Catalog name Description price
R-M2-10661 Glycocholic acid-Biotin Biotin-Glycocholic acid is a research specific complex that combines the characteristics of biotin and glycocholic acid. It combines the emulsifying and metabolic regulatory activities of glycocholic acid with the high specificity binding ability of streptavidin for biotin, and has good overall stability. It can be used as a biomarker probe, suitable for experimental scenarios such as biological detection, fluorescence imaging, and targeted separation, relying on the biotin avidin system to achieve high-sensitivity recognition and tracing of glycocholic acid related molecules. price>
R-M2-10662 Stearic acid-biotin Biotin-Stearic acid/Stearic acid-biotin, also known as Biotin-SA, is a functional derivative formed by chemical coupling between biotin and stearic acid. It is a typical modular amphiphilic molecule: the hydrophilic end is a biotin group, which can achieve high specificity binding with streptavidin. It can be used for lipid membrane labeling, nanocarrier/liposome modification, constructing targeted drug delivery systems, and can also serve as a multifunctional probe for protein binding research, biomolecule labeling, and visualization tracking in scientific research scenarios. price>
R-M2-10663 Palmitic acid-biotin Biotin-Palmitic acid is a bifunctional amphiphilic molecule formed by the coupling of palmitic acid and biotin through chemical bonds. It can be used as a live cell membrane tracking tool, combined with streptavidin fluorescent dye, to visually observe the distribution and endocytosis process of the cell membrane. It can also serve as an exclusive probe for lipid modification, capturing membrane proteins and lipid raft signaling proteins modified by palmitoylation in cells, and studying protein lipid modification and downstream signaling pathways. price>
R-M2-10664 Myristic acid-biotin Biotin-Myristic acid combines the protein acylation modification ability of myristic acid with the highly specific binding properties of biotin and streptavidin, making it a typical amphiphilic functional derivative. It is widely used in the tracking research of protein nutmeg acylation modification, cell membrane lipid raft labeling, and biotin functionalization modification of nanocarriers. It relies on the biotin avidin system to achieve high-sensitivity capture and visual tracking of target molecules, and is a core tool reagent in the field of lipoprotein research. price>
R-M2-10666 Biotin-Citric acid Nitric acid-Biotin is a functionalized derivative that combines the strong specific binding affinity of biotin avidin (Kd ≈10 -15M) with the multi carboxyl metal chelation and multi site modification ability of citric acid. It can be used for biomarkers and immune detection, nanomaterial modification, targeted drug delivery, and environmental functional materials. price>
R-M2-10673 Corylifol A-Biotin Biotin labeled Corylifol A/Biotin-Corylifol A is a functional derivative. Based on the highly specific interaction between biotin and streptavidin, it can be used for target fishing and protein interaction verification of psoralen A, supporting its pharmacological mechanism research related to anti-inflammatory and anti-tumor effects. price>
R-M2-10674 Biotin-Methyl Vanillate Biotin labeled Methyl Vanillate/Methyl Vanillate-Biotin is a functional research derivative used only in basic research scenarios related to biomedical and pharmaceutical fields. By relying on biotin labeling technology, enrichment and identification of vanillic acid methyl ester binding protein can be achieved in proteomics research,supporting the study of its anti-inflammatory and metabolic regulation related pharmacological mechanisms.It can be used to construct a detection system based on biotin streptavidin system,achieving high-sensitivity tracing and quantitative analysis of methyl vanillic acid in biological samples. price>
R-M2-10675 Biotin-3-Hydroxydodecanoic acid Biotin labeled 3-Hydroxydodecanoic acid/3-Hydroxydodecanoic acid-Biotin is a functionalized derivative. It can be used for tracking the metabolic pathways related to 3-hydroxydodecanoic acid, enriching its binding proteins in cells through biotin tags, and analyzing the regulatory mechanisms of fatty acid metabolism. It can also construct fatty acid related biological probes for targeted labeling and purification of lipidomics samples. As a functional intermediate, it is used to prepare targeted and enriched fatty acid drug carriers, improving the tracking efficiency during drug delivery. price>
R-M2-10676 Alkyne-Hypotaurine Hypotaurine-Alkyne is a biologically orthogonal functional derivative obtained by covalently coupling alkyne functional groups to the parent structure of taurine, and can only be used in scientific research scenarios. It can be used as a targeted marker in the study of hydrogen sulfide related signaling pathways, achieving the localization and tracking of taurine in cells; It can also be used as a functional block to construct a new type of biological probe that combines hydrogen sulfide response and click chemistry coupling ability, supporting the mechanism analysis of sulfur-containing biochemical processes. price>