Binding assay of selected FITC-labeled DNA aptamer AraHH001 against a series of cells, and cell lines by a flow cytometry assay.Mst. Naznin AraMamoru HyodoNoritaka OhgaKyoko HidaHideyoshi Harashima
荧光Cy5标记的DNA适配子T1(Cy5-T1)
Collagen 胶原蛋白是生物高分子,动物结缔组织中的主要成分,也是哺乳动物体内含量多、分布广的功能性蛋白,占蛋白质总量的25%~30%,某些生物体甚至高达80%以上。 中文名胶原蛋白 英文名 Collagens polypeptide 中文别名 去端肽胶原 密度1.4±0.1 g/cm3 沸点558.2±60.0 °C at 760 mmHg 分子式 C13H24N4O4 分子...
FITC-Dextrhai 是由 FITC 偶联葡聚糖形成的一种标记物。FITC-Dextrhais 是由不同长度的支链葡萄糖分子组成的被标记的多糖,分子量从 4-70 kDa 不等。 产地:上海 纯度:99% 相关产品: 绿色荧光素标记壳聚糖,FITC-Chitoshai,Chitoshai-Fluorescein FITC-Chitoshai MW:20K绿色荧光标记壳聚糖 FITC-Chitoshai 5000,绿色...
ODN 2006 FITC is a labeled version of the ODN 2006 (ODN 7909), a Class B CpG oligonucleotide (ODN). ODN 2006 is a short synthetic single-stranded DNA molecule containing unmethylated CpG dinucleotides (CpG motifs). These unmethylated CpG motifs mimic microbial DNA and act as immunostimulants....
Complementary DNA was synthesized using the Superscript IV First-Strand Synthesis system (Invitrogen, CA, USA) to generate scFv-displaying phage libraries as described previously (C.F. Barbas, Phage Display: A Laboratory Manual, Cold Spring Harbor Laboratory Press, Cold Spring Harbor, NY, 2001). ...
ODN 1826 is a short synthetic single-stranded DNA molecule containing unmethylated CpG dinucleotides (CpG motifs). It contains a full phosphorothioate backbone and is nuclease-resistant. These synthetic unmethylated CpG motifs mimic microbial DNA and act as immunostimulants via TLR9. More details ...
本制品为FITC标记的鬼笔环肽,染色反应特异性强,对比性高,具有比Actin抗体更好的染色效果,适合用作F-actin的定性和定量检测。另外,经本品结合后的F-actin仍能维持actin自身具有的许多生物学特性。且本制品的结合没有物种差异性,适用性广泛。我司分别提供冻干粉形式和储存液形式(浓度为20μM)的FITC标记鬼笔环肽,用户...
The observed quenching in situ therefore cannot be explained by direct binding of PI to the poly(dU) tails synthesized by TdT in situ in apoptotic cells, but may rather be clue to radiationless energy transfer from FITC to PI bound to double-stranded DNA close to the nicks where TdT is ...
DNA or deoxyribooligonucleotides in a complex with histones can enhance or inhibit peptide binding. It is suggested that site-specific interactions of short biologically active peptides with histone tails can serve in chromatin as control epigenetic mechanisms of regulation of gene acti...