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:18372041646
传真:15172469628
邮箱:sales@amyjet.com

艾美捷科技代理Abliance品牌全系列产品
Abliance是一家法国的抗体制造商和服务提供商,由专家组成的团队,在细胞培养、蛋白质工程和质量控制方面拥有深厚专业知识,专注为体外诊断(IVD)及科研领域提供高合规性抗体解决方案,满足研究和诊断工业市场的抗体需求。
▍Abliance公司产品提供丰富可选择的抗体库
| 多物种来源 | 多特异性靶点 | 多样标记方式 | 多级适用品质 |
| anti-human Ig | anti-IgG, IgM, IgA | fluorescent | globulins |
| anti-mouse and rabbit Ig | anti-IgGAM | enzymatic | affinity purified antibodies |
| anti-goat, bovine, dog Ig ... | anti-Fc and Fab fragments | biotin | Fab and F(ab')2 fragments |
● Abliance的二抗产品为多克隆抗体,通过使用人或动物免疫球蛋白对实验动物(兔、山羊或绵羊)进行高效免疫后获得。收集的免疫血清除含有目标特异性抗体外,还包含非特异性抗体及血清杂蛋白。
● Globulins:经过系列非特异性纯化步骤(脱脂处理→硫酸铵沉淀→透析)后获得球蛋白组分,此中间产物适用于免疫沉淀技术。
● Affinity purified antibodies:随后通过亲和层析对抗体进行纯化,从而确保高特异性。此外,抗鼠/兔IgG(H+L)二抗需在装有人源IgA/IgG/IgM的凝胶层析柱上进行系统化吸附处理,确保其与人源IgA/IgG/IgM无交叉反应。
● Fragments:Abliance提供经酶切获得的F(ab')₂和Fab片段,适用于免疫组化/细胞学检测及流式细胞术等场景。相较于含Fc区的完整抗体,这些片段能显著降低非特异性结合。其更小的分子量可增强细胞和组织渗透性。
● Labeled antibodies:Abliance供应多样标记物复合体:球蛋白组分、纯化抗体及Fab/F(ab')₂片段,可与荧光染料(异硫氰酸荧光素)、酶类(过氧化物酶、碱性磷酸酶、β-半乳糖苷酶、葡萄糖氧化酶)及生物素进行偶联。

▍Abliance部分产品列表
| 货号 | 品名 | 规格 | Host | Antigen |
| BI 1014 | Anti-Human IgGAM Globulin | 4mg/2ml | Goat | Human IgGAM |
| BI 1015 | Anti-Human IgG (H+L) Globulin | 4mg/2ml | Goat | Human IgG (H+L) |
| BI 1016 | Anti-Human IgA (alpha) Globulin | 4mg/2ml | Goat | Human IgA (alpha) |
| BI 1018 | Anti-Human IgG (gamma) Globulin | 4mg/2ml | Goat | Human IgG (gamma) |
| BI 1019 | Anti-Human IgM (µ) Globulin | 4mg/2ml | Goat | Human IgM (µ) |
| BI 1025 | Anti-Human albumin Globulin | 4mg/2ml | Goat | Human albumin |
| BI 3014 | Anti-Human IgGAM Fab | 2mg/1ml | Goat | Human IgGAM |
| BI 3015 | Anti-Human IgG (H+L) Fab | 2mg/1ml | Goat | Human IgG (H+L) |
| BI 3016 | Anti-Human IgA (alpha) Fab | 2mg/1ml | Goat | Human IgA (alpha) |
| BI 3018 | Anti-Human IgG (gamma) Fab | 2mg/1ml | Goat | Human IgG (gamma) |
| BI 3019 | Anti-Human IgM (µ) Fab Goat | 2mg/1ml | Goat | Human IgM (µ) |
| BI 3025 | Anti-Human albumin Fab | 2mg/1ml | Goat | Human albumin |
| BI 4015 | Anti-Human IgG (H+L) F(ab')2 | 2mg/1ml | Goat | Human IgG (H+L) |
| BI 4016 | Anti-Human IgA (alpha) F(ab')2 | 2mg/1ml | Goat | Human IgA (alpha) |
| BI 4018 | Anti-Human IgG (gamma) F(ab')2 | 2mg/1ml | Goat | Human IgG (gamma) |
| BI 4019 | Anti-Human IgM (µ) F(ab')2 | 2mg/1ml | Goat | Human IgM (µ) |
| BI 4025 | Anti-Human albumin F(ab')2 | 2mg/1ml | Goat | Human albumin |
| BI 3414 | Anti-Human IgGAM Fab HRP | 1ml | Goat | Human IgGAM |
| BI 3415 | Anti-Human IgG (H+L) Fab HRP | 1ml | Goat | Human IgG (H+L) |
| BI 3416 | Anti-Human IgA (alpha) Fab HRP | 1ml | Goat | Human IgA (alpha) |
| BI 3418 | Anti-Human IgG (gamma) Fab HRP | 1ml | Goat | Human IgG (gamma) |
| BI 3419 | Anti-Human IgM (µ) Fab HRP | 1ml | Goat | Human IgM (µ) |
| BI 3425 | Anti-Human albumin Fab HRP | 1ml | Goat | Human albumin |
| BI 4414 | Anti-Human IgGAM F(ab')2 HRP | 1ml | Goat | Human IgGAM |
| BI 4415 | Anti-Human IgG (H+L) F(ab')2 HRP | 1ml | Goat | Human IgG (H+L) |
| BI 4419 | Anti-Human IgM (µ) F(ab')2 HRP | 1ml | Goat | Human IgM (µ) |
| BI 4425 | Anti-Human albumin F(ab')2 HRP | 1ml | Goat | Human albumin |

艾美捷科技代理Platypus Technologies品牌产品。
Platypus Technologies公司主要为生命科学领域提供:金属涂层基板、图案化基板和细胞迁移/侵袭检测解决方案。Platypus Technologies公司的产品在表面科学,金属涂层、细胞培养、
纳米技术、电化学以及化学和生物传感器方面都有应用。其愿景是通过应用表面科学为科学界开发工具和解决方案。产品包括:
(1)金属涂层基板:金属涂层基板经过精心设计,可确保在各种应用中的高性能,包括显微镜、光谱学和纳米技术研究。
(2)图案化基板:为先进的电子应用提供图案化电极,为研究者提供可靠性和精度保证。
(3)细胞迁移/侵袭检测:Oris平台由蛋白包被的96孔板组成,带有“塞子”屏障,可形成中央无细胞检测区,该平台用于研究细胞迁移或细胞侵袭。
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艾美捷科技代理Gene Tools品牌
Gene Tools是一家生产和销售Morpholino Anti-sense oligos(反义寡核苷酸)的公司,其产品专门用于基因调控的科学研究和药物开发。Gene Tools公司由多位资深科学家组成,为全球客户提供免费的技术咨询和Morpholino 序列设计服务。 Morpholino作为基因调控研究的最佳工具,已被广泛用于:阻断靶mRNA 翻译 (下调基因);诱导RNA选择性剪接 (下调或上调基因);阻断 miRNA;阻断病毒 RNA;阻断 non-coding RNA。
▍Morpholino介绍
Morpholino属于第三代反义寡核苷酸,主要通过阻断蛋白质翻译过程而达到抑制目标基因功能的作用,目前已经广泛用于发育生物学和细胞学实验中,并取得了非常好的实验效果。
Morpholino以吗啉环类似物为基本骨架,这种独特的结构特性使得Morpholino 具有以下几个特点:
● 与其他类型的反义寡核苷酸相比,Morpholino 能更好地抵抗核酸酶的作用;
● Morpholino 与靶序列结合后通过空间位阻效应发挥作用, 不激活RNaseH,不引起目标基因mRNA 的降解 ;
● 针对翻译起始位点区设计的Morpholino 用于抑制蛋白质的翻译,针对 pre-mRNA 剪切位点区设计的Morpholino 可影响mRNA 剪切,得到不 同的转录本,可以方便地用于目标基因结构域的突变研究;
● 与靶序列结合能力强,可以渗入mRNA 的二级结构, 并且特异性好。
配合Morpholino 的使用,Gene Tools公司开发了相应的递送系统,可以安全、高效地将Morpholino 输送至胞内,因此,Morpholino 也可以用于遗传学研究和新药靶标的发现以及验证。此外,Morpholino 可以标上荧光基团、亲和标签以及活性反应基团,以供不同的研究需要。

▍Gene Tools公司产品介绍
● Custom Morpholino:可以根据目标基因序列定制设计并合成Morpholino,用于体外细胞实验或某些直接显微注射的模型(如斑马鱼、非洲爪蟾胚胎)。
● Vivo-Morpholino:适用于活体动物模型(小鼠,大鼠,狗,灵长类等),细胞培养,器官培养等。通过特殊的末端修饰,提高了其穿透细胞膜进入组织细胞的能力,使得在成年动物(主要是小鼠、大鼠)中进行系统性基因功能研究成为可能。
● Prepared Control Oligos:根据特定需求合成细胞穿透肽偶联的 Morpholino。适用于活体动物模型(小鼠,大鼠,狗,灵长类等),细胞培养,器官培养等。
| 产品名称 | Short Description | Oligo sequence | SKU |
| Standard Control Oligo | Negative control oligo | CCTCTTACCTCAGTTACAATTTATA | PCO-StandardControl-100 |
| Vivo-Morpholino Standard Control Oligo | Negative Vivo-Morpholino control oligo | CCTCTTACCTCAGTTACAATTTATA | PCO-VivoStandardControl-100 |
| Random Control Oligo 25-N | 25-base random sequence mixture | NNNNNNNNNNNNNNNNNNNNNNNNN | PCO-RandomControl-25N-100 |
| Zebrafish p53 oligo | Danio rerio apoptosis suppression oligo | GCGCCATTGCTTTGCAAGAATTG | PCO-ZebrafishP53-100 |
| Zebrafish Chordin Positive Control Oligo | Danio rerio Chordin positive control oligo | ATCCACAGCAGCCCCTCCATCATCC | PCO-ZebrafishChordin-100-F |
| Clawed Frog Beta Catenin Positive Control Oligo | Xenopus laevis Beta Catenin antisense oligo | TTTCAACCGTTTCCAAAGAACCAGG | PCO-BetaCatenin-100-F |
| Green Fluorescent Protein Positive Control | Translation blocker for GFP target | ACAGCTCCTCGCCCTTGCTCACCAT | PCO-GFPControl-100 |
| Vivo-Morpholino GFP Positive Control | Translation blocker for GFP target (Vivo-Morpholino) | ACAGCTCCTCGCCCTTGCTCACCAT | PCO-VivoGFPControl-100 |
| Fluoresceinated Vivo-Morpholino Std Control | Negative Vivo-Morpholino control oligo with 5'Fluorescein | CCTCTTACCTCAGTTACAATTTATA | PCO-FluorVivoStandardControl-100-F |
● Endo-Porter:为了解决Morpholino在体外培养细胞中摄取效率低的问题,Gene Tools 开发了 Endo-Porter 这种特殊的转染试剂。它通过温和的内吞体逃逸机制帮助Morpholino进入细胞质。

艾美捷科技代理U-CyTech品牌。
U-CyTech公司开发、生产和销售各种用于人类、猴子和啮齿动物的创新细胞因子ELISA、ELISPOT和Fluorospot检测试剂。这些系统的试剂有两种不同的形式:完整的试剂盒和匹配的抗体对。
凭借一系列独有的、针对来自不同物种的大量细胞因子的高度特异性的单克隆和多克隆抗体,U-CyTech拥有高质量的ELISA和ELISPOT试剂盒。提供各种形式的ELISA、ELISPOT和FluoroSpot检测。
此外,U-CyTech公司开发了一系列针对不同物种的多种蛋白质的高度特异性单克隆抗体。U-CyTech可以通过细胞因子ELISA、B细胞和T细胞ELISPOT测定、FluoroSpot试剂盒及其单克隆抗体为世界
各地的研究人员提供帮助。
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艾美捷科技代理Mediomics品牌。
Mediomics提供学术研究实验室、即时检测、制药公司以及医疗和环境研究市场所需的创新检测试剂盒和生物传感器。这些快速简单的检测试剂盒将用于定量许多具有生物学和治疗意义的大分子,包括:DNA、生物标志物、激素、抗体、细胞内信号分子、蛋白质-蛋白质复合物、细菌、真菌和病毒。Mediomics 的平台技术已经适用于检测一系列重要的大分子,包括 cAMP、色氨酸、S-腺苷甲硫氨酸、PDE、生物素、胰岛素、C 肽、白蛋白、C 反应蛋白 (hCRP)、IgG、IgM、大肠杆菌等。Mediomics的平台技术将能够生成全新的生物材料,可用于检测开发和治疗产品的开发。
Mediomics 目前拥有四项核心专有技术:
(1)Bridge-It®,灵敏、快速混合和测量 DNA 结合蛋白检测平台;
(2)PINCER,®快速混合和测量生物传感器、生物测定和生物芯片平台;
(3)创新的专有方法,用于筛选和开发用于研究、诊断和治疗的新型高亲和力捕获试剂;
(4)抗血管生成相关疗法。
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艾美捷科技代理Protein Ark品牌产品。
Protein Ark公司提供全流程的样品制备产品、分离试剂盒和定制服务,以协助用户开展从克隆到蛋白质以及从肽到抗体的研究。
产品范围包括:
(1)DNA电泳:Elite DNA分子量标准,Elite琼脂糖片;
(2)蛋白表达试剂:培养基优化试剂盒™,Dream™ Overnight SelenoMet Expression Media,IPTG,TCEP;
(3)蛋白纯化缓冲液:缓冲液,标准裂解、结合、洗涤和洗脱缓冲液,FLAG肽;
(4)亲和层析填料:用于抗体纯化的蛋白A和蛋白G,固定化金属亲和层析(IMAC),Fastback Ni Advance填料,GST和肝素亲和层析填料;
(5)IEX层析树脂:离子交换树脂;
(6)HIC层析填料:HIC培养基通常在中高盐浓度下结合;
(7)活化层析填料:具有多种偶联化学成分的各种活化培养基,可高效、快速、轻松、安全地固定各种功能配体;
(8)Annex病毒纯化层析填料:Annex VP系列层析介质具有薄的多孔惰性外壳,可排除分子量分别为>5000kDa、>700kDa、>400kDa的分子;
(9)内毒素清除树脂:用于去除特定内毒素的NoEndo™树脂,NoEndoTM试剂盒;
(10)Proteus离心柱试剂盒:Proteus蛋白A和G、Ni-IMAC试剂盒;
(11)Proteus洗涤剂交换迷你离心柱;
(12)预填充色谱柱:HiFliQ FPLC色谱柱;
(13)定制色谱柱填料:色谱柱硬件足够坚固,可进行多次使用和原位清洗,并且价格合理,可用作实验室规模、生物工艺和GMP应用的一次性色谱柱;
(14)体积排除柱
(15)空纯化柱:Proteus 一步批处理离心柱,Proteus FliQ FPLC Columns;
(16)样品制备:Proteus Mini 澄清离心柱;
(17)浓缩:变形杆菌X-微调器超滤浓缩器;
(18)蛋白质电泳:实时染色,Elite预染蛋白分子量标准,Eco预染蛋白质分子量标准;
(19)快速考马斯蛋白染色;
(20)蛋白质印迹底物。
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艾美捷科技代理Ambinter品牌。
Ambinter隶属于Greenpharma品牌,是重要的药物发现专用化合物供应商。Ambinter拥有超过25年的合成经验,其数据库包含超过4600万种用于高通量筛选的化合物、构建模块以及各种片段和天然产物。Ambinter提供具有高度生物活性的复杂和稀有化学品。在Greenpharma的支持下,Ambinter还提供包括定制合成、化学信息学和分子建模、分析化学、研发项目管理在内的服务项目。
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艾美捷科技代理Bio Academia品牌。
Bio Academia公司致力于生命科学领域的研究与开发,为全球的科研机构、高校和企业提供高质量的生命科学产品和技术服务。公司拥有一支由资深科学家和技术专家组成的团队,具备丰富的行业经验和专业知识,能够为客户提供定制化的解决方案和全方位的技术支持。
Bio Academia公司的产品与服务包括:
(1)生命科学试剂:Bio Academia公司提供一系列生命科学试剂,包括但不限于DNA/RNA提取试剂、PCR试剂、酶类试剂、细胞培养试剂等。这些试剂均经过严格的质量控制,确保实验的准确性和可靠性。
(2)实验耗材与仪器:公司还销售各种实验耗材,如离心管、PCR管、培养皿等,以及生命科学研究中常用的仪器设备,如离心机、PCR仪、电泳仪等。这些耗材和仪器均来自知名品牌,质量有保障。
(3)技术服务:Bio Academia公司提供多种技术服务,如分子生物学实验设计、实验技术培训、数据分析等。公司的技术团队能够根据客户的具体需求,提供定制化的技术解决方案,帮助客户解决实验中遇到的问题。
Bio Academia公司的产品和服务广泛应用于生物学、医学、农学等多个领域。例如,在生物学研究中,公司提供的试剂和耗材可用于基因克隆、基因表达分析、蛋白质纯化等实验;在医学研究中,公司的产品和服务可用于疾病诊断、药物筛选等;在农学研究中,公司的产品和服务可用于作物遗传改良、病虫害防控等。
<<< " data-original="http://worthington.51antibodies.com/template/company/xys_lvse/skin/image/lazyLoad.jpg" alt="艾美捷科技代理Bio Academia品牌"> 艾美捷科技代理Bio Academia品牌
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)。
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:18771997407
邮箱:sales@amyjet.com
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