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Catalog	name	Description	price
R-M1-8874	FITC-Urokinase	FITC-Urokinase/Fluorescein isothiocyanate (FITC)-Urokinase/Fluorescein isothiocyanate-Urokinase/Urokinase,FITC labed refers to the conjugation of the molecule urokinase with Fluorescein isothiocyanate (FITC). Urokinase is a serine protease enzyme that plays a role in fibrinolysis, the breakdown of blood clots. FITC is a commonly used fluorescent dye in biological research. When urokinase is conjugated with FITC, the resulting complex can be used as a tool for various research applications, particularly for visualizing the distribution and activity of urokinase in biological systems. The fluorescence emitted by FITC can allow for the tracking and imaging of urokinase in cells or tissues.	price>
R-M-5422	Texas Red amine	Texas Red, also known as sulfonated rhodamine 101, is a traditional but still commonly used red fluorescent dye. The main excitation peak of Texas Red dye is 589 nm, and it can also be excited by krypton laser at about 567 nm. The excitation efficiency is slightly lower. The fluorescence emission peak of Dezhou red is about 615 nm, which belongs to the visible area of human flesh eye and is more sensitive. Dezhou red molecule has sulfonate ion, good water solubility and bright fluorescence. It can be used to develop antigens with very low expression. (Texas Red amine) the product contains amino functional groups and can react with functional groups such as carboxylic acid. 6 carbon short chain helps to separate dye molecules from labeled objects, improve labeling efficiency and reduce the impact of labeled objects on dye molecules.	price>
R-C-4667	DMPE-PEG350-Cyanine5.5	1,2-Dimyristoyl-sn-glycero-3-Phosphoethanolamine (DMPE) conjugated Polyethylene Glycol,DMPE PEG is a phospholipid PEG conjugate which has both hydrophilicity and hydrophobility.Pegylated phospholipids are excellent liposome formation materials that can be used for drug delivery,gene transfection and vaccine delivery as well.	price>
R-C-4757	DSPE-PEG750-PPGAYHGA	The polyethylene glycol copolymer with biodegradable and biocompatible polyester chain segments can also be used to prepare core-shell micelles, nanoparticles and microspheres.The active group at the end of the product can link some modified peptides,proteins,carbohydrates,folic acid or antibodies to make them have active targeting effect.	price>
R-M1-8875	EKEKEKE-PPPPC	EKEKEKE-PPPPC often corresponds to a specific peptide or protein sequence, and each amino acid within the sequence plays a role in determining the properties and function of the resulting peptide or protein.	price>
R-M-5423	Texas Red maleimide	Texas Red maleimide,Sulforhodamine 101 maleimide from ruixi.Texas Red, also known as sulfonated rhodamine 101, is a traditional but still commonly used red fluorescent dye. The main excitation peak of Texas Red dye is 589 nm, and it can also be excited by krypton laser at about 567 nm. The excitation efficiency is slightly lower. The fluorescence emission peak of Dezhou red is about 615 nm, which belongs to the visible area of human flesh eye and is more sensitive. Dezhou red molecule has sulfonate ion, good water solubility and bright fluorescence. It can be used to develop antigens with very low expression. Maleimide is a group commonly used in biomarker reaction. It can generate stable thioether structure through affinity addition reaction with sulfhydryl (- SH), so as to realize labeling. Although amino groups (such as lysine arginine side chain) also have affinity, maleimide selectively labels sulfhydryl groups in neutral or slightly acidic buffer (reaction speed > 1000 times faster than amino groups). The labeling reaction has the advantages of rapid reaction, high selectivity and good yield. In addition, sulfhydryl is a functional group widely existing in biomolecules, such as serine and disulfide bond in proteins. Therefore, maleimide / thiol labeling has become the most commonly used biological ligation reaction second only to NHS / amino labeling.	price>
R-C-4758	PLGA-PEG-RB	Poly(L-lactide-co-glycolide)-Polyethylene glycol-Rhodamine B can be used to prepare new targeting products such as micelles or vesicles. The active group at the end of the product can link some modified peptides, proteins, carbohydrates, folate or antibodies, so that it has active targeting effect	price>
R-M1-8876	CY3-Proline	The CY3-Proline/Cyanine3-Proline/Proline,Cyanine3 labed/Proline,Cy3 labed conjugate can be applied in studies involving protein localization, dynamics, and interactions. It can also be used in techniques such as fluorescence microscopy, live-cell imaging, and fluorescence-based assays to investigate the behavior and distribution of proline-containing molecules.	price>
R-M-5424	Cy3-PEG-Cy5	Cy3-PEG-Cy5,Cyanine3-Polyethylene glycol-Cyanine5 from ruixi.Cy3-peg-cy5 can be used in fluorescence tracking, in vivo imaging and other fields.	price>
R-C-4759	PLGA-PEG350-Rhodamine B	Poly(L-lactide-co-glycolide)-Polyethylene glycol-Rhodamine B can be used to prepare new targeting products such as micelles or vesicles.The active group at the end of the product can link some modified peptides,proteins,carbohydrates,folate or antibodies, so that it has active targeting effect	price>
R-M1-8877	SH-TAT(CYGRKKRRQRRR)	SH-TAT(CYGRKKRRQRRR) likely denotes a peptide with an N-terminal modification, coupled to the TAT protein transduction domain and containing a cysteine residue, followed by the TAT sequence.(CYGRKKRRQRRR): This sequence likely represents the sequence of amino acids in the peptide. The prefix "C" in parentheses indicates the presence of a cysteine residue, and the sequence "YGRKKRRQRRR" corresponds to the TAT protein transduction domain. The presence of the cysteine suggests the potential for disulfide bond formation or other biochemical modifications involving the thiol group of cysteine. This type of modified peptide could potentially be used in biological research for various applications, such as studying cell-penetrating peptides, protein transduction, or the delivery of therapeutic molecules into cells. The specific modifications in the sequence may confer certain biochemical properties or functionalities to the peptide.	price>
R-M-5425	Cy3-PEG350-Cy5	Cy3-PEG-Cy5,Cyanine3-Polyethylene glycol-Cyanine5 from ruixi.Cy3-peg-cy5 can be used in fluorescence tracking, in vivo imaging and other fields.	price>
R-C-4760	PLGA-Polyethylene glycol550-RB	Poly(L-lactide-co-glycolide)-Polyethylene glycol-Rhodamine B can be used to prepare new targeting products such as micelles or vesicles.The active group at the end of the product can link some modified peptides,proteins,carbohydrates, folate or antibodies, so that it has active targeting effect	price>
R-M-5426	Cy3-PEG550-Cy5	Cy3-PEG-Cy5,Cyanine3-Polyethylene glycol-Cyanine5 from ruixi.Cy3-peg-cy5 can be used in fluorescence tracking, in vivo imaging and other fields.	price>
R-C-4761	Rhodamine B-PEG750-PLGA	Poly(L-lactide-co-glycolide)-Polyethylene glycol-Rhodamine B can be used to prepare new targeting products such as micelles or vesicles. The active group at the end of the product can link some modified peptides, proteins, carbohydrates, folate or antibodies, so that it has active targeting effect	price>
R-M1-8879	COF-V	Covalent organic frameworks (COFs) are a class of porous, crystalline, and stable materials that are composed of organic building blocks linked by covalent bonds. These frameworks are typically designed to have specific pore sizes and shapes, as well as tunable chemical and physical properties, making them attractive for various applications, including gas storage, catalysis, sensing, and separation.The "V" in "covalent organic framework-V" likely indicates the incorporation of vanadium (V) atoms or complexes into the COF structure. The introduction of metal atoms or coordination sites within COFs can lead to enhanced properties and functionalities, such as improved catalytic activity, selective binding of specific molecules, or electronic conductivity.	price>
R-M-5427	Cy3-PEG750-Cy5	Cy3-PEG-Cy5,Cyanine3-Polyethylene glycol-Cyanine5 from ruixi.Cy3-peg-cy5 can be used in fluorescence tracking, in vivo imaging and other fields.	price>
R-C-4762	DSPE-PEG350-pPB(CSRNLIDC)	As a receptor targeted anticancer carrier,stearyl phosphatidylethanolamine polyethylene glycol (PEG-pPB) polypeptides have been increasingly used to improve the effect of chemotherapy drugs.It has also been proved by experiments that it can enhance the targeting specificity of drugs,enhance the targeted absorption of drugs,improve the anti-tumor effect,and also can improve the original insoluble properties of some small molecule drugs.Peptide carrier targeting technology is known as a new generation of targeted drug development technology.	price>
R-M1-8880	FITC-YARAAARQARAGC-NH2	FITC-YARAAARQARAGC-NH2 is a fluorescently labeled peptide conjugate that can be valuable in various research applications, including cell biology, biochemistry, and molecular imaging.	price>
R-M-5428	Carboxyrhodamine 110 LC Acid	Carboxyrhodamine 110 also known as Rhodamine Green™ Carboxylic Acid. The amine-reactive Carboxyrhodamine 110 LC can be used to create bright and photostable green-fluorescent bioconjugates with excitation/emission maxima ~502/527 nm. For many applications, the dye is preferred over carboxyfluorescein or FITC because of its exceptional photostability and fluorescence insensitivity to pH (4-9).(Carboxyrhodamine 110 LC Acid)This reagent is supplied as Boc protected derivative to ensure compatibility with Fmoc solid phase peptide synthesis. Medium length, hydrophobic spacer arm (total length is 22.4 angstroms) provides an adequate separation between the dye and peptide. Spacers of different lengths are available upon request.	price>

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