1.A metalloprotein nanoparticle scaffold co-delivers antigens and adjuvants with metal-enhanced STING activation for vaccination preventing viral infections
Jiexin Li a , QianQiu a ,HeRen a ,JingyuZhanga , ChenZhang a , Gengqi Liu a , Boyang Sun a ,Bin Zhengb, JonathanF.Lovellc ,YumiaoZhang https://doi.org/10.1016/j.nantod.2024.102156
产品介绍 酪胺信号放大技术(Tyramide Signal Amplification)又称催化信号放大技术(Catalyzed Signal Amplification),是一类利用HRP对靶抗原进行高密度原位标记的酶学检测方法,其不但可以用于IF/IHC的信号放大,亦可用于Elisa、ISH等检测。 酪胺信号放大技术可以用于检测用传统方法无法检出的低丰度靶标。基于酪胺的信号放大技术能够提供极强的灵敏度、检测极微量的目的抗原。酪胺信号放大技术极大的降低抗体的用量,节约抗体。酪胺信号放大试剂盒可与传统染色方法结合使用以多色成像,也可以顺序进行两个或更多个酪胺反应以标记一个样品上的不同靶标。
产品介绍 Dihydroethidium(Hydroethidine)是常用的 DNA 染料溴化乙锭的还原形式,它可以检测活细胞内的氧化活性,也可以检测吞噬细胞的“呼吸爆发”。Dihydroethidium 本身在细胞中具有蓝色荧光(Ex/Em:355/420 nm),当它进入细胞中,脱氢后会成为氧化形式的乙锭,当与 DNA 嵌合时,氧化形式的乙锭会发出红色荧光(Ex/Em:518/605 nm)。
参考文献 1.Treatment with dihydroethidium reduces infarct size after transient focal cerebral ischemia in mice. 应用方向:Dihydroethidium对脑卒中后小鼠具有神经保护作用
2.Detection of intracellular superoxide formation in endothelial cells and intact tissUEs using dihydroethidium and an HPLC-based assay. 应用方向:检测内皮细胞和完整组织中细胞内超氧物的形成
3.Reactive oxygen species play no role in the candidacidal activity of the salivary antimicrobial peptide histatin 5. 应用方向:白色念珠菌产生活性氧的指示剂
4.Increased prooxidant production and enhanced susceptibility to glutathione depletion in HepG2 cells co-expressing HCV core protein and CYP2E1. 应用方向:测定细胞氧化程度
5.Ischemic preconditioning alters real-time measure of O2 radicals in intact hearts with ischemia and reperfusion. 应用方向:连续测定离体豚鼠心脏细胞内ROS-超氧化物(O2-)含量
参考文献 1.Spectral characterization of the voltage-sensitive dye di-4-ANEPPDHQ applied to probing live primary and immortalized neurons. 应用方向:与原代大鼠海马神经元和永生化小鼠下丘脑神经元(GT1-7)的质膜结合
2.Cholesterol-enriched lipid domains can be visualized by di-4-ANEPPDHQ with linear and nonlinear optics. 应用方向:应用于模型膜和细胞脂质结构域的生物物理研究中
3.Laurdan and di-4-ANEPPDHQ do not respond to membrane-inserted peptides and are good probes for lipid packing. 应用方向:光谱位移不受膜蛋白的影响,是评估细胞内脂质顺序的合适探针
4.Characterization and application of a new optical probe for membrane lipid domains. 应用方向:报告细胞膜中脂质结构域
产品介绍 酪胺信号放大技术(Tyramide Signal Amplification)又称催化信号放大技术(Catalyzed Signal Amplification),是一类利用HRP对靶抗原进行高密度原位标记的酶学检测方法,其不但可以用于IF/IHC的信号放大,亦可用于Elisa、ISH等检测。 酪胺信号放大技术可以用于检测用传统方法无法检出的低丰度靶标。基于酪胺的信号放大技术能够提供极强的灵敏度、检测极微量的目的抗原。酪胺信号放大技术极大的降低抗体的用量,节约抗体。酪胺信号放大试剂盒可与传统染色方法结合使用以多色成像,也可以顺序进行两个或更多个酪胺反应以标记一个样品上的不同靶标。
参考文献 1.Concentration-Dependent Staining of Lactotroph Vesicles by FM 4-64 应用方向:染色细胞质膜和囊泡基质
2.Chapter 7 Monitoring Autophagy in Yeast using FM 4‐64 Fluorescence 应用方向:跟踪自噬体的积累
3.Confocal microscopy of FM4-64 as a tool for analysing endocytosis and vesicle trafficking in living fungal hyphae 应用方向:染色真菌菌丝、囊泡
4.Spectral Shift of Fluorescent Dye FM4-64 Reveals Distinct Microenvironment of Nuclear Envelope in Living Cells 应用方向:活细胞核膜可视化和功能研究
5.Confocal Laser Scanning Microscopy of Hamster Cerebellum Using FM4-64 as Intracellular Staining 应用方向:胞内染色剂和皮质内示踪剂
6.FM dyes enter via a store-operated calcium channel and modify calcium signaling of cultured astrocytes 应用方向:进入星形胶质细胞影响钙稳态稳态 7.A New Vital Stain for Visualizing Vacuolar Membrane Dynamics and Endocytosis in Yeast 应用方向:液泡动力学的敏感报告剂
8.Endocytosis and Vacuolar Morphology in Saccharomyces cerevisiae Are Altered in Response to Ethanol Stress or Heat Shock 应用方向:染色酵母细胞、研究内吞作用
9.Visualization of membrane domains in Escherichia coli 应用方向:染色细菌膜
10.Slow spontaneous secretion from single larg 应用方向:染色囊泡研究激素的释放途径
11.Calcium-Dependent Exocytosis of Atrial Natriuretic Peptide from Astrocytes 应用方向:标记质膜,监测胞吐
12.Selective labeling of embryonic neurons cultured on astrocyte monolayers with 5( 6) -carboxyfluorescein diacetate (CFDA) 应用方向:选择性标记培养神经元
13.Selection of bacteriophage-resistant mutants of Streptococcus thermophilus 应用方向:筛选出排出5(6)-CFDA速度较快的菌株
14.Pentamidine Is Active in Vitro Against Fusarium Species 应用方向:染色尖孢镰刀菌菌丝
15.Dehydrothyrsiferol Does Not Modulate Multidrug Resistance-Associated Protein 1 Resistance: A Functional Screening System for MRP1 Substrates 应用方向:构建一个基于荧光的药物流出系统
参考文献 1.Optimization of cytotoxic assay by target cell retention of the fluorescent dye carboxyfluorescein diacetate (CFDA) and comparison with conventional 51CR release assay 应用方向:细胞毒性分析
2.Tracking of leukocyte recruitment into tissUEs of mice by in situ labeling of blood cells with the fluorescent dye CFDA SE 应用方向:CFDA SE:细胞示踪,静脉注射标记小鼠血细胞
3.Selective labeling of embryonic neurons cultured on astrocyte monolayers with 5(6)-carboxyfluorescein diacetate (CFDA) 应用方向:标记神经元
4.Use of CFDA-SE for evaluating the in vitro proliferation pattern of human mesenchymal stem cells 应用方向:细胞增殖检测:间充质干细胞(MSC)
5.5,6-carboxyfluorescein diacetate succinimidyl ester-labeled apoptotic and necrotic as well as detergent-treated cells can be traced in composite cell samples 应用方向:细胞分选:区分凋亡、坏死和正常细胞
参考文献: 1.4D Super-Resolution Microscopy with Conventional Fluorophores and Single Wavelength Excitation in Optically Thick Cells and TissUEs 应用方向:人体组织切片,心脏大鼠心肌细胞和密集生长的神经元培养物
2.Fluorescent phallotoxins as probes for filamentous actin 应用方向:组织切片、动物细胞、植物细胞
3.A balance of Btk and SHIP activation regulates B-cell receptor cluster formation by controlling actin remodeling 应用方向:哺乳动物细胞:小鼠脾B细胞
4.Fluorescent phallotoxins as probes for filamentous actin 应用方向:组织切片
5.Formation of actin clusters in rat liver parenchymal cells on phalloidin poisoning as visualized by a fluorescent phallotoxin 应用方向:组织切片
6.F-actin architecture in coleoptile epidermal cells 应用方向:植物细胞
7.A Rac switch regulates random versus directionally persistent cell migration 应用方向:哺乳动物细胞: 原代人类成纤维细胞
8.A role for actin, Cdc1p, and Myo2p in the inheritance of late Golgi elements in Saccharomyces cerevisiae. 应用方向:酿酒酵母菌细胞
参考文献 1.Measuring the induced membrane voltage with Di-8-ANEPPS 应用方向:哺乳动物细胞膜电位检测:仓鼠卵巢细胞系(CHO-K1)
2.Optical imaging and functional characterization of the transverse tubular system of mammalian muscle fibers using the potentiometric indicator di-8-ANEPPS 应用方向:哺乳动物骨骼肌纤维中横管系统研究
3.A high-resolution, confocal laser-scanning microscope and flash photolysis system for physiological studies 应用方向:组织切片膜染色:离体大鼠心肌细胞切片
4.Properties of the demarcation membrane system in living rat megakaryocytes 应用方向:哺乳动物分界膜电位检测
5.A K+-selective cGMP-gated ion channel controls chemosensation of sperm 应用方向:膜电位探针:海胆精子
酪胺信号放大技术(Tyramide Signal Amplification)又称催化信号放大技术(Catalyzed Signal Amplification),是一类利用HRP对靶抗原进行高密度原位标记的酶学检测方法,其不但可以用于IF/IHC的信号放大,亦可用于Elisa、ISH等检测。 酪胺信号放大技术可以用于检测用传统方法无法检出的低丰度靶标。基于酪胺的信号放大技术能够提供极强的灵敏度、检测极微量的目的抗原。酪胺信号放大技术极大的降低抗体的用量,节约抗体。酪胺信号放大试剂盒可与传统染色方法结合使用以多色成像,也可以顺序进行两个或更多个酪胺反应以标记一个样品上的不同靶标。
参考文献 1.Paraoxonase 2 decreases renal reactive oxygen species production, lowers blood pressure, and mediates dopamine D2 receptor-induced inhibition of NADPH oxidase 应用方向:polyclonal rabbit anti-PON2 antibody/ polyclonal rabbit anti-D2R antibody
2.The Q loops of the human multidrug resistance transporter ABCB1 are necessary to couple drug binding to the ATP catalytic cycle 应用方向:Primary antibody 4E3
3.Increased Metabolite Levels of Glycolysis and Pentose Phosphate Pathway in Rabbit Atherosclerotic Arteries and Hypoxic Macrophage 应用方向:anti-Ki-67 antibody/anti-macrophage antibody / anti-SMC antibody
4.Mucosal immunoglobulins at respiratory surfaces mark an ancient association that predates the emergence of tetrapods 应用方向:rabbit anti-trout IgT / mouse anti-trout IgM / rabbit anti-Ich
5.Data ofrationalprocessoptimization for the production of a full IgG and its Fab fragment from hybridoma cells 应用方向:IgG
6.Adenoviral L4 33K forms ring-like oligomers and stimulates ATPase activity of IVa2: implications in viral genome packaging 应用方向:polyclonal anti-IVa2 and anti-33K antibodies
7.Principal cell activity induces spine relocation of adult-born interneurons in the olfactory bulb 应用方向:Anti-synaptophysin antibody
8.Enhancing proteasome-inhibitory activity and specificity of bortezomib by CD38 targeted nanoparticles in multiple myeloma 应用方向:anti-CD38 chitosan NPs
酪胺信号放大技术(Tyramide Signal Amplification)又称催化信号放大技术(Catalyzed Signal Amplification),是一类利用HRP对靶抗原进行高密度原位标记的酶学检测方法,其不但可以用于IF/IHC的信号放大,亦可用于Elisa、ISH等检测。 酪胺信号放大技术可以用于检测用传统方法无法检出的低丰度靶标。基于酪胺的信号放大技术能够提供极强的灵敏度、检测极微量的目的抗原。酪胺信号放大技术极大的降低抗体的用量,节约抗体。酪胺信号放大试剂盒可与传统染色方法结合使用以多色成像,也可以顺序进行两个或更多个酪胺反应以标记一个样品上的不同靶标。
酪胺信号放大技术(Tyramide Signal Amplification)又称催化信号放大技术(Catalyzed Signal Amplification),是一类利用HRP对靶抗原进行高密度原位标记的酶学检测方法,其不但可以用于IF/IHC的信号放大,亦可用于Elisa、ISH等检测。 酪胺信号放大技术可以用于检测用传统方法无法检出的低丰度靶标。基于酪胺的信号放大技术能够提供极强的灵敏度、检测极微量的目的抗原。酪胺信号放大技术极大的降低抗体的用量,节约抗体。酪胺信号放大试剂盒可与传统染色方法结合使用以多色成像,也可以顺序进行两个或更多个酪胺反应以标记一个样品上的不同靶标。
产品介绍 酪胺信号放大技术(Tyramide Signal Amplification)又称催化信号放大技术(Catalyzed Signal Amplification),是一类利用HRP对靶抗原进行高密度原位标记的酶学检测方法,其不但可以用于IF/IHC的信号放大,亦可用于Elisa、ISH等检测。 酪胺信号放大技术可以用于检测用传统方法无法检出的低丰度靶标。基于酪胺的信号放大技术能够提供极强的灵敏度、检测极微量的目的抗原。酪胺信号放大技术极大的降低抗体的用量,节约抗体。酪胺信号放大试剂盒可与传统染色方法结合使用以多色成像,也可以顺序进行两个或更多个酪胺反应以标记一个样品上的不同靶标。
参考文献 1.Paraoxonase 2 decreases renal reactive oxygen species production, lowers blood pressure, and mediates dopamine D2 receptor-induced inhibition of NADPH oxidase 应用方向:polyclonal rabbit anti-PON2 antibody/ polyclonal rabbit anti-D2R antibody
2.The Q loops of the human multidrug resistance transporter ABCB1 are necessary to couple drug binding to the ATP catalytic cycle 应用方向:Primary antibody 4E3
3.Increased Metabolite Levels of Glycolysis and Pentose Phosphate Pathway in Rabbit Atherosclerotic Arteries and Hypoxic Macrophage 应用方向:anti-Ki-67 antibody/anti-macrophage antibody / anti-SMC antibody
4.Mucosal immunoglobulins at respiratory surfaces mark an ancient association that predates the emergence of tetrapods 应用方向:rabbit anti-trout IgT / mouse anti-trout IgM / rabbit anti-Ich
5.Data ofrationalprocessoptimization for the production of a full IgG and its Fab fragment from hybridoma cells 应用方向:IgG
6.Adenoviral L4 33K forms ring-like oligomers and stimulates ATPase activity of IVa2: implications in viral genome packaging 应用方向:polyclonal anti-IVa2 and anti-33K antibodies
7.Principal cell activity induces spine relocation of adult-born interneurons in the olfactory bulb 应用方向:Anti-synaptophysin antibody
8.Enhancing proteasome-inhibitory activity and specificity of bortezomib by CD38 targeted nanoparticles in multiple myeloma 应用方向:anti-CD38 chitosan NPs
产品介绍 酪胺信号放大技术(Tyramide Signal Amplification)又称催化信号放大技术(Catalyzed Signal Amplification),是一类利用HRP对靶抗原进行高密度原位标记的酶学检测方法,其不但可以用于IF/IHC的信号放大,亦可用于Elisa、ISH等检测。 酪胺信号放大技术可以用于检测用传统方法无法检出的低丰度靶标。基于酪胺的信号放大技术能够提供极强的灵敏度、检测极微量的目的抗原。酪胺信号放大技术极大的降低抗体的用量,节约抗体。酪胺信号放大试剂盒可与传统染色方法结合使用以多色成像,也可以顺序进行两个或更多个酪胺反应以标记一个样品上的不同靶标。
产品介绍 酪胺信号放大技术(Tyramide Signal Amplification)又称催化信号放大技术(Catalyzed Signal Amplification),是一类利用HRP对靶抗原进行高密度原位标记的酶学检测方法,其不但可以用于IF/IHC的信号放大,亦可用于Elisa、ISH等检测。 酪胺信号放大技术可以用于检测用传统方法无法检出的低丰度靶标。基于酪胺的信号放大技术能够提供极强的灵敏度、检测极微量的目的抗原。酪胺信号放大技术极大的降低抗体的用量,节约抗体。酪胺信号放大试剂盒可与传统染色方法结合使用以多色成像,也可以顺序进行两个或更多个酪胺反应以标记一个样品上的不同靶标。
产品介绍 100bp DNA Ladder是由11条线状双链DNA条带组成,适用于琼脂糖凝胶电泳中100 bp-1500 bp范围内准确判断DNA片段大小,不建议用于Acrylamide凝胶电泳。本产品为即用型产品,已含有1×Loading Buffer,可根据实验需要,直接上样电泳,使用方便,电泳图像清晰。其中500 bp 条带显示为亮带。
产品介绍 酪胺信号放大技术(Tyramide Signal Amplification)又称催化信号放大技术(Catalyzed Signal Amplification),是一类利用HRP对靶抗原进行高密度原位标记的酶学检测方法,其不但可以用于IF/IHC的信号放大,亦可用于Elisa、ISH等检测。 酪胺信号放大技术可以用于检测用传统方法无法检出的低丰度靶标。基于酪胺的信号放大技术能够提供极强的灵敏度、检测极微量的目的抗原。酪胺信号放大技术极大的降低抗体的用量,节约抗体。酪胺信号放大试剂盒可与传统染色方法结合使用以多色成像,也可以顺序进行两个或更多个酪胺反应以标记一个样品上的不同靶标。
产品介绍 酪胺信号放大技术(Tyramide Signal Amplification)又称催化信号放大技术(Catalyzed Signal Amplification),是一类利用HRP对靶抗原进行高密度原位标记的酶学检测方法,其不但可以用于IF/IHC的信号放大,亦可用于Elisa、ISH等检测。 酪胺信号放大技术可以用于检测用传统方法无法检出的低丰度靶标。基于酪胺的信号放大技术能够提供极强的灵敏度、检测极微量的目的抗原。酪胺信号放大技术极大的降低抗体的用量,节约抗体。酪胺信号放大试剂盒可与传统染色方法结合使用以多色成像,也可以顺序进行两个或更多个酪胺反应以标记一个样品上的不同靶标。
参考文献 1.Paraoxonase 2 decreases renal reactive oxygen species production, lowers blood pressure, and mediates dopamine D2 receptor-induced inhibition of NADPH oxidase 应用方向:polyclonal rabbit anti-PON2 antibody/ polyclonal rabbit anti-D2R antibody
2.The Q loops of the human multidrug resistance transporter ABCB1 are necessary to couple drug binding to the ATP catalytic cycle 应用方向:Primary antibody 4E3
3.Increased Metabolite Levels of Glycolysis and Pentose Phosphate Pathway in Rabbit Atherosclerotic Arteries and Hypoxic Macrophage 应用方向:anti-Ki-67 antibody/anti-macrophage antibody / anti-SMC antibody
4.Mucosal immunoglobulins at respiratory surfaces mark an ancient association that predates the emergence of tetrapods 应用方向:rabbit anti-trout IgT / mouse anti-trout IgM / rabbit anti-Ich
5.Data ofrationalprocessoptimization for the production of a full IgG and its Fab fragment from hybridoma cells 应用方向:IgG
6.Adenoviral L4 33K forms ring-like oligomers and stimulates ATPase activity of IVa2: implications in viral genome packaging 应用方向:polyclonal anti-IVa2 and anti-33K antibodies
7.Principal cell activity induces spine relocation of adult-born interneurons in the olfactory bulb 应用方向:Anti-synaptophysin antibody
8.Enhancing proteasome-inhibitory activity and specificity of bortezomib by CD38 targeted nanoparticles in multiple myeloma 应用方向:anti-CD38 chitosan NPs
产品介绍 酪胺信号放大技术(Tyramide Signal Amplification)又称催化信号放大技术(Catalyzed Signal Amplification),是一类利用HRP对靶抗原进行高密度原位标记的酶学检测方法,其不但可以用于IF/IHC的信号放大,亦可用于Elisa、ISH等检测。 酪胺信号放大技术可以用于检测用传统方法无法检出的低丰度靶标。基于酪胺的信号放大技术能够提供极强的灵敏度、检测极微量的目的抗原。酪胺信号放大技术极大的降低抗体的用量,节约抗体。酪胺信号放大试剂盒可与传统染色方法结合使用以多色成像,也可以顺序进行两个或更多个酪胺反应以标记一个样品上的不同靶标。
产品介绍 酪胺信号放大技术(Tyramide Signal Amplification)又称催化信号放大技术(Catalyzed Signal Amplification),是一类利用HRP对靶抗原进行高密度原位标记的酶学检测方法,其不但可以用于IF/IHC的信号放大,亦可用于Elisa、ISH等检测。 酪胺信号放大技术可以用于检测用传统方法无法检出的低丰度靶标。基于酪胺的信号放大技术能够提供极强的灵敏度、检测极微量的目的抗原。酪胺信号放大技术极大的降低抗体的用量,节约抗体。酪胺信号放大试剂盒可与传统染色方法结合使用以多色成像,也可以顺序进行两个或更多个酪胺反应以标记一个样品上的不同靶标。
参考文献 1.Paraoxonase 2 decreases renal reactive oxygen species production, lowers blood pressure, and mediates dopamine D2 receptor-induced inhibition of NADPH oxidase 应用方向:polyclonal rabbit anti-PON2 antibody/ polyclonal rabbit anti-D2R antibody
2.The Q loops of the human multidrug resistance transporter ABCB1 are necessary to couple drug binding to the ATP catalytic cycle 应用方向:Primary antibody 4E3
3.Increased Metabolite Levels of Glycolysis and Pentose Phosphate Pathway in Rabbit Atherosclerotic Arteries and Hypoxic Macrophage 应用方向:anti-Ki-67 antibody/anti-macrophage antibody / anti-SMC antibody
4.Mucosal immunoglobulins at respiratory surfaces mark an ancient association that predates the emergence of tetrapods 应用方向:rabbit anti-trout IgT / mouse anti-trout IgM / rabbit anti-Ich
5.Data ofrationalprocessoptimization for the production of a full IgG and its Fab fragment from hybridoma cells 应用方向:IgG
6.Adenoviral L4 33K forms ring-like oligomers and stimulates ATPase activity of IVa2: implications in viral genome packaging 应用方向:polyclonal anti-IVa2 and anti-33K antibodies
7.Principal cell activity induces spine relocation of adult-born interneurons in the olfactory bulb 应用方向:Anti-synaptophysin antibody
8.Enhancing proteasome-inhibitory activity and specificity of bortezomib by CD38 targeted nanoparticles in multiple myeloma 应用方向:anti-CD38 chitosan NPs
产品介绍 酪胺信号放大技术(Tyramide Signal Amplification)又称催化信号放大技术(Catalyzed Signal Amplification),是一类利用HRP对靶抗原进行高密度原位标记的酶学检测方法,其不但可以用于IF/IHC的信号放大,亦可用于Elisa、ISH等检测。 酪胺信号放大技术可以用于检测用传统方法无法检出的低丰度靶标。基于酪胺的信号放大技术能够提供极强的灵敏度、检测极微量的目的抗原。酪胺信号放大技术极大的降低抗体的用量,节约抗体。酪胺信号放大试剂盒可与传统染色方法结合使用以多色成像,也可以顺序进行两个或更多个酪胺反应以标记一个样品上的不同靶标。
参考文献 1.Paraoxonase 2 decreases renal reactive oxygen species production, lowers blood pressure, and mediates dopamine D2 receptor-induced inhibition of NADPH oxidase 应用方向:polyclonal rabbit anti-PON2 antibody/ polyclonal rabbit anti-D2R antibody
2.The Q loops of the human multidrug resistance transporter ABCB1 are necessary to couple drug binding to the ATP catalytic cycle 应用方向:Primary antibody 4E3
3.Increased Metabolite Levels of Glycolysis and Pentose Phosphate Pathway in Rabbit Atherosclerotic Arteries and Hypoxic Macrophage 应用方向:anti-Ki-67 antibody/anti-macrophage antibody / anti-SMC antibody
4.Mucosal immunoglobulins at respiratory surfaces mark an ancient association that predates the emergence of tetrapods 应用方向:rabbit anti-trout IgT / mouse anti-trout IgM / rabbit anti-Ich
5.Data ofrationalprocessoptimization for the production of a full IgG and its Fab fragment from hybridoma cells 应用方向:IgG
6.Adenoviral L4 33K forms ring-like oligomers and stimulates ATPase activity of IVa2: implications in viral genome packaging 应用方向:polyclonal anti-IVa2 and anti-33K antibodies
7.Principal cell activity induces spine relocation of adult-born interneurons in the olfactory bulb 应用方向:Anti-synaptophysin antibody
8.Enhancing proteasome-inhibitory activity and specificity of bortezomib by CD38 targeted nanoparticles in multiple myeloma 应用方向:anti-CD38 chitosan NPs
参考文献 1.Paraoxonase 2 decreases renal reactive oxygen species production, lowers blood pressure, and mediates dopamine D2 receptor-induced inhibition of NADPH oxidase 应用方向:polyclonal rabbit anti-PON2 antibody/ polyclonal rabbit anti-D2R antibody
2.The Q loops of the human multidrug resistance transporter ABCB1 are necessary to couple drug binding to the ATP catalytic cycle 应用方向:Primary antibody 4E3
3.Increased Metabolite Levels of Glycolysis and Pentose Phosphate Pathway in Rabbit Atherosclerotic Arteries and Hypoxic Macrophage 应用方向:anti-Ki-67 antibody/anti-macrophage antibody / anti-SMC antibody
4.Mucosal immunoglobulins at respiratory surfaces mark an ancient association that predates the emergence of tetrapods 应用方向:rabbit anti-trout IgT / mouse anti-trout IgM / rabbit anti-Ich
5.Data ofrationalprocessoptimization for the production of a full IgG and its Fab fragment from hybridoma cells 应用方向:IgG
6.Adenoviral L4 33K forms ring-like oligomers and stimulates ATPase activity of IVa2: implications in viral genome packaging 应用方向:polyclonal anti-IVa2 and anti-33K antibodies
7.Principal cell activity induces spine relocation of adult-born interneurons in the olfactory bulb 应用方向:Anti-synaptophysin antibody
8.Enhancing proteasome-inhibitory activity and specificity of bortezomib by CD38 targeted nanoparticles in multiple myeloma 应用方向:anti-CD38 chitosan NPs
产品介绍 酪胺信号放大技术(Tyramide Signal Amplification)又称催化信号放大技术(Catalyzed Signal Amplification),是一类利用HRP对靶抗原进行高密度原位标记的酶学检测方法,其不但可以用于IF/IHC的信号放大,亦可用于Elisa、ISH等检测。 酪胺信号放大技术可以用于检测用传统方法无法检出的低丰度靶标。基于酪胺的信号放大技术能够提供极强的灵敏度、检测极微量的目的抗原。酪胺信号放大技术极大的降低抗体的用量,节约抗体。酪胺信号放大试剂盒可与传统染色方法结合使用以多色成像,也可以顺序进行两个或更多个酪胺反应以标记一个样品上的不同靶标。
酪胺信号放大技术(Tyramide Signal Amplification)又称催化信号放大技术(Catalyzed Signal Amplification),是一类利用HRP对靶抗原进行高密度原位标记的酶学检测方法,其不但可以用于IF/IHC的信号放大,亦可用于Elisa、ISH等检测。 酪胺信号放大技术可以用于检测用传统方法无法检出的低丰度靶标。基于酪胺的信号放大技术能够提供极强的灵敏度、检测极微量的目的抗原。酪胺信号放大技术极大的降低抗体的用量,节约抗体。酪胺信号放大试剂盒可与传统染色方法结合使用以多色成像,也可以顺序进行两个或更多个酪胺反应以标记一个样品上的不同靶标。
酪胺信号放大技术(Tyramide Signal Amplification)又称催化信号放大技术(Catalyzed Signal Amplification),是一类利用HRP对靶抗原进行高密度原位标记的酶学检测方法,其不但可以用于IF/IHC的信号放大,亦可用于Elisa、ISH等检测。 酪胺信号放大技术可以用于检测用传统方法无法检出的低丰度靶标。基于酪胺的信号放大技术能够提供极强的灵敏度、检测极微量的目的抗原。酪胺信号放大技术极大的降低抗体的用量,节约抗体。酪胺信号放大试剂盒可与传统染色方法结合使用以多色成像,也可以顺序进行两个或更多个酪胺反应以标记一个样品上的不同靶标。
产品介绍 酪胺信号放大技术(Tyramide Signal Amplification)又称催化信号放大技术(Catalyzed Signal Amplification),是一类利用HRP对靶抗原进行高密度原位标记的酶学检测方法,其不但可以用于IF/IHC的信号放大,亦可用于Elisa、ISH等检测。 酪胺信号放大技术可以用于检测用传统方法无法检出的低丰度靶标。基于酪胺的信号放大技术能够提供极强的灵敏度、检测极微量的目的抗原。酪胺信号放大技术极大的降低抗体的用量,节约抗体。酪胺信号放大试剂盒可与传统染色方法结合使用以多色成像,也可以顺序进行两个或更多个酪胺反应以标记一个样品上的不同靶标。
L4086S/L4086L 