone N192/12 |
| Anti-GST (Glutathione S-transferase), NeuroMab clone N100/13 |
| Anti-Haspin/GSG2, NeuroMab clone N128A/2 |
| Anti-HCN1 cyclic nucleotide-gated channel, NeuroMab clone N70/28 |
| Anti-HCN2 cyclic nucleotide-gated channel, NeuroMab clone N71/37 |
| Anti-HCN3 cyclic nucleotide-gated channel, NeuroMab clone N141/28 |
| Anti-HCN4 cyclic nucleotide-gated channel, NeuroMab clone N114/10 |
| Anti-Histone H2A.Z/V, NeuroMab clone N310/21 |
| Anti-Histone H2A.Z acetyl-Lys4/7/11, NeuroMab clone N299/39 |
| Anti-Histone H3.3, NeuroMab clone N158/28 |
| Anti-Histone H3 acetyl-Lys56, NeuroMab clone N307/12 |
| Anti-Histone H3-dimethyl-Arg8, NeuroMab clone N293/50 |
| Anti-Histone H3 pThr11, NeuroMab clone N123/19 |
| Anti-Histone H3 pThr11, NeuroMab clone N123/48 |
| Anti-Histone H4-dimethyl-Arg3, NeuroMab clone N309A/21 |
| Anti-Homer1L, NeuroMab clone L113/27 |
| Anti-Homer1L, NeuroMab clone L113/13 |
| Anti-Homer1, NeuroMab clone L113/130 |
| Anti-ICK, NeuroMab clone N451/73 |
| Anti-Iduna/RNF146, NeuroMab clone N201/35 |
| Anti-INPP4b, NeuroMab clone N171/17 |
| Anti IP3 receptor type 1 NeuroMab clone L24/18 |
| Anti-IRSp53/BAIAP2, NeuroMab clone L117/1 |
| Anti-JIP-2/IB-2, NeuroMab clone N135/37 |
| Anti-JMJD2A, NeuroMab clone N154/32 |
| Anti-KCC2 transporter, NeuroMab clone N1/66 |
| Anti-KCC2 transporter, NeuroMab clone N1/12 |
| Anti-KChIP1 potassium channel, NeuroMab clone K55/7 |
| Anti-KChIP2 potassium channel subunit, NeuroMab clone K60/73 |
| Anti-KChIP3 potassium channel, NeuroMab clone K66/38 |
| Anti-KChIP4 K+ channel, NeuroMab clone N423/75 |
| Anti-KCNT1/Slo2.2/Slack K+ channel, NeuroMab clone N3/26 |
| Anti-KCNT2/Slo2.1/Slick sodium- and chloride-activated ATP sensitive potassium channel, NeuroMab clone N11/33 |
| Anti-KCNU1/Slo3 pH-sensitive maxi potassium channel, NeuroMab clone N2/16 |
| Anti-Keyhole limpet hemocyanin, NeuroMab clone N132A/12 |
| Anti-Kir2.1 potassium channel, NeuroMab clone N112B/14 |
| Anti-Kir2.2 potassium channel, NeuroMab clone N124B/38 |
| Anti-Kir2.3 potassium channel, NeuroMab clone N25/35 |
| Anti-Kir2.4 potassium channel, NeuroMab clone N465/11 |
| Anti-Kir3.3 potassium channel, NeuroMab clone N455/15 |
| Anti-Kir6.1 potassium channel, NeuroMab clone N366/60 |
| Anti-Kir6.2 potassium channel, NeuroMab clone N363/71 |
| Anti-Kirrel3 short and long, NeuroMab clone N321C/49 |
| Anti-Kirrel3 short isoform 3, NeuroMab clone N320/48 |
| Anti-Kv1.1 potassium channel subunit, NeuroMab clone K20/78 |
| Anti-Kv1.1 potassium channel (external), NeuroMab clone K36/15 |
| Anti-Kv1.2 potassium channel subunit, NeuroMab clone K14/16 |
| Anti-Kv1.2 potassium channel subunit, NeuroMab clone L76/36 |
| Anti-Kv1.3 potassium channel, NeuroMab clone L23/27 |
| Anti-Kv1.4 potassium channel subunit, NeuroMab clone K13/31 |
| Anti-Kv1.4 potassium channel (extracellular), NeuroMab clone L71/5 |
| Anti-Kv1.5 potassium channel, NeuroMab clone K7/45 |
| Anti-Kv1.6 potassium channel subunit, NeuroMab clone K19/36 |
| Anti-Kv1.7 potassium channel, NeuroMab clone N471/27 |
| Anti-Kv11.3 potassium channel, NeuroMab clone N447/24 |
| Anti-Kv2.1 potassium channel subunit, NeuroMab clone L83/11 |
| Anti-Kv2.1 potassium channel subunit, NeuroMab clone K89/34 |
| Anti-Kv2.1 potassium channel subunit, NeuroMab clone L80/21 |
| Anti-Kv2.1 potassium channel (external), NeuroMab clone K39/25 |
| Anti-Kv2.2 potassium channel, NeuroMab clone K37/89 |
| Anti-Kv2.2 potassium channel, NeuroMab clone N372C/51 |
| Anti-Kv2.2 potassium channel, NeuroMab clone N372B/60 |
| Anti-Kv2.2 potassium channel, NeuroMab clone N372B/1 |
| Anti-Kv3.1b potassium channel, NeuroMab clone N16b/8 |
| Anti-Kv3.2 potassium channel, NeuroMab clone N410/17 |
| Anti-Kv3.3 potassium channel, NeuroMab clone N375/67 |
| Anti-Kv3.4 potassium channel, NeuroMab clone N72/16 |
| Anti-Kv4.2 potassium channel subunit, NeuroMab clone L28/4 |
| Anti-Kv4.2 potassium channel (external), NeuroMab clone K57/1 |
| Anti-Kv4.3 potassium channel subunit, NeuroMab clone K75/41 |
| Anti-Kv4.3 potassium channel subunit, NeuroMab clone K75/30 |
| Anti-Kv6.1 potassium channel, NeuroMab clone N474/27 |
| Anti-Kv6.4 potassium channel, NeuroMab clone N458/10 |
| Anti-KCNQ1 potassium channel, NeuroMab clone N37A/10 |
| Anti-KCNQ2 potassium channel, NeuroMab clone N26A/23 |
| Anti-KCNQ4 potassium channel, NeuroMab clone N43/6 |
| Anti-Kv8.2 potassium channel, NeuroMab clone N448/88 |
| Anti-Kv8.2 potassium channel, NeuroMab clone N448/50 |
| Anti-Kv9.1 potassium channel, NeuroMab clone N461/19 |
| Anti-Kv9.2 potassium channel, NeuroMab clone N460/19 |
| Anti-Kvβ1.1 potassium channel subunit, NeuroMab clone K9/40 |
| Anti-Kv1.2 potassium channel subunit, NeuroMab clone K47/42 |
| Anti-Kv尾2 potassium channel, NeuroMab clone K17/70 |
| Anti-Laforin, NeuroMab clone N84/37 |
| Anti-LAR/PTPRF, NeuroMab clone N165/38 |
| Anti-Lgi1, NeuroMab clone N283/7 |
| Anti-Lhx6.1, NeuroMab clone N228A/16 |
| Anti-LRP4 (cytoplasmic), NeuroMab clone N164/6 |
| Anti-LRP4 (extracellular), NeuroMab clone N207/27 |
| Anti-LRRK1, NeuroMab clone N341/37 |
| Anti-LRRK1, NeuroMab clone N341/12 |
| Anti-LRRK2/Dardarin, NeuroMab clone N241A/34 |
| Anti-LRRK2/Dardarin, NeuroMab clone N231B/34 |
| Anti-LRRK2/Dardarin, NeuroMab clone 8G10 |
| Anti-LRRK2/Dardarin, NeuroMab clone N138/6 |
| Anti-LRRK2/Dardarin-pSer910, NeuroMab clone 1D8 |
| Anti-LRRTM2, NeuroMab clone N209C/35 |
| Anti-LRRTM4, NeuroMab clone N205B/22 |
| Anti-Mad3, NeuroMab clone N129A/6 |
| Anti-Mad3, NeuroMab clone N129/15 |
| Anti-Malin, NeuroMab clone N85/18 |
| Anti-MBP (Maltose-binding protein), NeuroMab clone N128A/4 |
| Anti-MAP3K12, NeuroMab clone N377/20 |
| Anti-MAP3K12, NeuroMab clone N377/83 |
| Anti-MECP2, NeuroMab clone N227/21 |
| Anti-MESD, NeuroMab clone N88/12 |
| Anti-MFF, NeuroMab clone N382/14 |
| Anti-MFF (exon 1), NeuroMab clone N382/69 |
| Anti-MGL, NeuroMab clone N90/20 |
| Anti-mGluR1/5 (group I) glutamate receptor, NeuroMab clone N75/3 |
| Anti- mGluR1/5 (group I) glutamate receptor, NeuroMab clone N75/33 |
| Anti-Miro2, NeuroMab clone N384/63 |
| Anti-MiRP4 potassium channel, NeuroMab clone N472/88 |
| Anti-Mitofusin-1 (Mfn1), NeuroMab clone N111/24 |
| Anti-Mitofusin-2 (Mfn2), NeuroMab clone N153/5 |
| Anti-MMACHC, NeuroMab clone N230/21 |
| Anti-MMP9 metalloproteinase, NeuroMab clone L51/82 |
| Anti-MOG, NeuroMab clone L94/54 |
| Anti-Mortalin/GRP75, NeuroMab clone N52A/42 |
| Anti-MPP8, NeuroMab clone N119/44 |
| Anti-NALCN, NeuroMab clone N185/7 |
| Anti-Nav1.1 sodium channel, NeuroMab clone K74/71 |
| Anti-Nav1.2 sodium channel, NeuroMab clone K69/3 |
| Anti-Nav1.4 sodium channel, NeuroMab clone N255/38 |
| Anti-Nav1.5 sodium channel, NeuroMab clone N397/19 |
| Anti-Nav1.6 sodium channel, NeuroMab clone K87A/10 |
| Anti-Nav1.7 sodium channel, NeuroMab clone N68/6 |
| Anti-Nav1.8 sodium channel, NeuroMab clone N134/12 |
| Anti-Navbeta1 Na+ channel, NeuroMab clone N405/74 |
| Anti-Navbeta2 Na+ channel, NeuroMab clone N395/68 |
| Anti-Navbeta3 Na+ channel, NeuroMab clone N396/29 |
| Anti-Navbeta4 sodium channel, NeuroMab clone N168/6 |
| Anti-NCKX4, NeuroMab clone N414/25 |
| Anti-Neuregulin-CRD (Cysteine-rich domain, Type III), NeuroMab clone N126B/31 |
| Anti-Neuregulin-HBD (Heparin-binding domain, Type I/II), NeuroMab clone N120A/9 |
| Anti-Neurexin-1-Beta, NeuroMab clone N170A/1 |
| Anti-Neurexin-1-Beta, NeuroMab clone N170A/26 |
| Anti-Neuroligin-1, NeuroMab clone N97A/31 |
| Anti-Neuroligin-2, NeuroMab clone L107/39 |
| Anti-Neuroligin-3, NeuroMab clone N110/29 |
| Anti-Neuroligin-4*, NeuroMab clone N98/47 |
| Anti-Neuroligin-4*, NeuroMab clone N98/7 |
| Anti-NGL-1 (Netrin-G1 ligand), NeuroMab clone N49A/21 |
| Anti-NGL-2 (Netrin-G2 ligand) NeuroMab clone N50/36 |
| Anti-NGL-3 (Netrin-G3 ligand), NeuroMab clone N51/6 |
| Anti-NKCC1, NeuroMab clone N161/20 |
| Anti-NOS1/nNOS, NeuroMab clone L121/25 |
| Anti-NOS1/nNOS, NeuroMab clone L121/42 |
| Anti-Notch1, NeuroMab clone N253/32 |
| Anti-Npas4, NeuroMab clone N408/62 |
| Anti-Npas4, NeuroMab clone N408/79 |
| Anti-Neuropeptide Y, NeuroMab clone L115/13 |
| Anti-NPY2R, NeuroMab clone L119/106 |
| Anti-NrCAM, NeuroMab clone N343/26 |
| Anti-NSD1, NeuroMab clone N312/10 |
| Anti-NSD3, NeuroMab clone N348/82 |
| Anti-OCRL/INPP5b, NeuroMab clone N166A/26 |
| Anti-Olig1, NeuroMab clone N149/25 |
| Anti-Pan-Ankyrin, NeuroMab clone N388A/60 |
| Anti-Pancortin, NeuroMab clone K96/7 |
| Anti-Pan-FHF-A, NeuroMab clone N235/22 |
| Anti-Pan-Gamma-protocadherin-A, NeuroMab clone N144/32 |
| Anti-Pan-Gamma-protocadherin, NeuroMab clone N159/5 |
| Anti-Pan-GRK, NeuroMab clone N145/20 |
| Anti-Pan-KChIP potassium channel, NeuroMab clone K55/82 |
| Anti-Pan-Kv potassium channel, NeuroMab clone K40/17 |
| Anti-Pan-Kvbeta potassium channel, NeuroMab clone K25/73 |
| Anti-Pan-MAGUK scaffold proteins, NeuroMab clone K28/86 |
| Anti-Pan-Nav1 sodium channel, NeuroMab clone N419/40 |
| Anti-Pan-Nav1 sodium channel, NeuroMab clone N419/78 |
| Anti-pan-Neurofascin, NeuroMab clone L11A/41 |
| Anti-Pan-Neurofascin (external), NeuroMab clone A12/18 |
| Anti-Pannexin-2, NeuroMab clone N121A/1 |
| Anti-Pannexin-2, NeuroMab clone N121A/31 |
| Anti-Pan-PTPR, NeuroMab clone N165/43 |
| Anti-Pan-QKI, NeuroMab clone N147/6 |
| Anti-Pan-SAPAP, NeuroMab clone N127/31 |
| Anti-pan-Shank (SH3 and multiple ankyrin repeat domains protein) scaffold protein, NeuroMab clone N23B/49 |
| Anti-Pan-Synapsin, NeuroMab clone L125/129 |
| Anti-Pan-Thyroid hormone receptor, NeuroMab clone N403/63 |
| Anti-PARIS/ZNF746, NeuroMab clone N196/16 |
| Anti-Parvalbumin, NeuroMab clone L114/3 |
| Anti-Parvalbumin, NeuroMab clone L114/81 |
| Anti-PEX6, NeuroMab clone N233/8 |
| Anti-PEX7, NeuroMab clone N232/9 |
| Anti-Phosphoserine-2-OEt, NeuroMab clone N257/25 |
| Anti-Phosphoserine-2-OH, NeuroMab clone N259/48 |
| Anti-Phosphoserine-2-OMe, NeuroMab clone N262/16 |
| Anti-PhyH/PAHX, NeuroMab clone N210/5 |
| Anti-PICK1 scaffold, NeuroMab clone L20/8 |
| Anti-PINK1, NeuroMab clone N4/15 |
| Anti-PINK1, NeuroMab clone N4/49 |
| Anti-PINK1, NeuroMab clone N4/19 |
| Anti-PINK1, NeuroMab clone N357/6 |
| Anti-Proser1, NeuroMab clone N456/39 |
| Anti-Prrt2, NeuroMab clone N485/22 |
| Anti-PSD-93/Chapsyn-110 scaffold protein, NeuroMab clone N18/30 |
| Anti-PSD-93/Chapsyn-110 scaffold protein, NeuroMab clone N18/28 |
| Anti-PSD-95 MAGUK scaffold protein, NeuroMab clone K28/43 |
| Anti-PSD-95 MAGUK scaffold protein, NeuroMab clone K28/74 |
| Anti-QKI-5-NLS, NeuroMab clone N195A/16 |
| Anti-QKI-6, NeuroMab clone N182/17 |
| Anti-QKI-7, NeuroMab clone N183/15 |
| Anti-QKI-7b, NeuroMab clone N194/11 |
| Anti-RBM17/SPF45, NeuroMab clone N219/5 |
| Anti-REEP, NeuroMab clone N326D/13 |
| Anti-REEP1, NeuroMab clone N345/51 |
| Anti-REEP1/2, NeuroMab clone N326D/29 |
| Anti-REEP2, NeuroMab clone N326D/2 |
| Anti-Rem2, NeuroMab clone N324/2 |
| Anti-RGS14, NeuroMab clone N133/21 |
| Anti-RGS14, NeuroMab clone N133/35 |
| Anti-Rufy3, NeuroMab clone N483/84 |
| Anti-Rufy3, NeuroMab clone N483/126 |
| Anti-Rufy3, NeuroMab clone N483/26 |
| Anti-S100A5, NeuroMab clone N176A/35 |
| Anti-SALM2 synaptic adhesion-like molecule, NeuroMab clone N52B/27 |
| Anti-SALM5/LRFN5, NeuroMab clone N140A/12 |
| Anti-SAP102 MAGUK scaffold protein, NeuroMab clone N19/2 |
| Anti-SAP97 scaffold protein, NeuroMab clone K64/15 |
| Anti-SAPAP1, NeuroMab clone N238/29 |
| Anti-SAPAP1, NeuroMab clone N238/30 |
| Anti-SAPAP1/2, NeuroMab clone N238/31 |
| Anti-SAPAP2, NeuroMab clone N459/84 |
| Anti-SAPAP3, NeuroMab clone L126/93 |
| Anti-SCG10/stathmin-2, NeuroMab clone L5/1 |
| Anti-SH3GL1, NeuroMab clone K51/1 |
| Anti-Shank1/ SPANK-1/Synamon/SSTRIP scaffold protein, NeuroMab clone N22/21 |
| Anti-Shank1 and Shank3, NeuroMab clone N367/51 |
| Anti-Shank2/ProSAP1/Spank-3/CortBP1 scaffold protein,NeuroMab clone N23B/6 |
| Anti-Shank3 scaffold protein, NeuroMab clone N69/46 |
| Anti-Shank3, NeuroMab clone N367/62 |
| Anti-SK2 potassium channel, NeuroMab clone K78/29 |
| Anti-Slo1/BKAlpha potassium channel, NeuroMab clone L6/23 |
| Anti-Slo1/BKAlpha potassium channel, NeuroMab clone L6/48 |
| Anti-Slo1/BKAlpha potassium channel, NeuroMab clone L6/60 |
| Anti-Snapin (SNAP25 binding protein), NeuroMab clone L8/15 |
| Anti-SNAT1 Neurotransmitter Transporter NeuroMab clone N104/37 |
| Anti-SNAT1 Neurotransmitter Transporter NeuroMab clone N104/32 |
| Anti-SST/Somatostatin, NeuroMab clone L111/118 |
| Anti-S-tag, NeuroMab clone N56/9 |
| Anti-Stonin-2, NeuroMab clone N346/9 |
| Anti-SUR1, NeuroMab clone N289/16 |
| Anti-SUR1 and SUR2B, NeuroMab clone N323A/31 |
| Anti-SUR2A, NeuroMab clone N319A/14 |
| Anti-SUR2B, NeuroMab clone N323B/20 |
| Anti-SVOP, NeuroMab clone N356/9 |
| Anti-SVOP, NeuroMab clone N356/23 |
| Anti-Synapsin-III, NeuroMab clone L125/121 |
| Anti-Synaptotagmin-10, NeuroMab clone N269/73 |
| Anti-Synaptotagmin-12, NeuroMab clone N277/7 |
| Anti-Synaptotagmin-3, NeuroMab clone N278/19 |
| Anti-Synaptotagmin-5, NeuroMab clone N274/8 |
| Anti-Synaptotagmin-6, NeuroMab clone N270/47 |
| Anti-Synaptotagmin-7, NeuroMab clone N275/14 |
| Anti-Synaptotagmin-9, NeuroMab clone N276A/15 |
| Anti-SynCAM1 cell adhesion molecule, NeuroMab clone L45/30 |
| Anti-SynCAM4, NeuroMab clone N244/5 |
| Anti-SynDIG1/Tmem90b, NeuroMab clone L42/17 |
| Anti-SynDIG3/Tmem91, NeuroMab clone N160/21 |
| Anti-SynDIG4, NeuroMab clone L102/45 |
| Anti-Tafazzin, NeuroMab clone N173B/13 |
| Anti-TALK1 potassium channel, NeuroMab clone N466/14 |
| Anti-TARPGamma2/Stargazin, NeuroMab clone N245/1 |
| Anti-TARPGamma2/4/8, NeuroMab clone N245/36 |
| Anti-TASK1 potassium channel, NeuroMab clone N374/48 |
| Anti-Tauro-GM2, NeuroMab clone N175/9 |
| Anti-THAP1, NeuroMab clone N325B/65 |
| Anti-THIK-2 potassium channel, NeuroMab clone N468/37 |
| Anti-Thioredoxin, NeuroMab clone N245/44 |
| Anti-Thorase (Atad1), NeuroMab clone N125/10 |
| Anti-Thyroid hormone receptor beta1, NeuroMab clone N402/13 |
| Anti-Thyroid hormone receptor beta1, NeuroMab clone N402/46 |
| Anti- TRAAK potassium channel, NeuroMab clone N445/27 |
| Anti-TRAK1, NeuroMab clone N389/9 |
| Anti-TRAK2, NeuroMab clone N390/43 |
| Anti-TRESK potassium channel, NeuroMab clone N467/1 |
| Anti-TRIP8b (constant), NeuroMab clone N212/7 |
| Anti-TRIP8b (constant), NeuroMab clone N212/17 |
| Anti-TRIP8b (exon 1a/5 junction), NeuroMab clone N291C/22 |
| Anti-TRIP8b (exon 1b), NeuroMab clone N212A/34 |
| Anti-TRIP8b (exon 4), NeuroMab clone N212/3 |
| Anti-TrpC1 calcium channel, NeuroMab clone 1F1 |
| Anti-TrpC4 calcium channel, NeuroMab clone N77/15 |
| Anti-TrpC5 calcium channel, NeuroMab clone N67/15 |
| Anti-TrpC7 calcium channel, NeuroMab clone N64A/36 |
| Anti-TrpM4, NeuroMab clone L88/86 |
| Anti-TrpM6, NeuroMab clone N470/22 |
| Anti-TrpM7 ion channel and Ser/Thr kinase, NeuroMab clone N74/25 |
| Anti-TRPML3/Mucolipin-3, NeuroMab clone N268/19 |
| Anti-TrpV1, NeuroMab clone N221/17 |
| Anti-TrpV1, NeuroMab clone N221/12 |
| Anti-TrpV3 cation channel, NeuroMab clone N15/4 |
| Anti-TrpV3 cation channel, NeuroMab clone N15/39 |
| Anti-TWIK-2 potassium channel, NeuroMab clone N469/28 |
| Anti-Uncx, NeuroMab clone N155/9 |
| Anti-VAChT vesicular acetylcholine transporter, NeuroMab clone N6/38 |
| Anti-VAChT, NeuroMab clone N425/45 |
| Anti-VAPA, NeuroMab clone N479/12 |
| Anti-VAPA, NeuroMab clone N479/22 |
| Anti-VAPA/B, NeuroMab clone N479/107 |
| Anti-VDAC1, NeuroMab clone N152B/23 |
| Anti-Versican, NeuroMab clone N351/23 |
| Anti-Versican, NeuroMab clone N351/24 |
| Anti-VGAT, NeuroMab clone L118/80 |
| Anti-VGAT, NeuroMab clone L118/66 |
| Anti-VGlut1, NeuroMab clone N28/9 |
| Anti-VGlut2, NeuroMab clone N29/29 |
| Anti-VGlut3, NeuroMab clone N34/34 |
| Anti-VIP, NeuroMab clone L108/92 |
| Anti-VMAT1, NeuroMab clone N440/21 |
| Anti-VMAT1, NeuroMab clone N440/61 |
| Anti-Slc18a2/VMAT2, NeuroMab clone N449/73 |
| Anti-Zebrafish VSP/TPTE, NeuroMab clone N432/21 |
| Anti-Zebrafish VSP/TPTE, NeuroMab clone N432/63 |
| Anti-WAVE1/SCAR, NeuroMab clone K91/36 |
| Anti-WNK1, NeuroMab clone N391/68 |
| Anti-WRN, NeuroMab clone N428/12 |
| Zebrafish PSD Marker, NeuroMab clone N286/74 |
| Anti-Zinedin/Striatin-4, NeuroMab clone K88/64 |
| Anti-ZIP3, NeuroMab clone N476/9 |
| Anti-ZNF423, NeuroMab clone N328B/37 |

Milenia Biotec为全世界生物医药、诊断企业和研究机构提供高品质的免疫诊断试剂盒。
Milenia Biotec offers immunodiagnostic kits, that are distributed worldwide from our headquarters in Giessen. Our test systems help to carefully and rapidly diagnose various diseases. The results are the basis for medical doctors to do a targeted therapeutic approach. Therefore unneccessary therapies or hospital admissions can be saved and patients can be more comfortable.
Our tests are very simple to run and they can be done at every location. For the calculation of results only minimal equipment is required. For instance, the "PolyCheck" products are read on a standard flat bed scanner. The lateral flow technology, on which our "QuickLine" Assays are based, even allows testing without any instrumentation!
Milenia Biotec公司的产品主要有:
产品名称 | 产品编号 | 产品描述 |
Acanthocheilonema viteae (OWN) - IgG Antibodies | AF 9400 | Item number: AF 9400 |
HAMA | MQHM Z | Item number: MQHM Z |
HIT | MQHIT Z; MQHIT 1 | Item number; MQHIT Z; MQHIT 1 |
HIT Positive Control | MQCOHIT 1 | Item Number: MQCOHIT 1 |
IL-6 | MQL6 1 | Item number: MQL6 1 |
IL-6 Control | MQCO6 1 | Item Number: MQCO6 1 |
Aspergillus fumigatus - IgG Antibodies | AF 6100 | Item number: AF 6100 |
Echinococcus multilocularis Em2 - Em18 Antibodies IgG | AF 9300 | Item number: AF 9300 |
Echinococcus multilocularis Em18 Antibodies IgG | AF 9310 | Item number: AF 9310 |
Echinococcus granulosus (dog tapeworm) - IgG Antibodies | AF 9350 | Item number: AF 9350 |
Leishmania infantum - IgG Antibodies | AF 9500 | Item number: AF 9500 |
Entamoeba histolytica - IgG Antibodies | AF 9550 | Item number: AF 9550 |
Microsporidia | AF 8100 | Item number: AF 8100 |
Schistosoma mansoni IgG | AF 9600 | Item number: AF 9600 |
Enzyme immunoassay in microplate format with 12 x 8 strips | AF 9450 | Item number: AF 9450 |
Toxocara canis (roundworm) - IgG Antibodies | AF 9200 | Item number: AF 9200 |
Milenia® GenLine Universal modul | MGUP 1 | Item number: MGUP 1 |
Milenia® GenLine Lactobacillus/Pediococcus Screen | MGScLP 1 | Item number: MGScLP 1 |
Milenia® GenLine Megasphaera/Pectinatus Screen | MGScMP 1 | Item number: MGScMP 1 |
Milenia® GenLine Lactobacillus brevis | MGLBR Z | Item number: MGLBR Z |
Milenia® GenLine Hop Resistance Screen Kit | MGHOR 1 | Item number: MGHOR 1 |
HybriDetect | MGHD 1 | Item number: MGHD 1 |
HybriDetect 2T | MGHD2 1 | Item number: MGHD2 1 |
Milenia® Mouse Immunoglobulins-universal module | MQUM 1 | Item number: MQUM 1 |
Milenia® Mouse IgG1 | MQSBG1 | Item number: MQSBG1 |
Milenia® Mouse IgG2a | MQSBG2A | Item number: MQSBG2A |
Milenia® Mouse IgG2b | MQSBG2B | Item number: MQSBG2B |
Milenia® Mouse IgG2c | MQSBG2C | Item number: MQSBG2C |
Milenia® Mouse IgG3 | MQSBG3 |
|
Milenia® Mouse IgM | MQSBM | Item number: MQSBM |
Milenia® Mouse IgA | MQSBA | Item number: MQSBA |
Milenia® Mouse kappa | MQSBKLC | Item number: MQSBKLC |
Milenia® Mouse lambda | MQSBLLC | Item number: MQSBLLC |
Milenia® GenLine Alicyclobacillus Screen | MGScACB 1 | Item number: MGScACB 1 |
Milenia® GenLine Alicyclobacillus acidoterrestris / Guajacol | MGAaG Z | Item number: MGAaG Z |
Milenia® GenLine Extraction buffer | MGEXBA | Item number: MGEXBA |
Milenia® GenLine Swab Detection Buffer | MGSDB | Item number: MGSDB |
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

OZ Biosciences是一家法国的新兴生物技术公司,其成立宗旨是帮助药物公司研发和生产新型的药物导入系统。研究方向主要集中在生物活性材料导入活体组织新技术的研发,2005年该技术研发获得了突破性进展,已经申请了多项国际专利。
OZ Biosciences公司的创办者是分子导入系统的国际权威,在此领域享有极高的声望。研发目标是建立新一代的核酸、蛋白、多肽和其它生物分子的转染导入系统,为广大科研工作者服务。该公司与许多国际知名企业、大学和科研机构有合作往来。OZ Biosciences公司产品极具特色,主打产品是基于纳米技术和生物技术的基础上发展起来的磁转染试剂,相对常规商业化转染试剂,其转染效率更高。
Since 2003, OZ Biosciences creates, develops and produces innovative molecular delivery systems specialized in transfection and transduction tools, for the worldwide scientific community and pharmaceutical industry. OZ Biosciences is focused on delivery technologies of biomolecules such as DNA, RNA and protein for in vitro and in vivo applications.
These past years, the life sciences have gone through a technological revolution. The progress achieved in genomic, functional genomic and proteomic areas has created fabulous opportunities for better understanding of basic biological processes and for the development of the next generation of medicines.
OZ Biosciences公司主要产品线:
(1)Magnetofection™: a unique gene delivery method for in vitro and in vivo applications.
(2)Lipofection: proprietary biodegradable lipid-based transfection reagents.
(3)Transduction tools: for producing, concentrating, storing and enhancing virus efficiency.
(4)3D transfection: allowing nucleic acid delivery directly into 3D matrix.
(5)Protein delivery systems: including antibody & based on biodegradable lipid nanoparticles.
(6)Cell specific reagents: For specific cells such as neurons and stem cells.
(7)Vaccine Adjuvants: Standard & novel adjuvants for antigenic & genetic immunization
<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
<艾美捷科技代理MicroFIT品牌全系列产品
MicroFIT是一家在生物/医疗领域具有显著影响力的企业,专注于基于模拟人体环境和组织的平台技术,致力于为生物医疗领域提供创新的产品和服务。公司以成为“基于Bio-Convergence技术的仿生平台领先企业”为目标,不断探索和研发,旨在成长为一家提供个性化医疗所需仿生平台的全球性公司。

▍MicroFIT产品线
● StemFIT 3D-Plastic系列
StemFIT 3D-Plastic系列产品采用PS(聚苯乙烯)材料设计,融合了多种实用功能,旨在使大规模3D细胞培养变得更加容易、高效和经济。能广泛应用于再生医学、精准医疗、疾病建模、发育生物学、毒物学、宿主-微生物组相互作用、药物发现和基因编辑等多个领域。
| 型号 | H389600P-6 孔 | H389600P-单人 |
| 材料 | 聚苯乙烯 | 聚苯乙烯 |
| 特征 | 大规模培养, 经济实惠,易于移液, 疏水性 | 大众培养, 经济实惠,易于移液, 疏水性 |
| 井数量 | 每个 2,334 | 389 个 |
| 井径 | 600 微米 | 600 微米 |
| 单元格数量 | ≥ 1.2 x 106 | ≥ 1.2 x 106 |
| 细胞接种培养基的体积 | 1 毫升 | 1 毫升 |
| 细胞培养基体积 | 3 ~ 8 毫升 | 3 毫升 |
| 包装 | 3 包/箱 | 20 个 EA/CS,40 个 EA/CS |
● StemFIT 3D®
StemFIT 3D®是一款创新性的三维细胞培养板,带有凹形微孔的微孔板,其核心原理在于利用这些微孔将孔内的细胞浓缩,进而培养细胞聚集体。使细胞能够在三维空间内相互作用,更好地模拟了体内细胞的生长环境。StemFIT 3D®在三个维度上形成细胞聚集体,允许细胞向各个方向生长并与周围环境相互作用,通过扩散和传递为细胞提供营养、氧气和药物,从而提供更接近生物体真实情况的仿生环境。
| 型号 | 井型 | 井数 | 井径 | 细胞数量 | 播种培养基体积 | 总培养基体积 |
| H1613200 | Hexagon | 1613 | 200 μm | ≥ 6.0 x 105 | 500 μl | 1 ml |
| H853400 | Hexagon | 853 | 400 μm | ≥ 1.2 x 106 | 1 ml | 1.5 ml |
| H389600L/H389600H | Hexagon | 389 | 600 μm | ≥ 1.2 x 106 | 1 ml | H389600L-1.3 ml;H389600H-1.7 ml |
| H449800 | Hexagon | 449 | 800 μm | ≥ 2.4 x 106 | 1 ml | 4 ml |
| H2951000 | Hexagon | 295 | 1000 μm | ≥ 2.4 x 106 | 2 ml | 4 ml |
| C100600 | Circle | 100 | 600 μm | ≥ 6.0 x 105 | 2 ml | 700 μl |
| C163000 | Circle | 16 | 3,000 μm | 2.5 x 105 / well | 20 μl / well | 5 ml |
| C253000 | Circle | 25 | 3,000 μm | 2.5 x 105 / well | 20 μl / well | 3 ml |
● NanoFIT 3D®系列
NanoFIT 3D®系列细胞培养板通过实现线或柱结构的均匀纳米图案来提供仿生界面。这种独特的纳米拓扑结构能够模拟细胞外环境,允许科研人员通过诱导细胞调整其形态和排列,从而更精准地控制和分析特定细胞的反应。它有可能基于纳米图案最大限度地维持和分化细胞,在体内提供类似于ECM(细胞外基质)的环境,使细胞的形态和功能更接近体内真实状态。能维持细胞干性与分化;调节特定细胞靶向;多样化培养形式并且拥有专利技术保障。
| Type | Pattern | Size | Cat. No. |
| Sheet (Polydimethylsiloxane) | Line | 250 nm | N-Line250S |
| Sheet (Polydimethylsiloxane) | Line | 400 nm | N-Line400S |
| Sheet (Polydimethylsiloxane) | Post | 250 nm | N-Post250S |
| Sheet (Polydimethylsiloxane) | Post | 400 nm | N-Post400S |
| Sheet (Polydimethylsiloxane) | Flat | 250 nm | N-Flat250S |
| Sheet (Polydimethylsiloxane) | Flat | 400 nm | N-Flat400S |
| Dish (Polystyrene) | Line | 400 nm | N-Line400P |
● 微珠芯片
微珠芯片是一种专为大规模生产微型珠子而设计的微流控装置。它采用先进的材料和工艺制造,旨在利用胶原蛋白、PEGDA、PLGA等多种水凝胶材料,实现高效、精准的大规模微粒生产。具有卓越的耐化学性;精密的珠子生产能力;材料坚固耐用且可重用。
● PDMS膜
PDMS膜,即聚二甲基硅氧烷膜,作为应用最为广泛的硅基有机聚合物之一,、PDMS膜具有柔软弹性,能够轻松实现大幅度的拉伸变形,且在拉伸过程中仍能保持较好的物理性能和稳定性;具备超薄膜的结构特点,厚度可以做到极薄,在保证基本功能的前提下,最大程度地减少材料的使用和空间的占用;拥有良好的透气性,它允许气体分子自由通过,在生物相容性应用中,能为细胞提供适宜的气体交换环境,促进细胞的生长和代谢;在微流体装置等应用里,也能保证气体的顺畅流通,维持系统的稳定运行;拥有优异的光学透明性,几乎不会对光线的传播产生干扰;对生物组织无毒无害,不会引发明显的免疫反应,可安全地应用于生物医学领域。
<| Material | Diameter | Thickness |
| PDMS | 50 mm / 1.97 inch | 10 μm |
| PDMS | 50 mm / 1.97 inch | 30 μm |
| PDMS | 50 mm / 1.97 inch | 50 μm |
● PDMS定位
PDMS(聚二甲基硅氧烷)作为一种硅基弹性体,拥有高光学透明度,能让研究人员清晰地观察芯片内发生的微观反应和现象;化学稳定性极佳,可在各种化学环境下保持性能稳定;出色的变形性使其能够适应不同的实验需求和操作条件;优异的生物相容性则为生物样本的研究提供了安全可靠的环境。PDMS片上实验室采用了世界领先的PDMS LOC(Lab - on - a - Chip)技术。这项技术实现了在微米尺度上构建具有卓越成型性的纳米·微结构,将复杂的实验室功能集成到一个小小的芯片之上。
● SU-8微型模具
SU-8微型模具是一种感光聚合物模具,专门用于芯片实验室的微图案铸造。它采用环氧树脂基负光刻胶SU-8作为主要材料,通过精密的光刻工艺在晶圆上制造出微图案。相较于其他模具材料,SU-8微型模具的生产速度更快。该模具的高度可高达1,000μm,能够满足制造具有较大高度微结构的需求。这种模具在微流控芯片、生物传感器、微机电系统(MEMS)等领域的生产制造中发挥着重要作用。
| 通道高度 | 晶圆尺寸 | 层 |
| 100 μm 以下 | 4英寸 | 1层 |
| 100 μm 以下 | 6英寸 | 1层 |
| 110 - 200 微米 | 4英寸 | 1层 |
| 110 - 200 微米 | 6英寸 | 1层 |
| 210 - 300 微米 | 4英寸 | 2 层 |
| 310 - 500 微米 | 4英寸 | 超过 2 层 |
| 510 - 800 微米 | 4英寸 | 超过 3 层 |
● 晶圆厂工艺
在半导体产业飞速发展的今天,高效、精准且可靠的制造服务至关重要。MicroFIT凭借其专业的技术和丰富的经验,提供一站式的半导体制造服务,采用分布式外包流程,为客户解决各种制造难题。包括以下服务:
● 光刻:将精心设计的图案精准转移到晶圆上,这是半导体制造的关键起始步骤,为后续的工艺奠定基础,确保图案的高精度和准确性。
● 镀膜:通过各种工艺使金属、聚合物等材料以薄膜形式均匀沉积在硅衬底上,为芯片提供必要的功能层和保护层,增强芯片的性能和稳定性。
● 蚀刻:精确去除必要电路图案外的其余部分,可选择干蚀刻或湿蚀刻方法,以实现对材料的精细加工,塑造出所需的微纳结构。
● 粘接:在半导体制造中,用于将芯片与基板牢固粘合;在微流控器件制造里,用于通道形成后的处理,确保器件各部分之间的可靠连接和密封性。
● 切割:把在半导体晶片加工中制造的器件在图案形成后分离成一定的尺寸,为后续的封装和测试等步骤做准备。
● CMP(化学机械抛光):通过化学和物理过程的结合,对晶圆或玻璃基板进行抛光压平,使表面达到极高的平整度,满足半导体器件制造的严格要求。
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美国国家标准与技术研究院(National Institute of Standards and Technology,NIST),从事物理、生物和工程方面的基础和应用研究,以及测量技术和测试方法方面的研究,提供标准、标准参考数据及有关服务,在国际上享有声誉。
The National Institute of Standards and Technology (NIST) is a physical sciences laboratory, and a non-regulatory agency of the United States Department of Commerce. Its mission is to promote innovation and industrial competitiveness. NIST's activities are organized into laboratory programs that include nanoscale science and technology, engineering, information technology, neutron research, material measurement, and physical measurement.
NIST的主要产品和服务包括:
(1)STANDARDS AND MEASUREMENTS
Calibration Services
Laboratory Accreditation (NVLAP)
Quality System
Standard Reference Materials (SRMs)
Standards.gov
Time Services
Office of Weights and Measures
(2)SOFTWARE
(3)DATA
Chemistry WebBook
National Vulnerability Database
Physical Reference Data
Standard Reference Data (SRD)
(4)COMPUTER SECURITY RESOURCE CENTER (CSRC)
(5)LICENSE & PATENTS
(6)NIST RESEARCH LIBRARY
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