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:18995651644
邮箱:sales@amyjet.com

ViroStat于1985年,由Douglas McAllister博士创立,致力于为研究者和工业界提供传染性疾病的抗体产品。产品线涵盖病毒学、细菌学和寄生虫学,应用于呼吸道药、性病药、胃肠药/毒素和食源性致病菌的检测。ViroStat拥有超过500种传染性疾病相关的试剂,其中包括MONOTOPE系列单克隆抗体、PMNITOPE多克隆抗体和数量众多的重组蛋白抗原。基于长期的经验积累,ViroStat能够提供从100ug到10g级别的产品。
ViroStat was founded in 1985 by Dr. Douglas McAllister to provide infectious disease antibody tools to researchers and manufacturers. These include the areas of virology, bacteriology and parasitology. Applications for these include detection of respiratory agents, STD agents, gastrointestinal agents/toxins and food borne pathogens.
The company offers more than 500 infectious disease reagents including their MONOTOPE™ monoclonal antibodies, OMNITOPE™ polyclonal antibodies and numerous recombinant antigens. Many of these antibodies are used by manufacturers of rapid, point of care tests currently made and sold in the US.
ViroStat公司产品包括:
MONOTOPE™ - Monoclonal Antibodies (Mouse) 小鼠单克隆抗体
RABMAB® - Monoclonal Antibodies (Rabbit) 兔单克隆抗体
OMNITOPE™ - Polyclonal Antibodies多克隆抗体
RECOMBINANT ANTIGENS 重组抗原
<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Akina品牌全系列产品
Akina, Inc. 于2001年成立,是一家具有多年经营历史的公司,PolyScitech作为其旗下部门,依托公司的资源和平台开展业务。由Kinam Park博士创立,他是普渡大学生物医学工程与药剂学教授。Kinam Park博士在相关学术领域具有深厚的造诣和丰富的经验,这为PolyScitech部门在技术研发和专业方向上提供了坚实的学术支持和引领。Akina公司的产品线包括:PolySciTech Polymers、PURASORB® Polymers、Viatel™m Polymers、VIVOS™ PLGA-g-PEG、PLGA/PLA Standards、NuPlonTm、AquaGel@ Hydrogels、PET Prepolymer、Flamma Fluor Fluorescent Dyes、Kitopure Chitosan、3DCellMaker。
Akinalytics作为Akina, Inc.的部门,专门从事控释药物输送系统以及可生物降解聚合物及其制药/生物医学应用。提供快速周转和具有竞争力的价格的样品分析,包括FTIR分光光度法、紫外/可见分光光度法、GPC、调制差示扫描量热法、流变分析、机械/纹理分析、光学分析等。

▍Akina公司产品线
● PolySciTech Polymers:提供各种类型的聚合物产品,广泛应用于科研和工业领域
● PURASORB® Polymers:由于Corbion和Akina, Inc. (PolySciTech) 之间的分销关系,Purasorb®聚合物现作为研究产品提供,简化开发项目。用于长效注射剂、医疗器械等,为GMP制造的产品提供临床转化的直接途径。
● Viatel™ Polymers:精选开发产品,得益于Ashland和Akina, Inc. (PolySciTech) 之间的分销关系。无最低订购量要求,购买时间快,便利开发需求。
● VIVOS™ PLGA-g-PEG:使用聚丙交酯-乙醇共聚酯-接枝-聚乙二醇组成的快速溶解、可生物降解的热凝胶输送活性药物。由Vivos, Inc.和Akina, Inc.合作开发,简化药物递送开发。
产品应用:这些聚合物产品具有多种应用,包括但不限于阴离子药物/核酸衍生物的递送;纳米通道和纳米孔的形成;形成“隐形”聚乙二醇化微粒;聚合物混合物的塑化(不溶性);用于改性/交联的短链树脂;热凝胶化;药物的水溶性
▍Akina部分产品列表
<| 货号 | 品名 | 规格 | Mw |
| AK001 | Methoxy poly(ethylene glycol)-b-poly(caprolactone) | 5g;10g;25g | ~2,000:5,200 Da |
| AK002 | Methoxy poly(ethylene glycol)-b-poly(lactide-co-glycolide) | 5g;10g;25g | ~2,000:4,110 Da |
| AK003 | Methoxy poly(ethylene glycol)-b-poly(L-lactide) | 5g;10g;25g | ~2,000:1,700 Da |
| AK004 | Methoxy poly(ethylene glycol)-b-poly(L-lactide) | 5g;10g;25g | ~2,000:5,000 Da |
| AK005 | Methoxy poly(ethylene glycol)-b-poly(L-lactide) | 5g;10g;25g | ~2,000:10,000 Da |
| AK006 | Methoxy poly(ethylene glycol)-b-poly(L-lactide) | 5g;10g;25g | ~750:5,600 Da |
| AK007 | Methoxy poly(ethylene glycol)-b-poly(L-lactide) | 5g;10g;25g | ~5,000:4,900 Da |
| AK008 | Poly(L-lactide)-b-poly(ethylene glycol)-b-poly(L-lactide) | 5g;10g;25g | ~2,400:2,000:2,400 Da |
| AK009 | Methoxy poly(ethylene glycol)-b-poly(D,L-lactide) | 5g;10g;25g | ~2,000:2,200 Da |
| AK010 | Methoxy poly(ethylene glycol)-b-poly(lactide-co-glycolide) | 5g;10g;25g | ~5,000:10,000 Da |
| AK011 | Poly(lactide-co-glycolide)-b-poly(ethylene glycol)-b-poly(lactide-co-glycolide) | 5g;10g;25g | ~1,600:1,000:1,600 Da |
| AK012 | Poly(lactide-co-glycolide)-b-poly(ethylene glycol)-b-poly(lactide-co-glycolide) | 5g;10g;25g | ~1,000:1,000:1,000 Da |
| AK013 | Poly(lactide-co-glycolide)-b-poly(ethylene glycol)-b-poly(lactide-co-glycolide) | 5g;10g;25g | ~2,000:400:2,000 Da |
| AK014 | Poly(lactide-co-glycolide)-b-poly(ethylene glycol)-b-poly(lactide-co-glycolide) | 5g;10g;25g | ~400:400:400 Da |
| AK015 | Poly(lactide-co-glycolide)-b-poly(ethylene glycol)-b-poly(lactide-co-glycolide) | 5g;10g;25g | ~5,000:1,000:5,000 Da |
| AK016 | Poly(lactide-co-glycolide)-b-poly(ethylene glycol)-b-poly(lactide-co-glycolide) | 5g;10g;25g | ~70,000:4,600:70,000 Da |
| AK019 | Poly(lactide-co-glycolide)-b-poly(ethylene glycol)-b-poly(lactide-co-glycolide) | 5g;10g;25g | ~1,500:1,500:1,500 Da |
| AK021 | Methoxy poly(ethylene glycol)-b-poly(D,L-lactide) | 5g;10g;25g | ~5,000:50,000 Da |
| AK023 | Methoxy poly(ethylene glycol)-b-poly(lactide-co-glycolide) | 5g;10g;25g | ~2,000:1,500 Da |
| AK024 | Poly(lactide-co-glycolide)-b-poly(ethylene glycol)-b-poly(lactide-co-glycolide) | 5g;10g;25g | ~1,100:1,000:1,100 Da |
| AK025 | Methoxy poly(ethylene glycol)-b-poly(L-lactide) | 5g;10g;25g | ~750:1,000 Da |
| AK026 | Methoxy poly(ethylene glycol)-b-poly(lactide-co-glycolide) | 5g;10g;25g | ~5,000:55,000 Da |
| AK027 | Methoxy poly(ethylene glycol)-b-poly(lactide-co-glycolide) | 5g;10g;25g | ~2,000:15,000 Da |
| AK028 | Poly(lactide-co-caprolactone)-b-poly(ethylene glycol)-b-poly(lactide-co-caprolactone) | 5g;10g;25g | ~5,700:4,600:5,700 Da |

艾美捷科技代理深圳鼎升(AcroGenic)全系列产品。
深圳鼎升生物科技有限公司成立于2022年7月29日,坐落在深圳光明区。公司专注于新一代合成生物材料研发及其在新兴生物医药领域中的应用,依托拥有中美自主专利的新型3D可调控高分
子合成生物材料 AccuraMatrix ®技术,实现产品化及市场化。
AcroGenic主营业务基于细胞三维培养和体内外模型平台建立及试剂耗材的生产,治疗性细胞的体外规模化生产及体内植入技术研究及市场化,合成生物平台的建立及合成产品的生产销售。
目前公司已设立北京、深圳和美国的研发及生产中心。
产品范围包括:
(1)AccuraMatrix®细胞外基质

人工合成的有机共聚大分子生物3D架构,能有效模拟细胞生长所需的稳定微环境。
拥有中美自主专利技术,可对架构的孔径大小、结构刚性等理化指标进行调节。
AccuraMatrix可根据培养细胞、细胞球、类器官及组织颗粒的培养需要,通过各类生物材料的不断开发和优化以达到在体外最大限度地模仿体内微环境从而实现多种人类干细胞及原代细胞的体外三维高密度大规模培养、扩增及体内外模型建立。AccuraMatrix细胞外基质产品有普适性强,生物安全性高,可植入性,低成本,高重复性和稳定批次质量。可用于干细胞生产,骨和软骨修复,人造腺体,细胞体内植入。
<<
(2)CTC体外培养试剂盒

肺癌循环肿瘤细胞培养试剂盒
肝癌循环肿瘤细胞培养试剂盒
肾癌循环肿瘤细胞培养试剂盒
胆管癌循环肿瘤细胞培养试剂盒
胰腺癌循环肿瘤细胞培养试剂盒
卵巢癌循环肿瘤细胞培养试剂盒
在AccuraMatrix系统可从外周血中体外培养、增殖,获得足够的数量的CTC,进行全面的分子与功能研究,如对肿瘤细胞与正常细胞物理特性差异的研究;对原发性肿瘤、CTC和转移灶进行基因表达谱的比较;对CTC不同表面标志物表达的研究;对CTC进行药物敏感度实验和建立动物转移模型等。有利于肿瘤患者早期诊断、辅助临床进行精确治疗、术后肿瘤复发与转移及预后评估等。

应用场景

AccuraMatrixCTC培养可用于肿瘤无创早诊、复发监测、用药指导。细胞外生物材料技术涵盖肿瘤早、中、晚全阶段,早期高危和高度怀疑患者的诊断(液体活检,基因诊断无法确诊),
CTC可以通过对肿瘤细胞的病历诊断做到无创确诊;支持低成本长期培养,可以帮助患者建立起抗药肿瘤模型,并提前筛选出药效药物,指导肿瘤复发治疗,利用CTC培养对治疗效果进
行评估,监测肿瘤复发;晚期病人获得肿瘤样品难, 通过CTC为病人寻找有效药物和药物组合。
另外,AccuraMatrix体外培养扩增后的CTC细胞团可用于动物模型构建,支持肿瘤新药研发、监测肿瘤复发、疗效评估和用药指导。
循环肿瘤细胞体外培养 的基质材料优化及其相关临床应用产品的研发,实现了高成功率循环肿瘤细胞体外培养,建立了世界唯一的循环肿瘤细胞动物体内种植方法,成功地利用循环肿
瘤细胞动物模型进行了体内抗癌药物评估。
目前,AccuraMatrix已完成部分癌种CTC扩增培养和蛋白鉴定。
(3)类器官培养试剂盒

依托生物基质材料在体外最大限度地模拟体内微环境,实现多种类器官快速构建,并支持类器官与免疫细胞长时间共培养。为抗癌新药研发和患者治疗方案的筛选提供高效、准确、高性价比的服务,为癌症基础研究提供不可或缺的体外 3D 肿瘤模型及动物模型。
<肺癌类器官培养试剂盒
肝癌类器官培养试剂盒
肾癌类器官培养试剂盒
胆管癌类器官培养试剂盒
胰腺癌类器官培养试剂盒
结直肠癌类器官培养试剂盒
尿道上皮癌类器官培养试剂盒
胃癌类器官培养试剂盒
卵巢癌类器官培养试剂盒
乳腺癌类器官培养试剂盒
恶性体腔积液类器官培养试剂盒
肝癌组织类器官培养试剂盒


(4)利用3D培养技术体外生产治疗性蛋白
针对生物合成中存在的某些问题,通过在细胞培养中应用不同的生物材料实现了对细胞培养微环境的调控,改变了细胞状态,实现了多种细胞的共同培养,更换表达细胞种类,从而解决了一定的技术瓶颈



艾美捷科技代理Hampton Research品牌产品。
Hampton Research是一家专注于蛋白质结晶和相关生命科学工具的公司,作为蛋白质结晶领域的重要供应商,Hampton Research提供广泛的产品和服务,帮助科学家在结构生物学、药物开发和生物化学研究中实现高质量的晶体生长,特别是在 X 射线晶体学和冷冻电镜(Cryo-EM)领域。Hampton Research公司主要产品类别包括:
(1)结晶筛选试剂盒
Crystal Screen™ 系列,提供多种结晶条件筛选试剂盒,适用于初步筛选和优化结晶条件。
Index™ 试剂盒,包含广泛的化学条件,用于快速筛选结晶条件。
SaltRx™ 试剂盒,专注于盐类结晶条件的筛选。
PEG/Ion™ 试剂盒,提供基于聚乙二醇(PEG)和离子溶液的结晶条件。
(2)结晶优化试剂
Additive Screen™,包含多种添加剂,用于优化晶体生长。
Crystal CryoProtection™ 试剂,用于保护晶体在低温条件下的完整性。
PEG 溶液和缓冲液,提供不同分子量和浓度的 PEG 溶液,用于结晶实验。
(3)结晶工具和设备
Crystallization Plates,提供多种规格的结晶板,如 24 孔、96 孔和 384 孔板,适用于高通量筛选。
CrystalCap™ 帽盖,用于密封结晶板,防止样品蒸发和污染。
CrystalMiner™ 机器人,自动化结晶实验设备,提高实验效率和一致性。
(4)蛋白质结晶相关试剂
Protein Stabilization Reagents,用于稳定蛋白质样品,提高结晶成功率。
Detergent Screen™,包含多种去污剂,用于膜蛋白结晶。
Nucleation Reagents,促进晶体成核,提高结晶效率。

艾美捷科技代理Pluriselect品牌。
PluriSelect Life Science是一家德国生物技术公司,为免疫学、基础科学和诊断领域的研究提供细胞和蛋白质分离优化产品。
Pluriselect细胞过滤器的特点:
1)提供种类繁多的细胞过滤器,几乎可以满足所有需求
2)是市场上细胞过滤器之一,具有许多附加功能,而大多数类似的基本细胞过滤器(如Falcon™或EASYstrainer™)都没有这些功能。
3)有19种网眼尺寸可供选择,适用于需要过滤和净化液体的各种实验室应用。
4)具有流量控制功能(与连接器环结合)的经济实惠的细胞过滤器系统的最佳选择
5)pluriStrainer®Mini是几乎所有反应管(15ml至1.5ml,24/48孔板)中最灵活的小型细胞过滤器配件
6)独特的设计可改善通风,避免堵塞,从而实现智能样品制备。
7)pluriStrainer®可堆叠,以允许使用不同的网目尺寸进行直接过滤,也可以倒置以回收筛分的材料,对于大样本量,它可以与漏斗结合使用。

Pluriselect细胞过滤器
1)消化乳腺组织和类器官后获得真正的单细胞悬浮液
2)使用pluriBead技术富集特定细胞
3)骨髓、胰腺、胸腺、淋巴结等血细胞的单细胞悬液的制备
4)细胞与其他原代组织的解离
5)流式细胞术用真实单细胞悬液的制备(FACS™)
6)纱布过滤的更快、更简单的替代品
7)复杂和粘性液体的筛分(与真空连接环和注射器结合使用)
8)细胞/细胞因子的短时间孵育(与pluriBead和连接环结合)
产品列表如下:
<| 品名 | 货号 | 规格 |
| pluriStrainer 100µm, PET-mesh, 50 pcs, sterile | 43-50100-51 | 50 pcs |
| pluriStrainer Mini, 10µm, 50pcs, 25pcs sterile in bag | 43-10010-50 | 50pcs |
| pluriStrainer 15µm, 25 pcs, sterile | 43-50015-03 | 25 pcs |
| pluriStrainer 20µm, 25 pcs, sterile | 43-50020-03 | 25 pcs |
| pluriStrainer 300µm, 25 pcs, sterile | 43-50300-03 | 25 pcs |
| pluriStrainer 500µm, 25 pcs, sterile | 43-50500-03 | 25 pcs |
| Funnel, 25 pcs, sterile | 42-50000-03 | 25 pcs |
| pluriStrainer 30µm, 25 pcs, sterile | 43-50030-03 | 25 pcs |
| pluriStrainer 400µm, 50 pcs - non-sterile | 43-50400-50 | 50 pcs |
| pluriStrainer Mini 8 µm (membrane, 5 pcs.), sterile | 46-10008-15 | 5 pcs |
| CD3 S-pluriBead anti-hu, 2ml | 19-00300-10 | 2ml |
| Centrifuge Tube 15 ml (sterile, 50 pcs.) | 05-00002-50 | 50 pcs |
| pluriSpin Human Monocyte Enrichment, 2ml | 19-01001-31 | 2ml |
| CD11a M-pluriBead anti-hu, 2ml | 19-011a0-20 | 2ml |
| Centrifuge Tube 50 ml (sterile, 300 pcs.) standing edge | 05-00004-01 | 300 pcs |
| pluriSpin Human T Cell Enrichment, 2ml | 19-02001-31 | 2ml |
| pluriSpin Human T Cell Depletion, 2ml | 19-02002-31 | 2ml |
| pluriSpin Human CD8+ T Cell Enrichment, 2ml | 19-04001-31 | 2ml |
| pluriSpin Human CD8+ Cell Depletion, 2ml | 19-04002-31 | 2ml |
| pluriSpin Human CD4? Cell Depletion, 2ml | 19-03002-31 | 2ml |

艾美捷科技代理Viagen Biotech品牌。
Molzym公司致力于提供先进的分子生物学工具和解决方案,以支持全球的研究人员、科学家和生物技术公司在生命科学研究、分子诊断和生物制药领域的工作。公司以其对产品质量的严格把控和对客户需求的深刻理解而受到客户的信赖。
Viagen Biotech致力于开发高质量的DNA提取系统和相关试剂,以支持全球的学术研究、生物技术和制药公司的研究工作。DirectPCR® DNA Extraction System(DirectPCR® DNA提取系统)在业界具有很高的口碑。Viagen Biotech公司的核心产品与技术为DirectPCR® DNA Extraction System:这是一种单管系统,用于从小鼠尾巴、耳片、卵黄囊和培养细胞内快速制备DNA。该系统消除了任何溶液转移或开管步骤,从根本上节省了时间和精力。DirectPCR®试剂不仅介导生物样品的快速溶解,还包含有效抑制原油裂解液的抑制活性的PCR抑制剂,同时最大限度地保持完整的基因组DNA的释放。Viagen Biotech公司其他相关产品包括蛋白酶K溶液、E-Prep DNA提取试剂等在内的多种分子生物学试剂;这些试剂广泛应用于分子生物学实验,特别是在DNA提取和纯化过程中。Viagen Biotech的产品适用于需要进行基因分型和遗传分析的实验室。DirectPCR®试剂特别适合于从小鼠等实验动物中提取DNA,用于发育生物学、遗传学研究等领域。
<<<<<< " data-original="http://icl.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="艾美捷科技代理Viagen Biotech品牌"> 艾美捷科技代理Viagen Biotech品牌
<艾美捷科技代理GenoSensor Corporation品牌全系列产品
GenoSensor Corporation是一家基因组技术公司,专注于为从事基因组研究和/或需要基因组解决方案的生命科学领域客户提供产品和服务。公司产品线包括:微RNA芯片、PCR/实时定量PCR(QPCR)试剂盒、基因组改变分析工具,DNA提取试剂盒以及临床应用的专用试剂盒及试剂。

▎GenoSensor Corporation产品线
● MicroRNA Expression Profiling
MicroRNA是约21个核苷酸(NT)的非编码小RNA,参与转录后调控,并在多种细胞和生物体中表达。GenoExplorer™ microRNA生物芯片和检测方法为研究microRNA表达及其谱分析提供了支持。microRNA芯片包括人、小鼠、大鼠、果蝇、秀丽隐杆线虫、拟南芥以及其他物种的芯片,GenoExplorer™微阵列以高重复性、高信噪比和高灵敏度为标志,展现出高品质性能。
| 货号 | 品名 | 产品描述 | 规格 |
| 1101C | GenoExplorer™ microRNA kit - human 4 | GenoExplorer™ microRNA chips, labeling reagent, hybridization buffer and washing solutions | 4 reactions |
| 1102C | GenoExplorer™ microRNA kit - human 20 | 20 reactions | |
| 1111C | GenoExplorer™ microRNA kit - mouse/rat 4 | 4 reactions | |
| 1112C | GenoExplorer™ microRNA kit - mouse/rat 20 | 20 reactions | |
| 1121C | GenoExplorer™ microRNA kit - C. elegans 4 | 4 reactions | |
| 1122C | GenoExplorer™ microRNA kit - C. elegans 20 | 20 reactions | |
| 1131C | GenoExplorer™ microRNA kit - Drosophila melanogaster 4 | 4 reactions | |
| 1132C | GenoExplorer™ microRNA kit - Drosophila melanogaster 20 | 20 reactions | |
| 1141C | GenoExplorer™ microRNA kit - Arabidopsis thaliana 4 | 4 reactions | |
| 1142C | GenoExplorer™ microRNA kit - Arabidopsis thaliana 20 | 20 reactions | |
| 1199 | GenoExplorer™ microRNA for other species | - | |
| 1301 | GenoExplorer™ microRNA array labeling kit | GenoExplorer™microRNA labeling kit | 20 reactions |
| 1302 | GenoExplorer™microRNA labeling kit is ONLY available with purchase of full kits | GenoExplorer™microRNA labeling kit is ONLY available with purchase of full kits | 4 reactions |
| 1201C | GenoExplorer™ microRNA cihp - human 4 | GenoExplorer™ microRNA chips and 2x hybridization buffer | 4 chips (4 arrays) |
| 1202C | GenoExplorer™ microRNA cihp - human 20 | 20 chips (20 arrays) | |
| 1211C | GenoExplorer™ microRNA cihp - mouse/rat 4 | 4 chips (4 arrays) | |
| 1212C | GenoExplorer™ microRNA chip - mouse/rat 20 | 20 chips (20 arrays) | |
| 1221C | GenoExplorer™ microRNA chip - C. elegans 4 | 4 chips (4 arrays) | |
| 1222C | GenoExplorer™ microRNA chip - C. elegans 20 | 20 chips (20 arrays) | |
| 1231C | GenoExplorer™ microRNA chip - Drosophila melanogaster 4 | 4 chips (4 arrays) | |
| 1232C | GenoExplorer™ microRNA chip - Drosophila melanogaster 20 | 20 chips (20 arrays) | |
| 1241C | GenoExplorer™ microRNA chip - Arabidopsis thaliana 4 | 4 chips (4 arrays) | |
| 1242C | GenoExplorer™ microRNA chip - Arabidopsis thaliana 20 | 20 chips (20 arrays) | |
| 1299 | GenoExplorer™ microRNA for other species | - | |
| 1401C | GenoExplorer™ microRNA probe set - human | 1 complete GenoExplorer™ microRNA probe set for human in 384-well plates | 500 pmol |
| 1411C | GenoExplorer™ microRNA probe set - mouse/rat | 1 complete GenoExplorer™ microRNA probe set for mouse in 384-well plates | 500 pmol |
| 1421C | GenoExplorer™ microRNA probe set - C. elegans | 1 complete GenoExplorer™ microRNA probe set for C. elegans in a 384-well plate | 500 pmol |
| 1431C | GenoExplorer™ microRNA probe set - Drosophila melanogaster | 1 complete GenoExplorer™ microRNA probe set for Drosophila melanogaster in a 384-well plate | 500 pmol |
| 1441C | GenoExplorer™ microRNA probe set - Arabidopsis thaliana | 1 complete GenoExplorer™ microRNA probe set for Arabidopsis thaliana in a 384-well plate | 500 pmol |
| 1499 | GenoExplorer™ microRNA for other species | 1 complete GenoExplorer™ microRNA probe set in 384-well plates | - |
| 1501 | 2x Hybridization buffer | 2x hybridization buffer with optimized salt and formamide | 5 x 1ml |
| 1502 | 2x printing buffer | 2x phosphate printing buffer pH 8.3 | 100 ml |
| 1503 | Blocking buffer | Blocking buffer (or Buffer S for GenoExplorer array kit) | 5 x 1ml |
| 1504 | Washing buffers | Washing buffer I and II (concentrated) | 120 and 50 ml |
● MicroRNA qRT-PCR Analysis
GenoExplorer™microRNA qRT-PCR试剂盒提供了一个简单且高灵敏度的工具,用于定量检测特定的miRNA。该试剂盒可测量miRNA的成熟形式或前体形式,或者同时测量两种形式。
<| 货号 | 品名 | 产品描述 | 规格 |
| 2001 | GenoExplorer™ miRNA qRT-PCR Kit-100 | Provides complete set for miRNA quantitation including first-strand cDNA synthesis and SYBR® Green I qPCR reagent mix. (primers not included, see Cat# 2003 and 2004) | 100 reactions |
| 2002-10 | GenoExplorer™ miRNA First-Strand cDNA Core Kit-10 | Provides necessary core components to generate miRNA first-strand cDNA for miRNA expression quantitation. | 10 reactions |
| 2002-50 | GenoExplorer™ miRNA First-Strand cDNA Core Kit-50 | 50 reactions | |
| 2003 | GenoExplorer™ miRNA qPCR Primer Sets | Provides specific primer pair for miRNA quantitation analysis (3µM each). Suggest to combine with GenoExplorer™ miRNA qRT-PCR Kit-100 (Cat# 2001) and reference primer sets (Cat# 2004). Refer miRBase for available genes and primers. | 100 µl |
| 2004 | GenoExplorer™ miRNA qPCR Reference Primer Sets | Reference primer as an internal control reference (3µM each). Suggest to combine with GenoExplorer™ miRNA qRT-PCR Kit-100 (Cat# 2001) and GenoExplorer™ miRNA qPCR Primer Sets (Cat# 2003).Selection of human-U6, human-U44, human-5SrRNA; mouse-U6, mouse-5SrRNA; rat-U6, rat-5SrRNA; Drosophila-U6 and 5SrRNA | 100 µl |
| 2005 | GenoExplorer™ 2X qPCR Mix | 2X SYBR® Green I qPCR mix, specifically for miRNA and small RNA amplification and quantification, containing all PCR reagents and polymerase | 750 µl |
● Gene Expression Profiling
GenoExplorer™ 基因表达谱分析生物芯片包括:针对选定基因及其可变剪接异构体的定制微阵列,涵盖人、小鼠、大鼠及其他物种的完整基因文库,以及用于表达研究的基因子集。
| 品名 | 产品描述 |
| GenoExplorer™ Human Genome Chips | Microarray contains 29K human microRNA sequences |
| GenoExplorer™ Human Functional Genomics Chips | Microarrays include the subsets of functional genes and ESTs, such as signal transduction, liver enzymes, etc. |
| Custom Chips | We will help you design your custom chips for the genes that you are interested in. |
● COVID-19检测试剂盒
GenoSensor开发了一种高灵敏度检测方法,利用实时逆转录聚合酶链反应(RT-PCR) 直接检测病毒基因组(RNA),具有操作简便和可实时检测得特点。
| 货号 | 品名 | 产品描述 | 规格 |
| 2702-22 | GS™ COVID-19 Real-Time PCR Kit - 30 | Provide all-in-one master mix including cDNA synthesis, PCR mix, primers and probe of each gene. | 22 samples |
| 2702-94 | GS™ COVID-19 Real-Time PCR Kit - 126 | 94 samples |
● QS™ DNA 提取试剂盒
QS™ DNA 提取试剂盒包含的试剂能够裂解细胞、使蛋白质变性,并保护核酸免受核酸酶和氧化作用的降解。该方法极其快速且简单,只需两步操作,即可从多种类型的组织和细胞中提取 DNA,提取的可直接用于 PCR 和测序分析,无需纯化步骤。
| 货号 | 品名 | 产品描述 | 规格 |
| QS8001 | QS™ DNA Extraction kit | Solution A (Lysis)100ml and Solution B (Balance) | 10ml |
▎GenoSensor Corporation提供的服务
● 基因组改变分析:包括多态性基因分型(如SNPs和STRs)、基因组结构分析、基因扩增与缺失分析以及基因组重排分析。
● 定制微阵列:根据提供探针化学物质,构建经过质量控制的阵列。临床应用:专门为癌症和心血管疾病开发和销售基因产品。
● 靶标制备:例如从组织、培养物和微生物中分离和纯化基因组DNA、质粒DNA和RNA。
● 靶基因扩增、定量和标记:提供基因扩增、产物定量和靶标标记服务。
● 测序:基因测序使用ABI测序系统进行。

艾美捷科技代理深圳鼎升(AcroGenic)全系列产品。
深圳鼎升生物科技有限公司成立于2022年7月29日,坐落在深圳光明区。公司专注于新一代合成生物材料研发及其在新兴生物医药领域中的应用,依托拥有中美自主专利的新型3D可调控高分
子合成生物材料 AccuraMatrix ®技术,实现产品化及市场化。
AcroGenic主营业务基于细胞三维培养和体内外模型平台建立及试剂耗材的生产,治疗性细胞的体外规模化生产及体内植入技术研究及市场化,合成生物平台的建立及合成产品的生产销售。
目前公司已设立北京、深圳和美国的研发及生产中心。
产品范围包括:
(1)AccuraMatrix®细胞外基质

人工合成的有机共聚大分子生物3D架构,能有效模拟细胞生长所需的稳定微环境。
拥有中美自主专利技术,可对架构的孔径大小、结构刚性等理化指标进行调节。
AccuraMatrix可根据培养细胞、细胞球、类器官及组织颗粒的培养需要,通过各类生物材料的不断开发和优化以达到在体外最大限度地模仿体内微环境从而实现多种人类干细胞及原代细胞的体外三维高密度大规模培养、扩增及体内外模型建立。AccuraMatrix细胞外基质产品有普适性强,生物安全性高,可植入性,低成本,高重复性和稳定批次质量。可用于干细胞生产,骨和软骨修复,人造腺体,细胞体内植入。
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(2)CTC体外培养试剂盒

肺癌循环肿瘤细胞培养试剂盒
肝癌循环肿瘤细胞培养试剂盒
肾癌循环肿瘤细胞培养试剂盒
胆管癌循环肿瘤细胞培养试剂盒
胰腺癌循环肿瘤细胞培养试剂盒
卵巢癌循环肿瘤细胞培养试剂盒
在AccuraMatrix系统可从外周血中体外培养、增殖,获得足够的数量的CTC,进行全面的分子与功能研究,如对肿瘤细胞与正常细胞物理特性差异的研究;对原发性肿瘤、CTC和转移灶进行基因表达谱的比较;对CTC不同表面标志物表达的研究;对CTC进行药物敏感度实验和建立动物转移模型等。有利于肿瘤患者早期诊断、辅助临床进行精确治疗、术后肿瘤复发与转移及预后评估等。

应用场景

AccuraMatrixCTC培养可用于肿瘤无创早诊、复发监测、用药指导。细胞外生物材料技术涵盖肿瘤早、中、晚全阶段,早期高危和高度怀疑患者的诊断(液体活检,基因诊断无法确诊),
CTC可以通过对肿瘤细胞的病历诊断做到无创确诊;支持低成本长期培养,可以帮助患者建立起抗药肿瘤模型,并提前筛选出药效药物,指导肿瘤复发治疗,利用CTC培养对治疗效果进
行评估,监测肿瘤复发;晚期病人获得肿瘤样品难, 通过CTC为病人寻找有效药物和药物组合。
另外,AccuraMatrix体外培养扩增后的CTC细胞团可用于动物模型构建,支持肿瘤新药研发、监测肿瘤复发、疗效评估和用药指导。
循环肿瘤细胞体外培养 的基质材料优化及其相关临床应用产品的研发,实现了高成功率循环肿瘤细胞体外培养,建立了世界唯一的循环肿瘤细胞动物体内种植方法,成功地利用循环肿
瘤细胞动物模型进行了体内抗癌药物评估。
目前,AccuraMatrix已完成部分癌种CTC扩增培养和蛋白鉴定。
(3)类器官培养试剂盒

依托生物基质材料在体外最大限度地模拟体内微环境,实现多种类器官快速构建,并支持类器官与免疫细胞长时间共培养。为抗癌新药研发和患者治疗方案的筛选提供高效、准确、高性价比的服务,为癌症基础研究提供不可或缺的体外 3D 肿瘤模型及动物模型。
<肺癌类器官培养试剂盒
肝癌类器官培养试剂盒
肾癌类器官培养试剂盒
胆管癌类器官培养试剂盒
胰腺癌类器官培养试剂盒
结直肠癌类器官培养试剂盒
尿道上皮癌类器官培养试剂盒
胃癌类器官培养试剂盒
卵巢癌类器官培养试剂盒
乳腺癌类器官培养试剂盒
恶性体腔积液类器官培养试剂盒
肝癌组织类器官培养试剂盒


(4)利用3D培养技术体外生产治疗性蛋白
针对生物合成中存在的某些问题,通过在细胞培养中应用不同的生物材料实现了对细胞培养微环境的调控,改变了细胞状态,实现了多种细胞的共同培养,更换表达细胞种类,从而解决了一定的技术瓶颈



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 |

艾美捷科技代理Zenogen Pharma品牌。
Zenogen Pharma公司主要研发生产治疗性抗体、疫苗佐剂及细胞冻存培养基
(1)治疗性抗体:
通过建立可有效生产特异性抗体和功能性抗体的技术平台,并将其扩展到新药以及其他产品和服务的开发,FZENOGEN公司为创造更好的药物和诊断药物做出了贡献。
(2)疫苗佐剂:
Zenogen Pharma公司开发了一种颗粒聚合物,能够大大增加免疫系统的激活。这种聚合物具有成功提高体液和细胞免疫力的能力,我们发现它具有发挥和安全使用效果的潜力。
(3)细胞冻存培养基:
CELLBANKER是一系列细胞冻存培养基,对于大多数细胞系,该培养基在解冻后可实现80%以上的细胞活力。
STEM-CELLBANKER® GMP grade 细胞冻存液
STEM-CELLBANKER® DMSO Free GMP grade 细胞冻存液
STEM-CELLBANKER® EX GMP grade 细胞冻存液
HSC-BANKER® GMP grade 细胞冻存液
CELLBANKER® 1 细胞冻存液
CELLBANKER® 2 细胞冻存液
CELLOTION® 细胞冻存液
< " data-original="http://icl.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="艾美捷科技代理Zenogen Pharma品牌"> 艾美捷科技代理Zenogen Pharma品牌地址: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:18372041646
邮箱:sales@amyjet.com
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